Description

[0001]This application claims the benefit of U.S. Provisional Patent Application Ser. No. 60/869,290, filed Dec. 8, 2006.

FIELD OF THE INVENTION

[0002]The present invention relates to plant genes involved in nitrate uptake and metabolism.

BACKGROUND OF THE INVENTION

[0003]Nitrogen plays an important role in various plant functions, including metabolism, resource allocation, growth, and development (Crawford, N. M., "Nitrate: Nutrient and Signal for Plant Growth," Plant Cell 7:859-868 (1995); Marschner, M., Mineral Nutrition of Higher Plants, 2d ed., Academic Press Ltd.: London (1995); and Stiit et al., "The Molecular Physiological Basis for the Interaction Between Elevated Carbon Dioxide and Nutrients," Plant Cell Environ. 22:583-622 (1999)). Further, nitrogen is a major component of proteins and nucleic acids, as well as various secondary metabolites found in plants (Marschner, M., Mineral Nutrition of Higher Plants, 2d ed., Academic Press Ltd.: London (1995)). Therefore, nitrogen is one of the most important inorganic nutrients of plants. Inorganic nitrogen is added to many crop plants in the form of nitrogenous fertilizers (see Frink et al., "Nitrogen Fertilizer: Retrospect and Prospect," Proc. Natl. Acad. Sci. USA 96:1175-1180 (1999)). Nitrogen is principally added to the soil in the form of ammonia (NH_4.sup. ) and nitrate (NO₃^-). However, estimates of nitrogen uptake efficency have shown that between 50 and 70 percent of the applied nitrogen is lost from the plant-soil system (Peoples et al., "Minimizing Gaseous Losses of Nitrogen," In Nitrogen Fertilizer in the Environment, Bacon, P. E., ed., Marcel Dekker, pp. 565-606 (1995)).

[0004]The application of inorganic nutrient fertilizers is one of the major expenses incurred by producers of high-yielding crop plants (see Good et al., "Can Less Yield More? Is Reducing Nutrient Input Into the Environment Compatible with Maintaining Crop Production?" Trends in Plant Science 9(12):597-605 (2004)). Further, reports have indicated that nitrogen-based fertilizers may be associated with environmental damage (see Vitousek et al., "Human Alternation of the Global Nitrogen Cycle: Causes and Consequences," Ecol. Appl. 7:737-750 (1997)). Therefore, one important way of decreasing the amount of inorganic nitrogen that is applied to plant crops is to develop ways to improve nitrate use efficiency ("NUE") in plants.

[0005]Traditional plant breeding and marker-assisted selection are techniques that have been investigated for developing and identifying plants with increased NUE (see Good et al., "Can Less Yield More? Is Reducing Nutrient Input Into the Environment Compatible with Maintaining Crop Production?" Trends in Plant Science 9(12):597-605 (2004)). However, these approaches are often time-consuming and labor-intensive. An alternative approach is to use genetic engineering techniques to develop transgenic crop plants that have enhanced NUE. This approach requires the identification of genes that enhance NUE. Efforts have been reported regarding identifying genes that are regulated by nitrogen levels in Arabidopsis (Scheible et al., "Genome-Wide Reprogramming of Primary and Secondary Metabolism, Protein Synthesis, Cellular Growth Processes, and the Regulatory Infrastructure of Arabidopsis in Response to Nitrogen," Plant Physiol. 136:2483-2499 (2004)). However, there is a need to identify genes that are involved in nitrate uptake and metabolism in economically important crop plants such as corn.

[0006]The present invention is directed to overcoming these and other deficiencies in the art.

SUMMARY OF THE INVENTION

[0007]The present invention relates to nucleic acid molecules from corn (maize) that are modulated by nitrogen (e.g., that up-regulated by nitrogen). The present invention also relates to isolated proteins or polypeptides encoded by the nucleic acid molecues. The present invention further relates to promoters of the nucleic acid molecules of the present invention.

[0008]The present invention further relates to a nucleic acid construct having a nucleic acid molecule of the present invention (i.e., a nucleic acid molecule that is modulated, e.g., up-regulated, by nitrogen in corn). The construct also includes a 5' DNA promoter sequence and a 3' terminator sequence. The nucleic acid molecule, the DNA promoter sequence, and the terminator sequence are operatively coupled to permit transcription of the nucleic acid molecule.

[0009]The present invention also relates to an expression system, host cells, plant cells, plants, and plant seeds having a nucleic acid construct that includes a nucleic acid molecule that is modulated by nitrogen in corn.

[0010]Another aspect of the present invention is a method of expressing a nucleic acid molecule that is modulated by nitrogen in a plant. This method involves providing a transgenic plant or plant seed transformed with a nucleic acid construct having a nucleic acid molecule that is modulated by nitrogen in corn, a 5' DNA promoter sequence, and a 3' terminator sequence. The method involves growing the transgenic plant or a transgenic plant grown from the transgenic plant seed under conditions effective to express the nucleic acid molecule in the transgenic plant or the plant grown from the transgenic plant seed.

[0011]Another aspect of the present invention relates to an isolated DNA promoter from corn suitable for inducing nitrogen-regulated expression of a protein encoded by an isolated DNA molecule operably associated with the DNA promoter. The present invention further relates to a nucleic acid construct including the isolated DNA promoter, as well as expression vectors, host cells, plants, and plant seeds containing the nucleic acid construct. The present invention also relates to a method of directing nitrogen-regulated expression of an isolated nucleic acid in plants. This method involves transforming a plant cell with the nucleic acid construct described in this paragraph and regenerating a plant from the transformed plant cell. By this method, expression of the nucleic acid molecule, under control of the DNA promoter, occurs in the plant and is upregulated by nitrogen.

[0012]Nitrate use efficiency affects both grower profitability and the ecological sustainability of intensive corn production. The present invention is effective in providing a means to improve the NUE by enhancing the nitrogen uptake of crop plants such as corn. In particular, the nucleic acid constructs of the present invention can be used to develop corn germplasm using marker-assisted selection and/or transgenic approaches. Thus, the present invention is useful in increasing the nitrate absorption and usage efficiency by crop plants and thus reduce the use of nitrate supplements. The nucleic acid constructs of the present invention include nucleic acid molecules corresponding to genes of corn plants and, hence, have the most direct bearing on nitrate metabolism in corn. Therefore, such genes may be more directly relevant to corn improvement than genes from non-crop plants such as Arabidopsis.

DETAILED DESCRIPTION OF THE INVENTION

[0013]The present invention relates to nucleic acid molecules (e.g., genes) from corn (maize) (e.g., from B73 seedlings) that are modulated (e.g., up-regulated) by nitrogen (e.g., in the form of nitrate, calcium nitrate, etc.). These genes and their promoters are natural targets for use in corn improvement. These genes can be used to improve corn germplasm with the use of marker-assisted selection and/or transgenic approaches. The present invention provides nucleotide sequences of the full-length cDNA clones of such genes. The present invention also provides the amino acid sequences of the isolated proteins or polypeptides encoded by these genes, as well as their putative promoters (upstream of transcription start site of the genes).

[0014]A suitable nucleic acid molecule of the present invention is a gene that is up-regulated by nitrogen and contained in a full-length cDNA clone having the nucleotide sequence of SEQ ID NO:1, as follows:

TABLE-US-00001 CGACTGGAGCACGAGGACACTGACATGGACGGAAGGAGTAGAAAATATT GCCTGCTCCGACGACCTTGAATATTCACTGGCCATTTAATTTCTACTTAC AAGCCTGAATGAGCTAGAGATCCATCTGCTTCTGTACGTGCTCGTCAGGT ACGCTCGTAAAAAGAAAAGAAAAAAAAAGAAGAGATCGAGATCGATCTGT TGACGACGCCCCCGTCGCCGAT ATGGGCGACCTCTCTGTCGGCCACAGC CGCCGCTGGTGCGGCCGTTTCGCGGCCGTCCTTTGCCTGTGCGCGGC CTTCTGCAAGCCAGATGAACTCCCGATGGATCCACTGCCGAACTTGC CGCCGACGAGGTCGCTGCAGTGCTTCGAGGACGAACAGGTGTACAGC TGCTGCGAGGGCGCGTACAGGCTAAACCCATCGGGAATCATCGCCGT TCCCGTCGGCGCGGTGGACTACTACTGCGGCGGCGCGTGCGTGGTGG AGACGGAGGACGTGCTCAACTGCGTGGCCAGCGCCCTGGACGGCTTC GCCTTCTACAACGGGGCCTCCGTGGAGGACGTGCGCTACGCACTCAG GCGGGGCTGCAGCCACACCGCCAGAAGAGGCGACTTCAACGATTTGG AGCCGCATCTGGGCGACTACCCTGACATCTATGGCGACGATGATGAG CACAGCTTTGGCAGCAAGGTTGTTGCAGCTCCTCTGAGGTTGCTCGC GTTTCTTGGCGGTGCGGGGCTGTTCTTCCTGGGCCCTTGA

(Underlined=GeneRacer Oligo sequence; Bold/Underlined=start codon; coding sequence in bold) (Sequence of 5' RACE product CW13E07-Full_Length cloned into pCR4-TOPO) (derived from MEST13-E07, GB_ACC# BG840928).

[0015]The predicted protein or polypeptide encoded by the full-length cDNA clone of SEQ ID NO:1 has an amino acid sequence of SEQ ID NO:2, as follows:

TABLE-US-00002 MGDLSVGHSRRWCGRFAAVLCLCAAFCKPDELPMDPLPNLPPTRSLQCFE DEQVYSCCEGAYRLNPSGIIAVPVGAVDYYCGGACVVETEDVLNCVASAL DGFAFYNGASVEDVRYALRRGCSHTARRGDFNDLEPHLGDYPDIYGDDDE HSFGSKVVAAPLRLLAFLGGAGLFFLGP

[0016]A putative promoter (upstream of the transcription site of the gene) for the gene of the full-length cDNA clone of SEQ ID NO:1 has a nucleotide sequence of SEQ ID NO:3, as follows:

TABLE-US-00003 ccgcaagagggagtctttaccgagtgtcacctaatacgcttggcgaaggacctggtaaaagggcccac agggagctttttgctaagtgtctgtacagtggacactcggcaaagagtgagcctttgccgagtgtcac tccgtcaccgttacctggtgtcgtgacgacggcttttctttgtcgagtaccgagtgacactcgacaaa acctttgccgagcgtccgataaaaagtattcggcaaagaagccgttgccgtctttgccgagtgttttc cagactttgccgagtgtttcagacactcggcaaagaacctgattccgatagtgaaggtcttacacccc gatccaccccaattcgtgcgtattggagcaagtacccaaacaaaaccgtactgggaataattacctcc gttcgctgcagtttgcagaacagcagttcaatgctacaggacgacgcagctgcagcgaacatgcatgc atttgaactcactccgttcactgatggacaagaggcatctgggtgactaataaaagaacgacacacac ggacagcttctagaagtattggtagcgcatgaacaacaatgccgctgttagcttgtactgaggcacga aacatgaatctgacctactactgacttctactataataatagtatatagtatggccaggccaggccaa ctccggcgaaaacgggagtacgcatgcagatggagcggcacattagtaggctgtttggtttgaagaat gggctagtctatcatcttctcactctccacttttttgtttggtttgtggaatgaaatgagttgattca tcatcacctcattccttatagttagttagttagtactaatatgaggaatatggtcatcccaccaaatt tgaggaatggatccacgatgtaccaccacattttgcatgaagtgattcctcaaaccaaacacccccaa atgtaaaccgagtcatgcctccgatcccaaccttcgtgtttcccaccaaacacacgcgtacagaggcc aagcacacgcacaaaagcaagcctcgatcgtagcccgtgcctaaccctgccgatgccgtaataaactt gtgtgctccacgcaaccatgaaatgaacctagaaatcgcaggggcgggatgcgagtgaaaaggagcgg gcaggtcaggtaggtttgaactctctcctataataatcctagctagcacacttgcccagattatattg cctgctccgacgaccttgaatattcactggccatttaatttctacttacaagcctgaatgagctagag atccatctgcttctgtacgtgctcgtcaggtacgctcgtaaaaagaaaagaaaaaaaaagaagagatc gagatcgatctgttgacgacgcccccgtcgccgatatgggcgacctctctgtcggccacagccgccgc tggtgcggccgtttcgcggccgtcctttgcctgtgcgcggccttctgcaagccaggtgcgtgctcacc gtcaacacacgcaccattattccaccctcccaaggagcacagtacaacgcacgtacatatacctctcc tcaatcgatatatagttacgtcttacgtactatctagttaatctatcacgttgatgtctaatatagac tccgcatggcatatgcatgcagatgaactcccgatggatccactgccgaacttgccgccgacgaggtc gctgcagtgcttcgaggacgaacaggtaagctaacaagcaagagcgtgtttggtttcatgctaggaca gagttgcataccacgtagctatcataagcctaccacacgtagctatcacagcctgtcgatttcgttcg gtcgcctgacggtaaacatcgctgcccgagaggcgagctctttttgacaagcctcgacgaaccaaata agccaagtcctactgtacgagggcgatcgaggcgccgaggcctgtgtgatgtgatgccgtgtgtcgtg gtcacccaccagctgctgtgtacattggtccccgtgccgcgcgtcgtaaccgcatgcggcatgccgct gcatgcaggtgtacagctgctgcgagggcgcgtacaggctaaacccatcgggaatcatcgccgttccc gtcggcgcggtggactactactgcggcggcgcgtgcgtggtggagacggaggacgtgctcaactgcgt ggccagcgccctggacggcttcgccttctacaacggggcctccgtggaggacgtgcgctacgcactca ggcggggctgcagccacaccgccagaagaggtccccaagtttctcgcctactagctcatctctctcta cgtaccagccaagctagatcgactaccagtctccgcagcagtgcattcggaacgaccgctgacaaact gacaggctcgtgttcctgtcagcgcaggcgacttcaacgatttggagccgcatctgggcgactaccct gacatctatggcgacgatgatgaacacagctttggcagcaaggttgttgcagctcctctgaggttgct cgcgtttattggcggtgcggggctgttcttcctgggcccttgaacgaagatataaaagaactagcgat gtgatccgcgtaaatatatactccgtatatagcatgacatgagtatctagtttgtcttatatggtaaa ccatactaaattttcttgtatggcattaaaaaaaattaagactttatttagttatttgactagttgtt ctctctggatcctctaatcagttcgaactctataagcttttttattccactcctatctagaggtcgca taatatgctaaggtgagatcttgatgtctttcgtttttttaactcgataaagttgttgtgagtctctc ttataaaattatttttaatgctaatattagattttagtcagagatatgcagttgaccgttttgcacta aaatatttttgaatttactatagtattagttgtctactaatcacagctaaaaccgtttttatttttag tttttttataacagaaaaaatatctctggaaacgaaaacggcaacacagtagttcaaaaatatcgaag acaataatttaacatgaaaaatatatatgtaatgatcggaatctaaaaaacaatcactaaatataaac atatagtaacatgtactctcaattgacctgaaaaaagcacataacctatagatccacaaagtaacgaa gattgaagcatgaaaaatagaccatcatacattaaagggttgtgcttatttagctctagaataacctc cttaagagcaacttcatttgcaacaacattgtctagagttaaagagaatattttcttctctgtaaacc atttcaataagcatgaactgggtctaagagacaaattcttaccgttgtgccgacccagaacatgatcg aaatttgtaattcgcttctgtatttgtgaatcatcatctacccaatgtaccatgatacacatgtacct tttattctgatttgatatccacatctccatggtagcactgaagtgacaattaagggttttaaaaaatt tatacaacacatcatttttatgcaaaagagatccattacttcttttctaacaatgacatgtgacttta tagaaaatataggctttaaaggtttaatgaaatccataaagtattcatgttcaagaatgttaaatggg tactcatgaatgataatagtagtataaaacttcctcaaactaattgactcgtcatatttatatggttg gacaatatatagatatacctaccttatgatctttttctgatttgagctcctgctatcttagtaaaacc ttatgataacgcttctaatgcaaccaaaactaagttgttcctctatggcttttagcactacctttgta agtcctatttttgtagctcagaaactttcatttggcccaaatttgctccagagatttgcaattcccct ccactacaacaacatacaaatcaaaatactgccaaacatctaaagtatacttatttgctactttatgg ggtgctcatcaacattagattcact

(>MAGI4_--8075 MAGI4.contigs_w_singleton.fas 4037 bp).

[0017]A suitable nucleic acid molecule of the present invention is a gene that is up-regulated by nitrogen and contained in a full-length cDNA clone having the nucleotide sequence of SEQ ID NO:4, as follows:

TABLE-US-00004 GGACACTGACATGGACTGAAGGAGTAGAAAATACAGAACCCTGCAACTG CAAGCTAAGGAGAGTGTGATCACCAACAGCTAGTGCTAGTCCCCCTTCCT TCCATCCATCC ATGGCATGCGTCAGCACCTTCCAGAGCTGCCCCATTG CCAGAAGAGCAAAGATCAACACCAGGTCCAGGGGCAGCAGCAGTAGC GTGGCGAAGGGGTCACCACCACCAGCCTTCCAGTTCCAGTGCAGGGC GTCGACTTTCGCGGCGGACACCAGCCTCCGGCTCGAGCTGGACGAGA ACCCCGAGGCGATCATCTCGGGGGCGTGGCCCGGGAACTGCTCCCTC CTCAGCTACGACGACCTCCGCGCCTACCTCGAGTCGCAGGAGACGGC GGCCCAGGCAGACGATCAGCGCGGCGTGGCGCTCCTGAGCGAGACC ATGTCCACACCCGTGCTGGTGGCCACAGCAGACCAGACCCTGGAGGA CGTCGAGTGCCACTTCGAGGCCGTGTCGGGGCTTCCGGTCGTCGACA GCGGCCTCAGATGCGTCGGGGTGATCGTCAAGAACGACCGGGCAAGA GCCTCTCATGGGTCCAAGACGAAGATATCGGAAGTGATGACATCTCC AGCTATCACACTATCGTCTGACAAAACCGTGATGGATGCTGCTGTTCT CATGCTCAAGAAGAAGATCCACAGATTACCAGTTGTAAACCAGGACG AAAAAGTAATAGGTATAGTTACCCGCGCTGATGTTCTTCGCGTGTTGG AAGGCATGTTGAAGATTTAGGAGCGCAGATACCCATGCTCGGAAGCCAC AGCCTCTTGTAAATATGTAGATGTGCCCGGGCATGGTGTTTCTGAGTAGC AGCAAAGAGATCTACCATGTATAGGAGTTTCTCCTTGTAAATAATAGTAG CACGCCAGGAGACTCCATCCCAGG

(Underlined=GeneRacer Oligo sequence; Bold/Underlined=start codon; coding sequence in bold) (Sequence of 5' RACE product CW13A08-Full_Length cloned into pCR4-TOPO) (derived from MEST13-A08, GB_ACC# BG840889).

[0018]The predicted protein or polypeptide encoded by the full-length cDNA clone of SEQ ID NO:4 has an amino acid sequence of SEQ ID NO:5, as follows:

TABLE-US-00005 MACVSTFQSCPIARRAKINTRSRGSSSSVAKGSPPPAFQFQCRASTFAAD TSLRLELDENPEAIISGAWPGNCSLLSYDDLRAYLESQETAAQADDQRGV ALLSETMSTPVLVATADQTLEDVECHFEAVSGLPVVDSGLRCVGVIVKND RARASHGSKTKISEVMTSPAITLSSDKTVMDAAVLMLKKKIHRLPVVNQD EKVIGIVTRADVLRVLEGMLKI

[0019]A putative promoter (upstream of the transcription site of the gene) for the gene of the full-length cDNA clone of SEQ ID NO:4 has a nucleotide sequence of SEQ ID NO:6, as follows:

TABLE-US-00006 caacgtggagtaggcaagcgttggtcttggccgaaccacgggataaaccactgtgtcaactctgtgat tgatctcttgtggtattgtgttttgttgagactcttttctagccacttggcatttagtgtgctaacac ttaacaagtttttgtggctataagtttaagttttacaggatcacctattcaccccccccccctctagg tgctctcaagttgacaggtgtctccatggtgcctaattgagccgttcttttacgctatccattcgatt ggtttggtgggtatgtgtggtctggctcttgcgatgtttgcccgctggaaacgaaacaatcgtgcata cgtgcgcatgcaattaacggtggtgtttttggcctgtcttgcagcagcgggtgcagcattggcttggc ataagcacgcaaccaaacaaagactaccttttggtcaatgcatgcgaagaatctgtacgagcgggcgt agacaaccaatgatgcgatataaaatttaaggattgaatcatattagaatcgagctttatttctattc attttcgaactaattttttaagtatcctaacttattgtgaagaaacgtaaatatttagatcccgatcc attaccacctctactcatacgtgaaaccaaacacgcggaatatccttctggttcaaatatgcagaagt caatgagcaggacttctgcttgtttgttcagtctctcaggcagggttacaggaggcaatacaagatgt tctccaacgattccctgaatcgttcaccccctctctcagtcctatgattcactcactcacccctcccc ctcttctccgtatgacaggaaatccccctagagggggagagctctaagctccccctccactaattaat catatttactgtgaaattacctatttgtagtgtaattaatagttagcaatgtgtattacgtattataa atattgtaccaatatttaaaactcaaaaaactaatgtataaaaatcaaatagtgcacttaaagtatta agggcagagctgaatagggggattgttggagaagtgaagaaatagggggaagaatagttgagaagggg tatttaaatatgaatagaaagtatgaatggagggaatgtttggagagagctcaagaacaagggacact gagctgcctacaacacgtggccctttttgtccctcttcttttttttctttcgcatctgctggctacaa gaggacacgcccttctattcgccgtatagagcagtgtctgtgaagtaaaagagaactatcctccaagg cttattttgagtgtattactcctggattcttgaatcttagctggtatggtatggtaaggagttacgtt gtccaggagattccaacttacggatccacactgaaaagtttgtattacccatttgttaggccccgttt caatctcacgggataaactttagcttcctgctaaactttagctatgtgaattgaagtgctaaagttta gttttaattaccaccattagctttcctgtttagattacaaatggctaaaagtagctaaaaaaagctgc taaagtttatctcgcaagattggaacagggcctatatggtcactttagagaggcatggaggtttaata gactatgacattcgtacgtggtcacctcaacaaactttattgtttgaccgaaccatagattgaattgt gtgacattgttctttgctcgtattattattaatagaaagtaaccttcttgggtgcggcccatacggtc ctgagcgcactaaatgaggcctcattggccgcggcccattcgatcctcaacgcactggataaagccag cgtggcgtggctaaaccacttcgtttggcatgggcctgtcggtgcacttgcccaaaccatgagcttgt accaaaactcgctagtggtagtggtattagtagtgaagaacttctgcaacttcaaactcaccgattct ctcgcggtcagtttggaagctaaaatatcggtggaaattagagagaatttgataagctaaaatctctt tattatttaaaattgaataataaataaattttaactcctccaatcttctccgtttttatgtctcccaa actcagtgtaccagatcatattcctttcattaaaaaaaaggtgaacaaagacgccaccttatccactg ccacgtgacagggggccaggggaatctcggcggccagtggcggcacgccacgccggccggtcgccccc gtcgctgtacaagatacccatgattggagcggggcaggtgcagagcagcaacgccacggctgcatgag atcaagaagctgccttcacttcgcccactgcagcatgccgtgtcgccgtcagagttgggcgcatatcc agataaaaaaaacttgcctgcttgcactgcagatgcgttgtttttgctaacagcaagcaggcaagtca gcagcctaaccttctttgatatttacagagaagatgaaaaggagaactggagagcagtagtggcagtc acttcactggtcaagcattcctatccacctcggcccacctccacctccctgacagtcattttgttata taaaacccatcaagctcccctgcaaggagatacagaaccctgcaactgcaagctaaggagagtgtgat caccaacagctagtgctagtcccccttccttccatccatccatggcatgcgtcagcaccttccagagc tgccccattgccagaagagcaaagatcaacaccaggtccaggggcagcagcagtagcgtggcgaaggg gtcaccaccaccagccttccagttccagtgcagggcgtcgactttcgcggcggacaccagcctccggc tcgagctggacgagaaccccgaggcgatcatctcgggggcgtggcccgggaactgctccctcctcagc tacgacgacctccgcgcctacctcgagtcgcaggagacggcggcccaggcagacgatcaggtacactt cgatctcgcggcttcttcagttcttgttaccattgtttacatctcctccagctcttgctaacccggcc tggacgggtctcctcctctgtggatatatacagcgcggcgtggcgctcctgagcgagaccatgtccac acccgtgctggtggccacagcagaccagaccctggaggacgtcgagtgccacttcgaggccgtgtcgg ggcttccggtcgtcgacagcggcctcagatgcgtcggggtgatcgtcaagaacgaccgggcaagagcc tctcatggggtcagcacctcgctcctctccctccacctctttctttctcatggggccagggccatgca tgcgcatcaagctgctagtttctcatagacaggcaaataagaacgacgtacgtccgttcagtttaccg gtctgtttctacttgtgacagtccaagacgaagatatcggaagtgatgacatctccagctatcacact atcgtctgacaaaaccgtgatgggtaatcttttttgcatcgcttttcttttcttttcttttcttttct gttcatgtgtgatttttaacaagttgaatctaacagtgcatgcctaacgtctacagatgctgctgttc tcatgctcaagaagaagatccacagattaccagttgtaaaccaggacgaaaaagtaataggtacggtg agtgagtgtcagaatgctcacaagccagcagagattaaaaaaaaaaactgcatgccatacacttaatt agtattatccttaattatcattgacaacacagagattatatgttgcaagggctaatggggttctaaac actgtcaacaggtatagttacccgcgctgatgttcttcgcgtgttggaaggcatgttgaagatttagg agcgcagatacccatgctcggaagccacagcctcttgtaaatatgtagatgtgcccgggcatggtgtt tctgagtagcagcaaagagatctaccatgtataggagttctcc

(>MAGI4_--31359 MAGI4.contigs_w_singleton.fas 3987 bp).

[0020]A suitable nucleic acid molecule of the present invention is a gene that is up-regulated by nitrogen and contained in a full-length EDNA clone having the nucleotide sequence of SEQ ID NO:7, as follows:

TABLE-US-00007 CGACTGGAGCACGAGGACACTGACATGGACTGAAGGAGTAGAAACCCTT CTCGCTCGGTTGCTCGGGAGCTTTCCCCTTCCTGTTCCTGAAGCTTCCGA CATCCGACCGCCTCCTCCTCCTCGTTCTACTCGCCGCCCCTTCTAGAATC ATCCAGAGGCGTGCCGGTGAAGCGCGAGAGCGGTGAGGC ATGGCGATGC AGACGGGGGTCGCGACCTCCAAGGTCCTCATCCTCGTCGGTGCAGGGAT GACGGGCTCGATCCTGCTGCGGAATGGCCGCTTATCTGATGTGTTGG GAGAACTCCAGGAGATTATGAAGGGTGTAAATCAAGGAACTTCTTCG GGTCCCTATGACATTGCACTTATTCAAGCTCAGATTCGGAATTTAGCG CAAGAAGTCAGAGATTTGACATTGTCAAAGCCCATTACCATACTGAAT GGCAAATCTGACTCGGGAGGCAGTTTATCATCCTACATACTGCCAGC AGCAGCAGTTGGAGCAATGGGTTATTGCTACATGTGGTGGAAGGGGT TGTCTCTCTCAGATGTCATGTTTGTCACAAAACACAACATGGCAAATG CTGTTCAGAGCATGTCAAAGCAGTTGGAGCAAGTTTCATCAGCACTA GCTGCAACAAAAAGACATCTAACTCAACGGCTTGAGAATTTGGATGG CAAAATGGATGAACAAGTAGAGGTCTCCAAAGCTATTAGAAATGAGG TCAATGATGTTAAAGATGACCTGTCTCAAATTGGATTTGATGTCGAAT CAATTCAGAAAATGGTTGCTGGATTGGAGGGAAAGATCGAGTTACTT GAGAACAAACAGGACGTGGCTAATACTGGTATCTGGTATCTCTGCCA AGTAGCAGGCGGTTTAAAAGATGGAATAAACACCAGGTTTTTCCAGG AAACCAGTGAGAAGCTGAAGCTCTCACATTCAGCTCAACCTGAAAAC AAGCCAGTGAAGGGGCTTGAATTTTTTTCGGAAAGCACCATGGAACA GAAAGTAGCTGACTCCAAACCAATTGCGGTGACAGTCGACGCTGAGA AGCCTGAGAAAACCGCTGCTGTAATGGGCACCACAGTGCACAGGTCT ATCAGGTTCTCATATCGGAAGGCAGGCCTTGCTTTGTGATCAAATCCT CTCCGCTTGAGATGCACGTGGCCTTCCTGGTTG

(Underlinded=GeneRacer Oligo sequence; Bold/Underlined=start codon; coding sequence in bold) (Sequence of 5' RACE product CW15E10-Full_Length cloned into pCR4-TOPO) (derived from MEST15-E10, GB_ACC# BG841093).

[0021]The predicted protein or polypeptide encoded by the full-length cDNA clone of SEQ ID NO:7 has an amino acid sequence of SEQ ID NO:8, as follows:

TABLE-US-00008 MAMQTGVATSKVLILVGAGMTGSILLRNGRLSDVLGELQEIMKGVNQGTS SGPYDIALIQAQIRNLAQEVRDLTLSKPITILNGKSDSGGSLSSYILPAA AVGAMGYCYMWWKGLSLSDVMFVTKHNMANAVQSMSKQLEQVSSALAATK RHLTQRLENLDGKMDEQVEVSKAIRNEVNDVKDDLSQIGFDVESIQKMVA GLEGKIELLENKQDVANTGIWYLCQVAGGLKDGINTRFFQETSEKLKLSH SAQPENKPVKGLEFFSESTMEQKVADSKPIAVTVDAEKPEKTAAVMGTTV HRSIRFSYRKAGLAL

[0022]A putative promoter (upstream of the transcription site of the gene) for the gene of the full-length cDNA clone of SEQ ID NO:7 has a nucleotide sequence of SEQ ID NO:9, as follows:

TABLE-US-00009 taactctacaagctaagaatcaacatgtatgcaattccataataatcgggcatcatctatcactcatt gctaacttcagcactgaacatgatttcaagagtttttagcagaactactatgcgggtgatctcctttc agatgtagatggtttagaagtgtacataagcttgcaggggcttaaggaactgtttatttaatcttctg tgagcacgaacatccatagaagaactatctgaactgaagctaaagatttgcatgaaatggtaatttgt acacattaagtgcatcatgcaaacagaacgagtacacagtgaaacgatacagacctcccgagtcagat ttgccattcagtatggtaatgggctttgacaatgtcaaatctctgacttcttgcgctaaattccgaat ctaatatcaagcacgagcatgcaaagttaagtagaaatgaataattttaccgagatggaaagaagcaa gagaaacttctaagcagatgctgacactgagatagtgagatgtaagatgtattccatatgaggaagag catacctgagcttgaataagtgcaatgtcatagggacccgaagaagttccttgatttacacccttcat aatctcctagaaacacaaaaggtacatcattgccttaaataaacatttactaggaagtttcagagcat accatcaaaatctgtatgatatgtatcaggaatcactaactagtgaagcataagttatggtacgcaaa acttccgagtgccaattgggcgttgatgtaattttatcacatggtgttaatcacatccacatatagac agaatcaacgcttctagtaccccatcgccaagtcattcaaaaaatatcaggtatcagctatctgacaa cgctcaactatccaaaccgtatgaaagtgcgtgtaatcaaaatgaacatatttttttcggggttgggt gtggggggtataccgacctggagttctcccaacacatcagataagcggccattccgcagcaggatcga gcccgtcatccctgcgaggacaccatttcaccacgtaaggtgtcgaaacaacagccgattggggaaaa tagcatcaaatccgagagagatttgatgggggcgagaggtcgatggcggtgatgagaagaggacctgc accgacgaggatgaggaccttggaggtcgcgacccccgtctgcatcgccatgcctcaccgctctcgcg cttcaccggcacgcctctggatgattctagaaggggcggcgagtagaacgaggaggaggaggcggtcg gatgtcggaagcttcaggaacaggaaggggaaagctcccgagcaaccgagcgagaagggtgcctggac ccgggaccgggacctgagaatttcgtgtgtcacaaacaaacagggtgaaccagttgtgaaatgggacc acgtgtcagtgaagaggtgagtagtagtatttgtgagttgtgactcgagaaatgccgctgcgggctgc ggcctagccacagccacgtcagcaatgtcgaaagtcgaaaccaaccccactccacgtctcccccagga gaagcgaccattcaaagccgccgggagctcggcgtcaccgccgcgagctcgacacctcgacacctcgt gccgccgcagcgcttgctttcgtcccccttacgccactcccacttggccacttcagccaccatctccc tgaagctagtggctaacctcctcaccgccatgggcacccctctcctcatcccccttctcgtcaccctc cagctgttcactacctcctcccccgcggtcgcgtcgtcacacatctccgccatcatctcgcagtcggg cctcgacttcgccaaggacctgctcgtatcccatgccgttgcgaccctcacgcccatgaacgtgccgg acatcgagaggaccatgagcatacccctcgtgggcaccgtccgcatggccgcatccgggattgtgctc cacggcctcgccgtcaccaactccaccgtcgctgtgggggacgcgggtgttgtcgtggccgcctcgtt ggccagcgcgaacctcaccatggagtggaactactcgtatgacgcctggattgtgaccatatccgaca gcgggaatgcttcggtccaggtataaatgaggggaacatatactgtgcagtcatattagtgcaaccgt gcaattaagcaatgatgcatcgatccaatcaaaatccaactatgattgctattttaggtggaacatgg ttagatgcaaaacagtcctgtttggttgatattcgatattccatcagttatgttccccaaggcgtggc ttgctgattggtggctgttaattgaatcataagatactgcccgtttttttaatatactgagtaggaga tatacgcatcttttatgctattaagtatagactgatcgcgcgacacttgaattttggaatatctattt tctgtcagatgtcagaagtagaatcaattatcttagaagtgggtgctaattcacacctattactatat ttaaaatgggattaatataaacactctatttttctcgaaagcgcaagagagctgcgcgaaaatatatt aagaagaagtaaaaggtccaaaaggaccccaagatacagataaggccgacctacggcggccaataaca agcataaatgaaaccatccatgacaaaaacactgctaccagaacagcactacatctatctagctaaca ggtagacctgggataggggcagtaagcaaggacagcctctttgcaccagccataacccaaagatcaat ctccaaaccaacacttctaatagcaacagcaacactaggactcttattgtcaaaaacgtagccattgc gatgtttccaaagggtccaaacaccaagaatgacaagagaattaagaccatttcttgcaatcccagga gtcttggtgatcaagtcttgccaccaatccataaaaacctcttcacaggactgatgggccaagtgttg tagatttacaagaagaagcagcttgaaccaaaattctctagcaaaaacgcagcccagcagcatatgat ttaaggtttcctgatcctgatcacataatggacatctctccggatgatccatacctcttctttgcaac ctatcagctgtccacaccttcttgtgagcgaccaaccacatgaaaaatttagatttcggaggagccca agtcttccaaattatatgaaaaggctcaaactcaattgacccaataaagaaacccctataagcttcct tggaagaatattttccattggcagcaaggcgaaagaaatgcttgtcttcaacatgaggtcttagctga accaaatctaataaatcccacaagaggagatactcgttgatacacccactgaa

(>MAGI4_--20155 MAGI4.contigs_w_singleton.fas 3385 bp).

[0023]A suitable nucleic acid molecule of the present invention is a gene that is up-regulated by nitrogen and contained in a fill-length cDNA clone having the nucleotide sequence of SEQ ID NO:10, as follows:

TABLE-US-00010 CGACTGGAGCACGAGGACACTGACATGGACTGAAGGAGTAGAAAAACTC CCAAATCCTTCGTTTCGTCGTCTCCACACGCAATAGCATCCGAGCAAAGA AGCCAAAGAGCAACTGGGAGCGAGGACGGGAGGCAACAAGCGGCGGCG GC ATGGACCGGAACCTGAGCGGGTTTCTGATCGGGTGCCTGGGCGCC GCCGTGACGCTGCTGGCGTACCAGCAGACGGTGGTGACCAGCACGCA GAGCGTCGCGGCGGGCTTCGTCGTCATCCTCTTCGCCCTCTTCGTCA AGGAAGCATTCATTTCCCTCTGAATCTCTGGTGCGCGTCAGCCAGCCAT GCATGAGGAGGCGTCATCGCTCCGCTGCCTGTATTTCTGCTCGCTAGTTC AGTCCCGCAGCTGCCGCTGTGCTCGTCAGGTTC

(Underlined=GeneRacer Oligo sequence; Bold/Underlined=start codon; coding sequence in bold) (Sequence of 5' RACE product CW28B08-Full_Length cloned into pCR4-TOPO) (derived from MEST28-B08, GB_ACC# BG842208).

[0024]The predicted protein or polypeptide encoded by the full-length cDNA clone of SEQ ID NO:10 has an amino acid sequence of SEQ ID NO:11, as follows: MDRNLSGFLIGCLGAAVTLLAYQQTVVTSTQSVAAGFVVILFALFVKEGFISL.

[0025]A putative promoter (upstream of the transcription site of the gene) for the gene of the full-length cDNA clone of SEQ ID NO:10 has a nucleotide sequence of SEQ ID NO:12, as follows:

TABLE-US-00011 gatacgactctcgctggtatataaaatctgtttcgtagataaacatgaaaccagaatttttgatcacc atatacttgtttcagaagcaaattggggacaccatatacttgttgccttcaaacgaccgtacaataag ttcagactgaccatctgaatgtcacaagagctagtttagagcagcaagaaattgtcaagtgacctaga catcccgaaccgacgcttcccagacttagcccgaccttccgggtccttcataagctgactccgtggcc cctcaccagaccaacgccgcagccgttgaccttgcggctttttatccccatccggccatccccaaccc aactcccaaatccttcgtttcgtcgtctccacacgcaatagcatccgagcaaagaagccaaagagcaa ctgggagcgaggacgggaggcaacaagcggcggcggcatggaccggaacctgagcgggtttctgatcg ggtgcctgggcgccgccgtgacgctgctggcgtaccagcagacggtggtgaccagcacgcagagcgtc gcggcgggcttcgtcgtcatcctcttcgccctcttcgtcaaggaaggattcatttccctctgaatctc tggtgcgcgtcagccagccatgcatgaggaggcgtcatcgctccgctgcctgtatttctgctcgctag ttcagtcccgcagctgccgctgtgctcgtcaggttcttggaaaaatactgtaatagcgtagtgacttt tatgtacgacacggatggttgttgctggctgaagggtctactctgtcgaaatcgatgtatcttagttt atgctacttgaagaacagcagactgcagatcagcagagttcttgccttcttacgctaattaataatta ttggtacacgaatcctgattgtgttgagccttcttgccgttgctccttccctactaacatctcggctt gccaattcacctatgtatgtttgctttgtatattagtgcaggtattaatggccgcctgtaagtgagtt tgttctcccttgttgaactaataaaattggcatgaattcaccccaaaaagattgatgctgtttctcac tagttttcagcctcagacgactatagatgtccaaacagtgcggaccgtccatttgaaacttgacccgt cacgattttagtccggtccaagcatggccaagcagggttggtaacggcacgacctgtttagcgtgccg ggtttgggcagctacagaggcccgcgtgttttggtccgatccgacacgagcaatgggccgacacagcg gcggcccatttttcatatggcatatggtgccagcggccacacgcccccccaaccaggccacacacccg aaccctatctctaatcccctcaccccctcgggccctccgtccccatctctagcgattcggcgccgtcg ttctcgcccgttgcatcccgtcggctcttgacctcgacggcggacgactctccatcgctgtcgtatgt ggtgctccgacctgcttggacttggagttcctccgtcctccctcgtcactccctccgtctgcgactgg ggactccctaaccctaacccctccggtctccggattcggtggttctagctcctcagctgtgcaaggtt cgtttatctcgtctaatcccctccagatttggtgtctagctgatgtctggtgctcgtctgtggtgtct ggttgccgttgccggtggtcgtcacctgttgctcct

(>MAGI4_--8905 MAGI4.contigs_w_singleton.fas 1736 bp).

[0026]A suitable nucleic acid molecule of the present invention is a gene that is up-regulated by nitrogen and contained in a fill-length cDNA clone having the nucleotide sequence of SEQ ID NO:13, as follows:

TABLE-US-00012 CGACTGGAGCACGAGGACACTGACATGGACTGAAGGAGTAGAAATCTTG GATCTGGTGGTGGGTTCATCCTTGGCCCACTTCTTCTTGAGCTTGGGTGC ATACCGCAGGTGGCAAGTGCAACAGCAACATTCGTG ATGATGTTCTCCT CCTCCCTCTCTGTGGTGGAGTTTTACTTCCTGCACAGATTCCCCCTGCC TTTTGCTGGCTACCTCATCTTCATTTCCATATTGGCTGGATTCTGGGG CCAGTGTTTGGTTAGGAAGATCGTGCATGTGCTCAAGAGAGCATCGC TTATTGTCTTCATCCTCTCCTCTGTTATCTTCGTCAGTGCTCTTACGAT GGGTGTCGTTGGAACCCAGAAGAGCATTTCGATGATCAACAATCACG AATATATGGGGTTCCTCAACTTCTGCGAGTAACTCAAACACCATCAGAC TGTCGATCCGTCCGGGAGAATCCAGGCCAATGCCTAATTGACCTCATCTC CCTCAAAATCTAGAAGAATAAAGTCGCCGAGTATGTGCACAAGTTAGCTC CTCGCCAACATGTGCGCATTTAGACCGACAGAGTCGCTGTAGTGAATTCA GCTCGTGTTAGCTCCTGGCTAACGAGCTGACCATACGGCTTTAGTTTTGT GAAGTGGGCGCGATTTCGTCATGTCATGCATGTGTTAGCTCCTGGCTAAC CTGCAAATGCGTGTGTTGGTGCAGGTTTTTGTCACGTCTGCGTCAGCTCC TGGCTGACCAGCAGTTGTTTGTCGTTCATTCTCTGCGTCAGCTCCTGGCT GACC

(Underlined=GeneRacer Oligo sequence; Bold/Underlined=start codon; coding sequence in bold) (Sequence of 5' RACE product CW31A10-Full_Length cloned into pCR4-TOPO) (derived from MEST31-A10, GB_ACC# BG842452).

[0027]The predicted protein or polypeptide encoded by the full-length cDNA clone of SEQ ID NO:13 has an amino acid sequence of SEQ ID NO:14, as follows:

TABLE-US-00013 MMFSSSLSVVEFYFLHRFPLPFAGYLIFISILAGFWGQCLVRKIVHVLKR ASLIVFILSSVIFVSALTMGVVGTQKSISMINNHEYMGFLNFCE

[0028]A putative promoter (upstream of the transcription site of the gene) for the gene of the full-length cDNA clone of SEQ ID NO:13 has a nucleotide sequence of SEQ ID NO:15, as follows:

TABLE-US-00014 cttgggcggtagagctttttattagcttttcaaaaagttcaaggtcatcaaggtcagagtttaaatct aaaagctatgcctaaaatataaaatgggtcatactgagcacccatacatatgatgatcttgtccagta ccacatctgatacacacagagcattacggtgacccatgttccatatcttaaggtaacgaaggtttgtc ctaagttaaagttttgaaactttgacaacaatatctacaaaaataattattttttacttaaagaaatt atatattgtgctagatgttttaataataaatataatagttttatttttatttagtcaatgtttatgaa tattttgttattaatgataaaagtttcaaaattttgacttagtataaactttcgtgatcttaagatag ggaagagagggagtgagtaggtatcaattgcacccaggtaatgatcattttcaacggtcaaattacta aaaatagccgttaccaaaaactcaacagtgtacatgatgtggagcgatccggggggagacacccactt acgttcaatgaaaatgctagtccacgaaggagacggaagcccaccctggcctctctttgaggcgaagc cacgttccggccaatcgtctcacagcctctatgcaggctggaatgtcacccatgctgcacctcacctc aaccatcgtaaatcttaaggaccattcttcttaattaactcatttgcaagggtttgtagcgccgcttt accttagtacatgtgttacagtaaacaaacaattgccagtgctttatatgatttcgatccatcatatt ttaggtccaaaacagcatcttcactcaaagagacagattaaagctgtttggactgctttagctataat aaaaatactgtagaaaaaacagaagtcggtggaagccgcagcgaacatgttctgattttcacggaaat acggcttgaaacgcactcggcttgcacaaacagaatgggaattgactgatatttacaatgttccatgc aacaaatatttgcagttttgcagcctagcctggtgctagcgcaagaatgaacaacaaataactgctgg tcagccaggagctgacgcagagaatgaacgacaaacaactgctggtcagccaggagctgacgcagacg tgacaaaaacctgcaccaacacacgcatttgcaggttagccaggagctaacacatgcatgacatgacg aaatcgcgcccacttcacaaaactaaagccgtatggtcagctcgttagccaggagctaacacgagctg aattcactacagcgactctgtcggtctaaatgcgcacatgttggcgaggagctaacttgtgcacatac tcggcgactttattcttctagattttgagggagatgaggtcaattaggcattggcctggattctcccg gacggatcgacagtctgatggtgtttgagttactcgcagaagttgaggaaccccatatattcgtgatt gttgatcatcgaaatgctcttctgggttccaacgacacctgaaactcaccgaaacaagaggccattag gagagaagttaaaaatcaaactagattgatttagacgaaacaagtaaaagagctaatataatgctaca tccgttctcgaatatttgtcgtccgttagttcattttttaaaatgaactaaaacgtgacaaataaaaa agaacggagaatggagtgagtattccttaagattatttttctcaaggatgcatgctataattgcaaaa tcaatttaagcaacaccggtacgtttagttcaatttaagcaacaccggtacgtttagttcaattcaac ttggagcggtatcaggttagcaatttgccaagtttaaagctaagtagcaagtcaatgagttatcaata ggttcatacccatcgtaagagcactgacgaagataacagaggagaggatgaagacaataagcgatgct ctcttgagcacatgcacgatcttcctaaccaaacactggccccagaatccagccaatatggaaatgaa gatgaggtagccagctgcagatagagaaacagtgcaagttattaactcgttaccatataacaatcaca cttatgaaaacgtctacattttgaggaattggaatctaactaatagagtaggttatttctttagaacg tgacatttcataa

(>MAGI4_--154269 MAGI4.contigs_w_singleton.fas 2189 bp).

[0029]A suitable nucleic acid molecule of the present invention is a gene that is up-regulated by nitrogen and contained in a full-length cDNA clone having the nucleotide sequence of SEQ ID NO:16, as follows:

TABLE-US-00015 CGACTGGAGCACGAGGACACTGACATGGACTGAAGGAGTAGAAAAAAGT GCTCCCGGAAGACTCCAAGCTGCAGCTACCGGCCTTCCTCTCCCCCATTC CAATTCCGAGAACAGGGGCGGCGGAGTCAACCAGGTACG ATGTGCTCGG TAGCGAGGCTGGCGTTTGTGCTTGCACTGGCCATAGCCGCCTCGTCAA TTGAGGTTGCGGAGAGCAGAGATTTTAATATCTTTGCTCAGGGCAGC TTGCCTGATGCAACCAAGGGATCGTCTGGTCTAGCTGCAACCAGTGG AAAGTTGTGTCAGTTATGCGAGCAGTACTCATCCGAGGCGCTCCTCTA TCTCACACAAAACGAGACCCAGACTGAGATTCTTAGCATTCTACACCA TGAATGTGCCAGCCTTGCCCCTCTCAAACAGCAGTGCATCACGCTGG TTGACTACTACGTACCCCTTTTCTTCTTGGAGGTCTCCATGGTTACCC CTGAGAAGTTCTGCGAGTCGATGCATCTCTGCAAGAAGGGGATGAAG ATTAGCCTACCCACCCGGGAGGGTACTTGTGGTTTGTGCCACCATGTT GTTGTTGAAATTCTTATCATGCTTAAAGACCCCAACATGCAGCTGGAA GTAATCGACCTACTCACCAAAACATGCAGCAAGGCGCAGAACTATGA ACAGTAGTGCAAGCGGCTGGTCCTCAAGTATATTCCACTTATTCTGGTGA AGGGCCAGAAATTCCTTGAGACAACGGATGTCTGCTCTGTGATACATGCA TGCAAAGCAGGCACACAAGCATCAATGGAAGCCATGCCTCTGTCTGCCAT GTTGTGAAGGTGATGCGA

(Underlined=GeneRacer Oligo sequence; Bold/Underlined=start codon; coding sequence in bold) (Sequence of 5' RACE product CW42B12-Full_Length cloned into pCR4-TOPO) (derived from MEST42-B12, GB_ACC# BG873755).

[0030]The predicted protein or polypeptide encoded by the full-length cDNA clone of SEQ ID NO:16 has an amino acid sequence of SEQ ID NO:17, as follows:

TABLE-US-00016 MCSVARLAFVLALAIAASSIEVAESRDFNIFAQGSLPDATKGSSGLAATS GKLCQLCEQYSSEALLYLTQNETQTEILSILHHECASLAPLKQQCITLVD YYVPLFFLEVSMVTPEKFCESMHLCKKGMKISLPTREGTCGLCHHVVVEI LIMLKDPNMQLEVIDLLTKTCSKAQNYEQ

[0031]A putative promoter (upstream of the transcription site of the gene) for the gene of the full-length cDNA clone of SEQ ID NO:16 has a nucleotide sequence of SEQ ID NO:18, as follows.

TABLE-US-00017 gcactcatagcacatctgaggttccctttcttgaacttagctcacctactgttcatagttctgcgcct tgctgcatgttttggtgagtaggtcgattacttccagctgcaagcttgcagcaaacaaagaaaggcat tacagtatgtacagagtacagagcagtacaacacagaagaatgttggtgacagatagtgaaaatatgg ttattacctgcatgttggggtctttaagcatgataagaatttcaacaacaacatggtggcacaaacca caagtaccctcccgggtgggtaggctaatcttcatccccttcttgcagagatgcatcgactcgcagaa cttctcaggggtaaccatggagacctccaagaagaaaaggggtacgtagtagtcaaccagcgtgatgc actgcagcagggtgaatcatcaacacaacatttaacacagctgaaaacgtggtaccaatggaaggatc acaagttacctatacctgctgtttgagaggggcaaggctggcacattcatggtgtagaatgctaagaa tctcagtctgggtctcgttttgtgtgagatagaggagcgcctcggatgagtactgctcgcataactga cacaactttccactggttgcagctagaccagacgatcccttggttgcatcaggcaagctgccctgagc tgaattgaagacagaagaaaggattggccagaaatgcaaaacttcagaaaaacttgagttcctgtgag gaatagcagctaagctgaagctacgccctctacattgagtagaactgatggcttagacgtaattgctt tctttaacatgtcaccggactaaatgaagatacgaacttgtcaaacaaagaaggaatttagataaact aattgaaactatcacgagatctccatcgaaaagaaactatcactagacctgataattcactgctatgg atcaacattcaacaaagaataaagagagtaaggagcaaaaatcagtagattgaaagcttaccaaagat attaaaatctctgctctccgcaacctcaattgacgaggcggctatggccagtgcaagcacaaacgcca gcctcgctaccgagcacatcgtacctgcttaccactaccagttggtcagttgacaggaacaaaactac tgcttgaagaaaactatcgcagtgaaatcagctgtggctgatggacgcagaaaagctggcttgctcaa agcttctccataaagccaaaaggtaaccaaaaaaaaaagagaaaggaaatgtatcctagggccctctc tctacgtcatgtaacggatcagtagaagtttcagattcattcagcccgacgtaactgaagaattcagt tcgcttcaagatgtagccatcagattcacgtatttggagtcaagccaagatagtaccaattggtccgc atccacattccaggcaacagattcacgagattcagctcgctccacgccagcagagctgctactattct ggcaccactccaaatacgcctttgcagcagattagcaaagcattttacgctcgcttttgcgctttatt ttgcccctcgtttcctttccaggtagcttccggttccgaagaatcggaggtccttggattcagggaca aggggtcgaactgggcagcaaatcaagaaccgaggggagacggtagtacagagagcccaggagaagct aacatatgaatggggaattaaagacgcatctcacctggttgactccgccgcccctgttctcggaattg gaatgggagagaggaaggccggtatctgcatcttggactcttccgggagcactttgttttcttaaagc ttcgtgttacattaagaagatgcatgagcatgtagaacagtgtgtgtggccgtgtgtgtgagaacctg agatatttttgcttctttggtggccaagatgtgttagaaaggcataatcttttctca

(>MAGI4_--114997 MAGI4.contigs_w_singleton.fas 1961 bp)

[0032]A suitable nucleic acid molecule of the present invention is a gene that is up-regulated by nitrogen and contained in a full-length EDNA clone having the nucleotide sequence of SEQ ID NO:19, as follows:

TABLE-US-00018 CGACTGGAGCACGAGGACACTGACATGGACTGAAGGAGTAGAAATATAG CCAGAACTCTTGCATCCTGGTGATGGTAAACTGCCGTGCCAGTATAAACG CGAAGGCAGGTCACACATACTCACAAGTCCGTCCCATCTCAGGTCATCCA TCCATCCATCCCTGCAGCA ATGGCGTCTGCAGTGACCAGCAGCGACAA GGAGCAGGCCGTCCCTACCATCGACGCTGACGAAGCGCACGCGCTGC TGAGCTCCGGCCATGGCTACGTGGATGTCAGGATGCGGGGGGACTTC CACAAGGCGCATGCGCCCGGTGCTCGGAACGTTCCCTACTACCTGTC CGTCACGCCGCAAGGGAAGGAGAAGAACCCACACTTTGTAGAGGAAG TGGCTGCCTTCTGTGGGAAGGATGATGTCTTCATTGTGGGTTGCAAC ACGGGGAACAGATCCAGGTTCGCGACGGCAGACCTTCTGAACGCGGG GTTCAAGAACGTGAGGAACCTGCAAGGTGGTTACCGCTCCTTTCAGC AGCGAGCTCAACAGCAGTAGACATCACGTCCTGAAGGTATGCCAGGGAT GCTGCAGTTGAACG

(Underlined=GeneRacer Oligo sequence; Bold/Underlined=start codon; coding sequence in bold) (Sequence of 5' RACE product CW43D12-Full_Length cloned into pCR4-TOPO) (derived from MEST43-D12, GB_ACC# BG873856).

[0033]The predicted protein or polypeptide encoded by the full-length cDNA clone of SEQ ID NO:19 has an amino acid sequence of SEQ ID NO:20, as follows:

TABLE-US-00019 MASAVTSSDKEQAVPTIDADEAHALLSSGHGYVDVRMRGDFHKAHAPGAR NVPYYLSVTPQGKEKNPHFVEEVAAFCGKDDVFIVGCNTGNRSRFATADL LNAGFKNVRNLQGGYRSFQQRAQQQ

[0034]A putative promoter (upstream of the transcription site of the gene) for the gene of the full-length cDNA clone of SEQ ID NO:19 has a nucleotide sequence of SEQ ID NO:21, as follows:

TABLE-US-00020 cgcactaagaaggcagggaattgtgtggcaaatataggtacatgctacacgtgtgatatttcccgatt tgtcaatctgggacatgaagttaacatcgcaaattataatgttacaggaaccaggtatggtgctagct tgcgtaagcaaatcaagaagatggaggtatctcagcattccaagtacttttgcgagttctgtgggaag gtacatttctgttagttaccctgtttctgcatccaagttttctaatctttgatctattgaactgcgag ctgtctttatgttgtactcgttatcatcaccactgctgttatgaaatgtaggctgcagtcagattgat tttgagcacatgaaatcaattagttttcgatatatctgtttgtcacaagcacatgaaatcaattagtc ttcgatatatctgtttgtcacatttgaatgatttataagatgtctgggcatgtccatcaatgtgtttc taagatacatttgaagacagacagcatttgttccgaatccaacctttgctgtgctgtgtttccagttt gctgtgaagaggaaagcagttggaatttgggggtgcaaggactgtgggaaggtgaaggctggtggtgc ttacaccatgaagtaagtaattcttcgcctgtccgaaaaccacaatttgttagccacggctaaattct gttaatgtgtttgcagcactgctagtgcggtcaccgtcaggagcacgatccgccgcctgagggagcag actgaagcatgatatagctctttatattattggggtttcctgtagttgctcttgtcaggcatgttgtg ggggccttatctagtggaaatgtggaatcactgtactggctgttttgccgagacaatgctccttatat ttggtttatgctctaggatctcaaagttgtgttaagatttgcccttggttaccgttctgaatctgaca agtgatatttcatcctatgccatcttgacgtcgaatttggttgtggttttctatgcgcttggctgtgt caatggtttgctattctgttcttgaaattctacagatactgctgcgtctctgctggttgagtctggtt tagatagcaaccagtccttattattggtctttcaagttcaagtcaactaaaatgcgacaaataaaaaa aagaatggagggagtatataactgttcaagtcaaccaatccttattacgcctgcacttgtgtccaaaa agaaatgccccggagctattattggtctgttgccagataagcagtgacgacgcagcatcgaaggtcag agacgacttttttgcgagaacgagcatcaagctgacggaatggagcattattccgataaaaaaaaggt atagccagaactcttgcatcctggtgatggtaaactgccgtgccagtataaacgcgaaggcaggtcac acatactcacaagtccgtcccatctcaggtcatccatccatccatccctgcagcaatggcgtctgcag tgaccagcaggtaaacatagcttctgagtgcatctgatgttgcttacagtaacattacatgcatagag cagaagatcggatgcatctggattaaccagagtcagtcttgtcttggtgtgcactgcagcgacaagga gcaggccgtccctaccatcgacgctgacgaagcgcacgcgctgctgagctccggccatggctacgtgg atgtcaggtgcgtagagctcagccagtcagggacgcgcctatgcgtgtgctggagcttccagacgaac tgacgctgacggggacgaggtggttctccttcgtgcaggatgcggggggacttccacaaggcgcatgc gcccggtgctcggaacgttccctactacctgtccgtcacgccgcaaggtcagtttcttgctcgctggc gttggcgctggcactggcattggggttattgatttgagctgcctctgtccccgtgtagggaaggagaa gaacccacactttgtagaggaagtggctgccttctgtgggaaggatgatgtcttcattgtggtagcta ttcactcatataaataaataaataaatgtactagtactctataaatagatagatacgcctgtaatcaa ggagttgtcgtgtagggttgcaacacggggaacagatccaggttcgcgacggcagaccttctgaacgc ggtaaacacagcccatccgagctttagcatcaatccagttagctgtatgtgtgtgtgtgtgtgtgtgt gtttaactgagggtcacactagtctgctcgcat

(>MAGI4_--143540 MAGI4.contigs_w_singleton.fas 2277 bp)

[0035]A suitable nucleic acid molecule of the present invention is a gene that is up-regulated by nitrogen and contained in a full-length cDNA clone having the nucleotide sequence of SEQ ID NO:22, as follows

TABLE-US-00021 AAGATAGCTGCAAAACAAGCGAGTTACTTACAACCAAACAGAAGGGTAGA AACCACCTGAAGCCATGTGCATTGCTGCATGGATTTGGCAGGCTCACCC TGTGCACCAACTCCTCCTGCTTCTCAACAGAGATGAGTTCCACAGCAG GCCTACAAAAGCAGTAGGATGGTGGGGTGAAGGCTCAAAGAAGATCCT TGGTGGCAGGGATGTGCTTGGTGGAGGAACATGGATGGGGTGCACCA AGGATGGAAGGCTTGCCTTCCTGACCAATGTGCTTCAACCAGATGCCA TGCCCGGTGCACGGACTAGGGGAGATCTGCCTCTCAAATTCCTGCAGA GCAACAAGAGCCCACTCGAAGTTGCAACTGAAGTGGCAGAAGAAGCTG ATGAATACAATGGCTTCAACCTCATACTAGCTGATCTAACAACAAATAT CATGGTTTATGTGTCAAACCGGCCTAAGGGTCAGCCTGCAACAATTCA ACTCGTGTCACCAGGACTCCATGTGCTGTCCAATGCAAGGCTAGATAG CCCTTGGCAGAAGGCAATTCTCCTCGGTAAAAACTTCAGGGAGCTTCT TAGGGAGCATGGTGCTGATGAGGTTGAAGTGAAGGATATAGTTGAGAG GCTAATGACTGACACCACAAAGGCTGACAAAGATAGACTGCCAAACAC TGGTTGTGATCCCAACTGGGAGCATGGTCTGAGCTCCATCTTCATTGA GGTGCAAACTGACCAAGGGCCCTATGGGACACGGAGCACAGCCGTTTT ATCAGTGAACTATGATGGCGAAGCTAGCTTGTACGAGAAGTATCTTGA GAGTGGTATATGGAAGGATCACACAGTGAGTTACCAGATAGAGTAGTA GGCATTGCACAGGAAAAGTTGGCGACCTCA

(Underlined=start and stop codons; coding sequence in bold) (Sequence of 5' RACE product AM45C08-1T3 Full_Length cloned into pCR4-TOPO).

[0036]The predicted protein or polypeptide encoded by the full-length cDNA clone of SEQ ID NO:22 has an amino acid sequence of SEQ ID NO:23, as follows:

TABLE-US-00022 MCIAAWIWQAHPVHQLLLLLNRDEFHSRPTKAVGWWGEGSKKILGGRDVL GGGTWMGCTKDGRLAFLTNVLEPDAMPGARTRGDLPLKFLQSNKSPLEVA TEVAEEADEYNGFNLILADLTTNIMVYVSNRPKGQPATIQLVSPGLHVLS NARLDSPWQKAILLGKNFRELLREHGADEVEVKDIVERLMTDTTKADKDR LPNTGCDPNWEHGLSSIFIEVQTDQGPYGTRSTAVLSVNYDGEASLYEKY LESGIWKDHTVSYQIE

(The above sequences are presented after trimming GeneRacer Oligo sequence. Cloned in pCR4-TOPO wctor at the "TOPO Cloning site".)

[0037]A suitable nucleic acid molecule of the present invention is a gene that is up-regulated by nitrogen and contained in a full-length cDNA clone having the nucleotide sequence of SEQ ID NO:24, as follows:

TABLE-US-00023 CGACTGGAGCACGAGGACACTGACATGGACTGAAGGAGTAGAAAATCAG CCGCAGTCGCGTCGCGTCGCGTCGCGTCCAGTCCAATCCTCGGAGCCTCA CACGGGCGGACGAGCGGGAGCTTCTCCCAATCTCCCCTGCCCTGCCCTGC CCTGCCGCCGCGCTTAGCTTCGCATCTTCCCCTCCTCCTCCTCCTCCTTC CTCGGCCAAGCGAGGAGCGAGGCGCGGGCGCGAGCGCGTCGTTGAG ATG GATTCGGAGGCGGTGCAGCACGGCCTTCTCCCTCTGTCTGCCTGTCCTCC TACCGCCAACAGCTGCGCGCATTACAGCCGTGGGTGCAGCGTCGTGG CGCCCTGCTGCGGCCAGGCCTTCGGCTGCCGCCATTGCCACAACGAC GCCAAGAACTCGCTGGAGGTCGACCCGCGCGACCGGCACGAGATCCC CCGCCACGAAATAAAGAAGGTGATCTGTTCTCTCTGCTCCAAGGAAC AGGACGTGCAACAGAACTGCTCCAGCTGTGGGGCCTGCATGGGCAAG TACTTCTGTAAAGTATGCAAGTTCTTCGATGATGATGCCTCAAAGGGC CAGTACCACTGTGACGGATGTGGAATATGTAGAACCGGCGGCGTGGA GAACTTTTTCCACTGTGATAAATGTGGGTGTTGCTACAGCAATGTCTT GAAGGATTCCCACCACTGCGTCGAAAGAGCAATGCATCACAACTGCC CCGTCTGCTTTGAGTATCTGTTCGACTCCACGAAGGACATCAGCGTGC TGCAATGTGGGCATACCATCCATTTGGAGTGCATGAACGAGATGAGA GCACACCATCACTTCTCATGCCCAGTGTGCTCGAGGTCCGCCTGCGA CATGTCGGCCACATGGCGGAAGCTCGACGAGGAGGTCGCGGCCACG CCGATGCCTGACATCTACCAGAAGCACATGGTGTGGATCCTGTGCAA CGACTGCAGCGCGACCTCGAGCGTGCGGTTCCACGTGCTGGGGCACA AGTGCCCCGCGTGCAGCTCGTACAACACCCGGGAGACGAGGGCTGCG TGCCCCAGGATCTGAGGCGAACCAGAGGCCATGTCACAAAATGCCAGGG AGATGCCGTCCAACGACCATCTGTCTGCAGGACGTTGCTGCGCTTAAGGT TAAAGGCTAGCGCGAGACCAGGCCTGGTAGTCCAGTCTTGAGTTTGGTGC TGGAGCATTTGTAATGTTCCGGTAAAATGTAATGCGTCCATGAGTGCTGT CCAGGCAGTAAGCACACCTGTGGATCGGGGCCGGCGCAAGGTCCCTAGGC AAGCTGCAGGATTAGTGGGGCTATTCATGTTTAGGGCGCGAATGCAACGA

(Underlined=GeneRacer Oligo sequence; Bold/Underlined=start codon; coding sequence in bold) (Sequence of 5' RACE product CW55C10-Full_Length cloned into pCR4-TOPO) (derived from MEST55-C10, GB_ACC# BM072886).

[0038]The predicted protein or polypeptide encoded by the full-length cDNA clone of SEQ ID NO:24 has an amino acid sequence of SEQ ID NO:25, as follows:

TABLE-US-00024 MDSEAVQHGLLPLSACPPTANSCAHYSRGCSVVAPCCGQAFGCRHCHNDA KNSLEVDPRDRHEIPRHEIKKVICSLCSKEQDVQQNCSSCGACMGKYFCK VCKFFDDDASKGQYHCDGCGICRTGGVENFFHCDKCGCCYSNVLKDSHHC VERAMHHNCPVCFEYLFDSTKDISVLQCGHTIHLECMNEMRAHHHFSCPV CSRSACDMSATWRKLDEEVAATPMPDIYQKHMVWILCNDCSATSSVRFHV LGHKCPACSSYNTRETRAACPRI

[0039]A putative promoter (upstream of the transcription site of the gene) for the gene of the full-length cDNA clone of SEQ ID NO:24 has a nucleotide sequence of SEQ ID NO:26, as follows:

TABLE-US-00025 ccttacaggttatcacttaccgcctccgttttcgaatatttatcgttcgctagttaatcttaatttaa acttaaatgaggcaaataaacgtttaaactattctcttgatcgtgtgtctgattgtcttgttgtttaa aatgcctcctagatcgatcgtcgtagtgcaggttgttttagacaaagttgaactgcgatcagaccgag accggacaaccattgagcagttattttcctattcatcgtggactaactggaagatattttctgagctc caaaaaatatccaaaggaagggagaacgtgaaggacgaggtcggaccggacacgcctcccctcgctaa tcattgaggcggaggcggcggaggcgattttgggaacactcgcaggtagattttgcgtgaacttggac gagggtcattttcgctttggatgaatccacgaggtggtgtcactgcacgcgcacggggccctcaaacc gtttgaaaaccaaaccgaaggcaacaaaacgagactctcatctcatctgactctacggccagctcaag tgatctgctgctggtggccgacctggcggcgtgatctcgctcccgtgcccgtctcctccatccgacgc gtacatggcccgccatcctcatccatccgccctccagaggaccagtccagaccaataataaaagggaa ggtcgacgacgggctcgctccaatccggcgaaccgcgtccccgtcagcctgtcatcccgtgggcgcgc ggctgtcgacctgcgcatcagcttctatgattagccaggagcaataatttattactcctatttgccag gcgacgttcgtccaattcgacccggcaggcagcaggcagcagctgtgctcctgtgggtgggtgggtca tgggtgaccacatgcatcgatggagccagggccgccgtgtgcgcagccaactctacctatccccgccc ccgggatgggcgatggcaactatcctatcgcaacaatatcctggggtgggggctataaaacggagcgg cccgcgtggggcgcgcctccatcagccgcagtcgcgtcgcgtcgcgtcgcgtccagtccaatcctcgg agcctcacacgggcggacgagcgggagcttctcccaatctcccctgccctgccctgccctgccgccgc gcttagcttcgcatcttcccctcctcctcctcctccttcctcggccaagcgaggagcgaggcgcgggc gcgagcgcgtcgttgagatggattcggaggcggtgcagcacgggtaagcaagcaaagcaatccatgga tcgatccaggacacagggaggagctaggaagaggaacaatctcatgatctcattcatctgacacagcc ttctccctctgtctgcctgtcctcctaccgccaacagctgcgcgcattacagccgtgggtgcagcgtc gtggcgccctgctgcggccaggccttcggctgccgccattgccacaacgacgccaaggttcggtggtt tccctccttccgttttcgcttcggctccggttcagcagatgttctgaaacaaccctgtcccgtgcccc ggcagaactcgctggaggtcgacccgcgcgaccggcacgagatcccccgccacgaaataaagaaggtc agcgttccctccctctgctcaaagagcaatctcctgcctgtttcaaccattgcctatctcgtgttcgt ctttgttattaccgtgagcaaagaaaggaagaaacaaacaagagcgccgccttctctcttctccttct ccatgtaatggagcatttgttccgccgcgtagtcgagtgcaagcagcggttttcctcttttggaaacc cacccccacgcacggttccgttccaatctcgcccttccaattgaccaacacaaacctttcctaagatt tcttgtcctccttacccttctacagacaagtacgaaacgcaatcgcacaaggttatactactactagc ttttagtgttctagcgaccttagatttttttttttggttaggcatccctgatttttctcacacttaaa agcttcttcagataaggccatatcagctcagctcagtgctctgggagccgttctgcacttcacttgcg tgtcactaaaaacttgactgctttccgcgatgtgctccgcaccaagtggccggcactgcgtggtccac aggatttttcaagagaaagccggggtcacgggtgccacttgaagccaaggacaggcgtctgggattgg agaatatatgagaaagggataccgtcagaggcacatctcaccgtcaaactgaacagggtctaactgct tccagctgatttgattgagtttgagtgctgcatagttgaggacctggatatagtgacgtgtcctgaca ggtgtctttggacctattagcagtgaatctgacgtcgatcggctaaagcaatcatgttcgattcttat ccttttttttttgagagtatatgcctgattcgataaacgttcctatcctgtttcctgatgatgcatat atgttgtttcgattcatatagaatcataccatccatctattttgtttaaaaaaaaaatttctgggtgg ccatgggcacagcatgcctgttcttaagataacgattccagtaactgttcccttctgtcactgaactc atatgaatcgagacttaactggagctgttgcgcaggtgatctgttctctctgctccaaggaacaggac gtaagttgtctaccaaaacgtactcctacaacagtttttcaggagcacgcatcttttggctgtactac tactgctaactgcatggaaactgctcattcccatcggcaggtgcaacagaactgctccagctgtgggg cctgcatgggcaagtacttctgtaaagtatgcaagttcttcgatgatgatgtaagcgtactcgaatcc cagacgatgaacaaagaaactgaactcgatgcgttgtttactgcgtttcttttttcccccttcttctt cacgtacatactgtactgctcttggtccaggtctcaaagggccagtaccactgtgacggatgtggaat atgtaggtaagcaccaccacgctgatggctacgtctaaagacttgacgcgcagaagtgtaaaacttct gtcagccgttcaaaactgataaattcgggttcctcgtcttcttgttgtttatgcagaaccggcggcgt ggagaactttttccactgtgataaatgtggtgagtttctgcgcggacttctttctgctaagattctgt aaccatgctatgcagcaaagatttcactcgcgcccttattggtgtccttgttgccgtccgacagggtg ttgctacagcaatgtcttgaaggattcccaccactgcgtcgaaagagcaatgcatcacaactgccccg tctgctttgaggtgagagacctccgtttcaacggaacattcactctgaatgttccaatctcttgatat tgagaaggtttccctctgttttttttcacagtatctgttcgactccacgaaggacatcagcgtgctgc aatgtgggcataccatccatttggagtgcatgaacgagatgagagcacaccatcagtaagcatatata ccgttctcttcggagctgagaaacggtgccacctcacaacatcctcttttagtcgcagtgaccttaca gtctcagccctgtttggtctttggcagcttctcatgcccagtgtgctcgaggtccgcctgcgacatgt cggccacatggcggaagctcgacgaggaggtcgcggccacgccgatgcctgacatctaccagaagcac atggtaagaagccgaccgcccactcgttcgtcgtcccgttacatcttttccacagccatggctcgctg tttgacgagctctgaacctgtccggggtgccgattgctggaactgaacggcaaatgaacgctgtggtg tgagtgcaggtgtggatcctgtgcaacgactgcagcgcgacctcgagcgtgcggttccacgtgctggg gcacaagtgccccgcgtgcagctcgtacaacacccgggagacgagggctgcgtgccccaggatctgag gcgaaccagaggccatgtcacaaaatgccagggagatgccgtccaacgatcatctgtctgcaggacgt tgctgcgcttaaggttaaaggctagcgcgagaccaggcctggtagtccagtcttgagtttggtgctgg agcatttgtaatgttccggtaaaatgtaatgcgtccatgagtgctgtccaggcagtaagcacacctgt ggatcggggccggcgcaaggtccctaggcaagctgcaggattagtggggctattcatgtttagggcgc gaatgcaacgaaattacccgtgggccgtgggctcggtatgtaacagaaccgattatttctattacaat aataacatgcagttctattgggccgagcctaatcaggcaccacgaatgtgaataattgcacatggcgc atatatggcgggcagtagatacatataaaatggagaaaatccgtttattgccatcaaaacttatactg atcactacaataccatctaaaatgatgtgctcccttcaaaaccattggtttatattttctatcctttc attgccattgccgttacataatggcgcatgtggcatatatgggcggcgtatgtaggttcaggatggtc acacgacatatgacgagactacagagacatggtcaagagaagttcagtggattgtgacattctgatct aagacttcttaaaattggagttaataagatcgataatactcgtaccaataatgcacatcttgcttttt agaagcctgttttgaaataaccccaggattaagcatgtttggcccaaagaaatttttgtgatggtggt cgaccgagaagttttcttgactgcatgccagtgaggacaaaaaaacacatatgaaagaatcgtgttgg tctgtgagaatagatcaggaagttttctcgactgcgcgaccatggatggttggggtgtttcatcaagg atccgctttaaacacatacctttttgccttggtgatggataaggacataccggacataaaggggataa cccttggtgtgtgtttttttgcagacaatgtaatgctagttgatgaaagtcgggcatgagtaaatgga aaactagagttgcggcaagaaactttataatcaaaaggttttagacttagtagaactaaaatagaata tattggatgcgatttcagcactacatatgaggaatgagatcttagtttagaaggtctaggaaggacac ctttagatatttagtatcagcctatagagagaccgggatattaatgaagatgctagccataaaatcaa agtagagtcagtgaagtggagtcaagcatctggcattttatatgacaaagtgggaattgcaaaagcta aaaagaaagttttaggacaacgattagaccttctatattatatggaacataattttagcctacaaaaa gatgatatgtttagcagataaatgttgcggt&atacatatgttacgttggatttgtgaacatacaaaa agggatcgagtttagaatgatgatatacatgatagactaggggtagcaccagtcgatcgatatggttt gaatatatccaacggagacctatagaggtgtcaatatgtcttaggacctgtttgaaagcatccagttt ttaagaaattggtttatagaaattaaagtggttccaaacatacaagtttatgccccagtttatataaa ctggattatcaatttcttaaaaaccaagaagctagtctttgctagctaaaaccaacttttgcttgttt aattacataatgcccttgttggttgcatggaatttacatctattgtcgtcgcttttaagatagaggaa gggtatgttagtaattgtgtatcaaaaaatagaaaatttgtttcttagaactaagttccaaacaccct cacccaacttttttataaactagtttctataaactggagatagaaattggtttttaataaaccggtat gctttcaaacaataccttaggattctaagatgtgataccaatgagaaaaggaagaggaagactgaagt tggtatgggaggtgataataaaatgagtcttgaaaaaatgagatatatctaaagatttagccttgaat agaaatgcatgaaaataactatccatatgtttgaaccttgactttgagttttgttgaatttttaactc tagcctacgccaatttgtttgggactaaaaggttatgttgttgttattgccgctataaatggtgttca acactttcttcaagattatgatattttgttttctacaccaacaatattactgttggggtctccttctc tgccgaaggtcctcaggatgaagaaactgtctttggttcatcttggtaagatacgtcaaaaggaccga atgccgaagctgtgacagacatgcagggaatatagcagagcttcgataagagttaaagcttcggctta agatgattatgaaggtcatacaagaaaccaagccaccaatgaaaagacctgtttatccttaaaatttg tattagaacaatgtatagatatcagggtcataaatgtacttttgcttgggcggcgtcccgtgcctata aatagatgaactgtacccccgtactgttgacactttcattgaaagtcattctcgcactctctccttca agcaagacgaaggtactaatgtaatataatgtttgtaatggttcattagaatgttatccaaactatgt cattaccttgatatagaaaataaagtgaattcataagataataccacattgtgatattatctccatga gaaatgaagatccgctcttcttcaccctcgcccaaaaaccatcatctttgagagaagataattgaaag gaaattgggttaaccatttcctataactaattttggtgggtgatgatcaacacaaacccatggactaa ctagtttgtctagaattcatggattacaggtgcataaggttcaacacaaaccaagaaagaaatccggt tagggacacaattaaaaatggagcaaagacttga

(>MAGI4_--73717 MAGI4.contigs_w_singleton.fas 7106 bp).

[0040]A suitable nucleic acid molecule of the present invention is a gene that is up-regulated by nitrogen and contained in a full-length cDNA clone having the nucleotide sequence of SEQ ID NO:27, as follows:

TABLE-US-00026 CGACTGGAGCACGAGGACACTGACATGGACTGAAGGAGTAGAAAGCTGC TATTTTCTTCTTACATTGTCCACTGCGCTAGCTAGCTCGCATCTACCTGG AAAGCTGAAAGCTAGCCAGAGCGCTAGCTAGCTTCGTTCCTCGTCGCCGC GCGCCGGCCAG ATGACTGCTCACCAGACTTGCTGCGATGATGCCGTTGC CGCCGGCACTGCACCGGCTGCCAGGAGGAGGCGCCTCAAATTGACGAG GCCGTCGGCCTCGCTCTTGATGGCGAGGAAGCTAAGGAAGAAGGCTG CCGGCAGCAAACGCCCAAGGGCGGCAGCGTCGAGGAAGCGCGCGAT GGCGATCAGGAGGAAGATGGAAGCGCTGAGGCTGCTCGTGCCACTCT GCGGCCGAGACAACGGCTCGGTGACCGGTGGGGCGGTCGAACGACT GGACGAGCTCCTCATGCACGCCGCCGGGTACATCCTGCGCCTCCAGA TGCAGGTCAGAGTGATGCAGCTTATGGTCCATGCACTAAATGACCGG CCCGAGGATTAATCTTCTTCCCAAGACCATGTGATCTTCCTTCTTTAATT TCTTCTTCATCTTCTTCGCGTGCCTGTGTTGCACGAGGCAGCTGTGCGTC GGTGTCTGGGTGCAAATCA

(Underlined=GeneRacer Oligo sequence; Bold/Underlined=start codon; coding sequence in bold) (Sequence of 5' RACE product CW61A10-Full_Length cloned into pCR4-TOPO) (derived from MEST61-A10, GB_ACC# BM073122).

[0041]The predicted protein or polypeptide encoded by the full-length cDNA clone of SEQ ID NO:27 has an amino acid sequence of SEQ ID NO:28, as follows:

TABLE-US-00027 MTAHQTCCDDAVAAGTAPAARRRRLKLTRPSASLLMARKLRKKAAGSKRP RAAASRKRAMAIRRKMEALRLLVPLCGRDNGSVTGGAVERLDELLMHAAG YILRLQMQVRVMQLMVHALNDRPED

[0042]A putative promoter (upstream of the transcription site of the gene) for the gene of the full-length cDNA clone of SEQ ID NO:27 has a nucleotide sequence of SEQ ID NO:29, as follows:

TABLE-US-00028 taaatctgacctccaaaatgtctctaatgaaagtgtctgcgagaaacagtattgctcgaccgaggaag aaaggtatttataacacacccatcacaaatggttggcttaattaaccgcaagtgcagaatagatttgc actgttggttcacttaataaaactgcaagtgaaaatatactttttctactatcggttttgttaagtga acctaccgattttgcactggtgattatttaagccaacctcatgtgataatatgaatgatttgcacgtg gttttattaagcgaactaacaatgtaaatgtgtttccaatggtggtttttaagtcgggaccgtcattt tactttaactggcgcgcaccgtgctgttttatacttgactgatgaaccttcgtggtgagtggaagcgg tgtggagcgagggctagctcatgcggccagccggcgacatttctcttgttccgatcccccggccggcc aaccactcaattaagtaggtgatcgattggcatgcatgcatggatgcatatcagcaaatgcatatcat atgcctcgctagctggctagtatatatagtggatgtggatcggatcatgtgacggccgggcggtggct gcattgcattggccctgcatatatgcacggtgacacaacaacggggcccaaataaaggacacgtcgaa ggtgcgcgccccagtggcgtccgacagcgcgttttgacgaggaaaagagggtgcgggcacgcgcgcac gcatatgctcgcggcatgcagcctcagtggccgatgacgagtggcgtgtggtgtggccggcggccggc cggccgggtgcctgcgtggtgcatgttgcttgccatgcatgcgtgaaatgagccgtcagcgagcgagc tgagggcgggcatgtggctgcatgtggccactagtttggagaacatgcggcatatgccccggaccttc ctgggcgctcaagcaaacaccgctctcgtgctcgctctcttgggaaatcgaagatgcatgctacccaa cgtgacctggatctcttttacgtacgcacaccctagcgtgctgctctcctgtgtccccgcctcctgct agctgttcacaatatccacgcgatttaacaaacagatatgtgtgcatgctactgcttgttttcctatt caatatagtaatctgctttatttagagtaccgtacctgtgccgtcagtgcccccaaccccaacgtaac tacgcacgcacatggcatctaatctatataagcatcagaccttgctcccttaatctcgcgctgctatt ttcttattacattgtccactgcgctagctagctcgcatctacctggaaagatgaaagctagccagagc gctagctagcttcgttcctcgtcgccgcgcgccggccagatgactgctcaccagacttgctgcgatga tgccgttgccgccggcactgcaccggctgccaggaggaggcgcctcaaattgacgaggccgtcggcct cgctcttgatggcgaggaagctaaggaagaaggctgccggcagcaaacgcccaagggcggcagcgtcg aggaagcgcgcgatggcgatcaggaggaagatggaagcgctgaggctgctcgtgccactctgcggccg agacaacggctcggtgaccggtggggcggtcgaacgactggacgagctcctcatgcacgccgccgggt acatcctgcgcctccagatgcaggtcagagtgatgcagcttatggtccatgcactaaatgaccggccc gaggattaatcttcttcccaagaccatgtgatcttccttctttaatttcttcttcatcttcttcgcgt gcctgtgttgcacgaggcagctgtgcgtcggtgtctgggtgcaaatcattggctgagtgtgttattgg tgatattatttgttcgtatatacagaatatatactcatgcatgcatactgtatgagatgatagagtaa atctagacatatatagttcaaggaaacctacagccaacagttgtatgcatgtgaggggggttccttgt ctgtatgtacgcaattgtctattgtgtgacggttgaaattgaaatttcgtcaatcatcatttcttcgt ctagataacgtgtgtacaaacggcgagtgtttaaatgaactagagctaataattagtggctaaaatta gctggagacatccaaacaccctaactaataatttaactattagttatttttagtaaattagtcaatac ttagctagctatttgttagctagctaattctactagcattttttagctaactagctattagctctagt acattcaaacacccttttagggactaatttttagtctctccattttatttcattttagtcactaaatt accaaatacgaaaattaaagctctattttagtttccggtatttgacaatttag

(>MAGI4_--145622 MAGI4.contigs_w_singleton.fas 2433 bp).

[0043]A suitable nucleic acid molecule of the present invention is a gene that is up-regulated by nitrogen and contained in a full-length cDNA clone having the nucleotide sequence of SEQ ID NO:30, as follows:

TABLE-US-00029 GGACACTGACATGGACTGAAGGAGTAGAAAATCCATCCATTCCCCTCGCC AAGCCGCCACGGCCTGACTTTCCCTCCCGCACACCCGCGACCATACAGGC AAGTCAGGCATACACCAACAACGCTCGTCGTGCACCTCGCGCCTCAGGTC ACCCCACCAAATTCCTCTTGATACGCCGAATTTCTTTTGCTAATTCTGCT ACCTCCTGTCGCTAAGCCACCATATTCAGTCTAACCCCTGCTCTGAGCTC ACCTGATTGGCGGCTCCGTTCGGCCTCTGGGCCTGGGTGTACCGACTACC GAGGGCTCTTTCGAAATGTCAATTGGGTCGAGTTTGGTGGGCTACGTGAA GC ATGGATGAATTTCCCGGCTGGAAGCGGGAGGCGGCAGCAGCATCCGG GGCCGGAGCACCTGTCGCCGATGACGCCGCTCCCGCTGGCGCGGTAG GGGTCGGTCTACTCGCTCACGTTCGACGAGTTCCAGAGCTCGCTCGG TGGGGCCACCAAGGACTTCGGATCCATGAACATGGACGAGCTCCTCC GCAACATCTGGTCGGCGGAGGAGACACACAGCGTCACAGCTGCGGAC CATGCCGCGCGGGCGCCGTACGTCCAGTCCCAGGGCTCGCTCACCCT CCCCTGCACGCTCAGCCAGAAGACCGTCGACGAGGTCTAGCGTGACC TCGTGTGCAACGGTGGAGGACCCTCCGACGAGGCTGTGGCGCCGCCCCAC CGGCCCAACGGCAGCCGACGCTCGGGGAGATC ATGCTGGAGGAGTTCCT CGTCCGCGCCGGCGTGGTGAGGGAGGACATGATGGCGGCGGCGCCC GTACCACCAGCGCCGGGTTGCCCACCACCTCATCTGCAACCGCCAAT GCTGTTTCCACATGGCAATGTGTTTGCTCCCTTAGTGCCTCCGCTCCA ATTCGGGAATGGGTTTGTGTCGGGGGCTCTCAGTCAGCAGCAGGGAG GTGTTCTTGAGGCCCCGGCGGTATCGCCGCGGCCGGTGACGGCAAGC GGGTTCGGGAAGATGGAAGGAGACGACTTGTCGCATCTGTCGCCATC ACCGGTGTCGTACGTTTTTTTGTGCTGGTTTGAGGGGAAGGAAGCCA CCAGCTGTGGACAAGGTGGTTGAGAGGAGGCAACGCC

(Underlined=GeneRacer Oligo sequence; Bold/Underlined=start codon, coding sequence in bold) (Sequence of 5' RACE product CW76H12-Full_Length cloned into pCR4-TOPO) (derived from MEST76-H12, GB_ACC# BM073865).

[0044]A predicted protein or polypeptide encoded by the full-length cDNA clone of SEQ ID NO:30 has an amino acid sequence of SEQ ID NO:31, as follows:

TABLE-US-00030 MDEFPGWKREAAAASGAGAPVADDAAPAGAVGVGLLAHVRRVPELARWG HQGLRIHEHGRAPPQHLVGGGDTQRHSCGPCRAGAVRPVPGLAHPPLHAQ PEDRRRGLA

[0045]Another predicted protein or polypeptide encoded by the full-length cDNA clone of SEQ ID NO:30 has an amino acid sequence of SEQ ID NO:32, as follows:

TABLE-US-00031 MLEEFLVRAGVVREDMMAAAPVPPAPGCPPPHLQPPMLFPHGNVFAPLVP PLQFGNGFVSGALSQQQGGVLEAPAVSPRPVTASGFGKMEGDDLSHLSPS PVSYVFLCWFEGKEATSCGQGG

[0046]A putative promoter (upstream of the transcription site of the gene) for the gene of the full-length cDNA clone of SEQ ID NO:30 has a nucleotide sequence of SEQ ID NO:33, as follows:

TABLE-US-00032 tagaatagccagcatcgacaaattacttacaaatagaaacattacctgtttcctcccacgcgacctcg cggccaactcccggttcttgatcatccggcgttgcctcctctcaaccaccttctccacagctggtggc ttccttcccctcaaaccagcacaaaaaaacgtacgacaccggtgatggcgacagatgcgacaagtcgt ctccttccatcttcccgaacccgcttgccgtcaccggccgcggcgataccgccggggcctcaagaaca cctccctgctgctgactgagagcccccgacacaaacccattcccgaattggagcggaggcactaaggg agcaaacacattgccatgtggaaacagcattggcggttgcagatgaggtggtgggcaacccggcgctg gtggtacgggcgccgccgccatcatgtcctccctcaccacgccggcgcggacgaggaactcctccagc atgatctccccgagcgtcggctgccgttgggccggtggggcggcgccacagcctcgtcggagggtcct ccaccgttgcacacgaggtcacgctagacctcgtcgacggtattctggctgagcgtgcaggggagggt gagcgagccctggcactggacgtacggcgcccgcgcggcatggtccgcagctgtgacgctgtgtgtct cctccgccgaccagatgttgcggaggagctcgtccatgttcatggatccgaagtccttggtggcccca ccgagcgagctctggaactcgtcgaacgtgagcgagtagaccgacccctaccgcgccagcgggagcgg cgtcatcggcgacaggtgctccggccccggatgctgctgccgcctcccgcttccagccgggaaattca tccatgcttcacgtagcccaccaaactcgacccaattgacatttcgaaagagccctcggtagtcggta cacccaggcccagaggccgaacggagccgccaatcaggtgagctcagagcaggggttagactgaatat ggtggcttagcgacaggaggtagcagaattagcaaaagaaattcggcgtatcaagaggaatttggtgg ggtgacctgaggcgcgaggtgcacgacgagcgttgttggtgtatgcctgacttgcctgtatggtcgcg ggtgtgcgggagggaaagtcaggccgtggcggcttggcgaggggaatggatggatatgtgtcgccacc aaggagtcgtgtgggggagtttaaaacgtcgcaaggctcgaggtcgcacatggtgttgggtttgggtg cgtgctgggtcataaaagctgaaagggaattaggcttacacctatttcctaaatgattttggtggttg aattgtccaacacaaa

(>MAGI4_--7232 MAGI4.contigs_w_singleton.fas 1376 bp)

[0047]A suitable nucleic acid molecule of the present invention is a gene that is up-regulated by nitrogen and contained in a full-length cDNA clone having the nucleotide sequence of SEQ ID NO:34, as follows:

TABLE-US-00033 ATTCCCGTCTTACCTAGCGCTAGGGTTAGTACGCGTCCACGGCGACGACC TCTGCGCGGAGTGTGCTCCGATTGGCTGGCCTCCTCGATCCTCCTTCCCG CGAACGCACGCGCGCGCGAGGGAGAGGTTGAGACTTGAGAGATAGACGAA AGACGAAACAAGGGAAGGAGACGCCGTGCTCGCCTATTGGCCGCCGCCTC CGCTCCTTCGCGCCCAATGGCTTCTGCAGCATATCAATATCATGCAGCAT AGCAGTACTCAGACCCTTACTACGCAGGCGTTGTTGCTCCCTATGGAAG TCAAGATGTGTGTCCGAGGAGCCTGTCTATGTGAACGCCAAGCAGTAC CGCGGCATTCTAAGACGGCGGCAGTCACGTGCCAAGGCCGAGCTTGA GAGAAAGCGCTGGTCAAGCAAGAAAGCCGTATCTTCACGAGTCCCCGTCA TCAGCACGCGATGACGAGGAGGGCGAGAGGGAACGGTGGACGCTTCCTAA ACACGAAGAAGAGTGACCGTGTCCCTCCTGATGACTTGATACAGCTACGA CGACACAACGAGGCTTGAAGAGGTAGCGGTCTGGCTGGCATCCTAGAGCA GCGGTTTCTGTCCACAGGCACGTGCATCTGAGACCGGATCCGTAGCTCCA CTCCACAGCATATGCGCAGCCCATCCATCTCGTGCACACTTG

(Underlined=start and stop codons; coding sequence in bold) (Sequence of 5' RACE product AM77A01-5T3 Full_Length cloned into pCR4-TOPO).

[0048]The predicted protein or polypeptide encoded by the full-length cDNA clone of SEQ ID NO:34 has an amino acid sequence of SEQ ID NO:35, as follows:

TABLE-US-00034 MQHSSTQTLTTQALLLPMEVKMCVRGACLCERQAVPRHSKTAAVTCQGRA

(The above sequences are presented after trimming GeneRacer Oligo sequence. Cloned in pCR4-TOPO vector at the "TOPO Cloning site".)

[0049]A suitable nucleic acid molecule of the present invention is a gene that is up-regulated by nitrogen and contained in a full-length cDNA clone having the nucleotide sequence of SEQ ID NO:36, as follows:

TABLE-US-00035 CGACTGGAGCACGAGGACACTGACATGGACTGAAGGAGTAGAAAAAAAA CCCAAATCAAATTTCGCCTTCGTCGTCGTCTTATCGTCTCAGATTTGACT CCATGTCGGCGGCGCTCGCGGTGACGGACGAGGTGGCCCTGCCGATCC GGGCGGTGGGGGATCTAGCGGCCGCCGCCGAGGTCTCGCGGGAGGA GGTCGCCGTCATCACCCAGTGCGCGGCGCTCGGTGGGAAGTTGCCTT TTGAAGATGCATCAGTTGGTGCGGTTCTTGCAGTCATTAAAAACGTGG AAAGCTTGAGGGAGCAATTGGTTGCTGAAATCAGGCGGGTGCTGAAA GCTGGTGGAAGAGTATTGGTGCAGAGCCCTGCACCCTCATCCAGTCA GAAGCCGAACACTGATATTGAGCGCAAGTTACTGATGGGTGGATTTG CTGAAGTGCAATCTTCTGCTGCAAGCTCGCAGGATAGCGTGCAATCT GTTACAGTTAAGGCAAAGAAGGCTAGCTGGAGCATGGGCTCTTCTTT TCCCCTTAAGAAAACAACAAAAGCCCTTCCCAAGATTCAAATTGACGA CGACTCTGATCTGATTGATGAAGACAGTCTCTTGACTGAGGAGGACC TGAAGAAACCACAACTTCCAGTTGTTGGGGACTGTGAGGTGGGGGCA GCAAAGAAAGCATGCAAGAACTGTACTTGTGGCAGGGCTGAGGCCGA GGAGAAGGTTGGGAAGCTGGAGCTCACTGCGGAGCAGATCAATAACC CTCAGTCAGCTTGTGGCAGTTGTGGGTTGGGTGATGCCTTCCGCTGT GGAACCTGTCCCTACAGAGGTCTTCCACCATTCAAGCCTGGCGAGAA GGTTTCCTTGTCTGGCAACTTCCTTGCTGCTGACATATGATGGCATCG CCAACATCGGCAAAACAAGGA

(Underlined=GeneRacer Oligo sequence; Bold/Underlined=start codon; coding sequence in bold) (Sequence of 5' ACE product CW88H03-Full_Length cloned into pCR4-TOPO) (Derived from MEST88-H03, GB_ACC# BM079064).

[0050]The predicted protein or polypeptide encoded by the full-length cDNA clone of SEQ ID NO:36 has an amino acid sequence of SEQ ID NO:37, as follows:

TABLE-US-00036 MSAALAVTDEVALPIRAVGDLAAAAEVSREEVAVITQCAALGGKLPFEDA SVGAVLAVIKNVESLREQLVAEIRRVLKAGGRVLVQSPAPSSSQKPNTDI ERKLLMGGFAEVQSSAASSQDSVQSVTVKAKKASWSMGSSFPLKKTTKAL PKIQIDDDSDLIDEDSLLTEEDLKKPQLPVVGDCEVGAAKKACKNCTCGR AEAEEKVGKLELTAEQINNPQSACGSCGLGDAFRCGTCPYRGLPPFKPGE KVSLSGNFLAADI]

[0051]A putative promoter (upstream of the transcription site of the gene) for the gene of the full-length cDNA clone of SEQ ID NO:36 has a nucleotide sequence of SEQ ID NO:38, as follows:

TABLE-US-00037 gctgtaccagttgaggtactccttgacgtcctcgtacatggtgggcgccagcgggtgccagatgccgg agtcgaggtagagcacggggtcgtcgtacttgatgccggcgcccctaagcaccggcaagtaggatccg gcgatcatcttgaggaagttctggaggttgtccgccgagccgccgagccagaactggaggctgaggat gtacagccaggcgtcctgcgccttgtcggagggcaggtacttgagcaccttgggcagcgtgcgcacga gcttgagcatgctgtcggcgaagttgctggagttggacttgctgcgcttgaagagctggaagaagggg ctcttggactgccccagctgcgacatgctgaaggagccgagcttgttgaggcgcatgacctcgggcat ggaggggaagacaaggacggcgtccatgcggtcgcgctccttctcggccgcggccttgaccttgagcg ccagctcatcgacgaagatgagggagccgatgaagacgttgacgtcggcgaggtcggcgaggaaggta gcccacgacctcgaacgacgcggcgcggcgcgggtcagcgttgagctgctgcacggcggccgtgacgg acgactggtactgcgcctccagcacgacgtagacgaccttgacccgaggcaggccccgcgggtcggcc ggcaccacgcgccgcacctcgggcttggtctgcgtgaacaagccgttgccgccggcgaccgcgcaccg gatggcgccggcgcgccgcggctgctggcgacggctgctcaggaggaacgagtgcagcggcacgggcg ccgccaggagctgcttctgcgccgcggaggcgaatggggtggacactagcgacgacgacatggcgcct gctcacaggacggagccggcgggcggagaaacgcgcgcctggacactgacgcgacgctcgagcgcagt aagtaaaaaaaaatctacactagactactagagtaaggcgcctgttcttggctcgtggctggacaatt gttcttggcggccgccgtccctcggaaacagagcagggaaaggagaagaagcgagcaggggagcgcgg gaggcgggaaaatgtataggttgtccgtgtccacgtccttcgtctcaattaagaagaggcatccaggc tcacaaaatcaatctgaaaacacatgcactgatgcacacttgtgtttgtgtagaggcgcttatatatc atccaaaagacaagtcactcacacgcaaattcgcattggctaacagaagctatttggaatgcagttca gtcgactaacaacgtaggtacccccgtctccttgttttgccgatgttggcgatgccatcatatgtcag cagcaaggaagttgccagacaaggaaacctgccaatcggagaagcagcagcagtgaacgttcaagatc cagagtacaatcgacagacatattttgatctcctcgagaattctatcaggggaggagacgagtagaac tgttttaccttctcgccaggcttgaatggtggaagacctctgtagggacaggttccacagcggaaggc atcacccaacccacactgcaaagaaaaatcaaggatcatttacagatatcaccagacgtgataggtaa cctagtccgagtgaacgtatgaaatttcacgagggggcacaagtgccacctgtaagcaatacttacac tgccacaagctgactgagggttattgatctgctccgcagtgagctccagcttcccaaccttctcctcg gcctcagccctgccacaagtacagttcttgcatgctttctttgctgcccccacctcacagtccccaac tggtgaaaacatcagtgaaaacatcacttaactgtttaggatccaaacctaaactggctattgcttac ggagttgaactaagttgacgggttttgttgctctaccaactggaagttgtggtttcttcaggtcctcc tcagtcaagagactgtcttcatcaatcagatcagagtcgtcgtcaatttgaatcttgggaagggcttt tgttgttttcttaaggggaaaagaagagcccatgctccagctagccttctttgccttaacctacaagt ggttcaaattagcacaaaaactaaagcctgcacagcaaaactaacatactataacacatgatcttaga ccactcactgtaacagattgcacgctatcctgcgagcttgcagcagaagattgcacttcagcaaatcc acccatcagtaacttgcgctcaatatcagtgttcggctaacggagacaatcataaaaaaattaagaac tttaaatcgacattgcaagagaaacgagacaacaaagacagattctgataagttaataccttctgact ggatgagggtgcagggctctgcaccaatactcttccaccagctttcagcacccgcctgatttcagcaa ccaattgctccctcaagctttccacgtttttaatgactgcaagaaccgcaccaactgatgcatcttca aaaggcaacttcacacctgatgcatggcagaacaatagtttggtcacggttttgtgataacacacaca cacacacacacacacacacacacacacacacacacacacacacggcatagcactagcaaagcataaca caaattaaaaatcgaacattattgtttaatagaggctcccaaaatcaggaatgctagcacttggctta ttcataaacacacacatccataatcaggaagcatacattactgaaccattaaatttaataataaaaat tcagatgttgaatccatggctgaaattttctgttccttttgaaagtataatcctaactttcatctccg gctgacctggtaatatcttctagctccttttaccttatatttttttcagttgcttgagaaatagcggt aggaaaattgacacatgtcattcgtaaatccatgggacttagagcaactccaagagcttcctaagaaa ttgttccccaaaacatcatatagggggctgctgaaaaaaatccactaagagcaactccaaatgagtgc tagaaaatttccccaaaaaatgattattggggatatgttaaaaaattttaggggtgaattatcatgta tactccaacgattccgttaaacaaatgcgactcaatctcagccacagtctgagtcttacagacacaca caaaacctaacatgccggtggcagccacattatcacacaccggaacaaataactttgaggcaaaaaca cattatgcaagcagagaaacaccagaacagactcccagctgttgaagtgcaaatgtgttttctatatt tgagttacttgctggtaaatcccgatcgggaatgtaataatcggggagttgcattagcacttttgcag caagctaagccaactggttgggaatgtcaagcattcttgagcaggagtactagtcaagttaacaggct tcagatcccatccaatcattgtcacatttgaatataacttgagcgggtagaaaaaatatcataacaaa ggcatcatggactgaatcctaaacatcataacgaaggcatcatggactgaatagcgatcatcataaca acggcaggaaacagactcccaactgaatcatggttaacatggactgaattgtggtggcactgcatgca gtgcgagatgcatcatatccaggtcaattcaggttagcaaatgcaaggccacaggagttgccgccagg gaggaggctctaggcgaggtcacgggagttgcggtggaagttgctgcggattggggaagacctttgct cgccaatatttgagggagagtggagctcggatgcgggacgctgataatttgggggaaggaaaggggaa ctattgggtggagaattttttgtttttcaccccaaaacatgtttttgggttggttttagcgttcttct ggagatgctcttaagcaactagcacatgagacatggcatagatatcaagaactgcaaggagaggttca agttcaaatctgaagaagtctgcaagggcatgtccacagattcagcggttttggagttgggaaataac ttcagctttcttttctttttgttgttgagacgttcttttctttttcttttttttttgttgttgttgag gcgtcagctcgacgttttcattctacacattagaaagtggcagtagcgcaagagataccacagggcca aaactactagtggtactgaaagttttcattcgaagaatcagtaagtggcactatcacaggaagaaaca ttgcaaggccaaacttggcgtccactgactgcgcttcaatattacttgagcaacttgctagcctcccg atcccggaaggatggtttgataaactaattctctaattgaagtgggaacccttaagaaccaaacgtcc actactccaaatttgattgcaaaagaaaaaagaatctagcccattccgcggaatcacgccagaaggct cgctaattgaagcatgcaagcaaggcagcaaagagaacagcacgcatcgacgggttcctgcatccaca agcacgaacttggcaacttgccatggtcgcctcgagggaaagaaatagaagaaaaaatggaaagaggg caagacgggggcgaaaccagctaagctcaccgagcgccgcgcactgggtgatgacggcgacctcctcc cgcgagacctcggcggcggccgctagatcccccaccgcccggatcggcagggccacctcgtccgtcac cgcgagcgccgccgacatggagtcaaatctgcacacgagcacacgccgagaaccagaagagactcggt gaaaggagtatccccgaagagaaaaggaattagggttaatcgagggagggttttatctgcacgccccc ggattcatcacgcgactgctacctgagacgataagacgacgacgaaggcgaaatttgatttgggtttt gcctggcctcctctcctctcgaagcttcacaacacgccgagttatttgatattgtaacaatctcgtcg cgcggcttcaccagttattactccgtagttatacttcgctagtttagtatt

(>MAGI4_--101388 MAGI4.contigs_w_singleton.fas 5083 bp).

[0052]A suitable nucleic acid molecule that is modulated (e.g., up-regulated) by nitrogen is the non-symbiotic hemoglobin gene (MEST129-C09.T3Seq) from corn having the nucleotide sequence of SEQ ID NO:39, as follows:

TABLE-US-00038 catccatccatccatccatttccaatcccaatcccaatcccaccagtgtccagtgctcggggaaccgac acagctcctcagcagagtagccagcacgacaagcccgatcagcagacagcaggcatggcactcgcggag gccgacgacggcgcggtggtcttcggcgaggagcaggaggcgctggtgctcaagtcgtgggccgtcatg aagaaggacgccgccaacctgggcctccgcttctttctcaaggtcttcgagatcgcgccgtcggcgaag cagatgttctcgttcctgcgcgactccgacgtgccgctggagaagaaccccaagctcaagacgcacgcc atgtccgtcttcgtcatgacctgcgaggcggcggcgcagcttcgcaaggccgggaaggtcaccgtgagg gagaccacgctcaagaggctgggcgccacgcacttgaggtacggcgtcgcagatggacacttcgaggtg acggggttcgcgctgcttgagacgatcaaggaggcgctccccgctgacatgtggagcctcgagatgaag aaagcctgggccgaggcctacagccagctggtggcggccatcaagcgggagatgaagcccgatgcctag tagtggcgattgcgaccagtgtttaacccatgacgcagcgccgtcacagatgtcccgtgtggtcttgcg ctttagcaatttctctctggagggagcgtgtattgttatcttgtgatcgagagcctgtgtgctgccttt gcttcttgtgattatatagctactgaataaagatgtagcgttcttcaaaaaaaaaaaaaa

[0053]The predicted protein or polypeptide encoded by the full-length cDNA clone of SEQ ID NO:39 has an amino acid sequence of SEQ ID NO:40, as follows:

TABLE-US-00039 MALAEADDGAVVFGEEQEALVLKSWAVMKKDAANLGLRFFLKVFEIAPSA KQMFSFLRDSDVPLEKNPKLKTHAMSVFVMTCEAAAQLRKAGKVTVRETT LKRLGATHLRYGVADGHFEVTGFALLETIKEALPADMWSLEMKKAWAEAY SQLVAAIKREMKPDA

[0054]A suitable nucleic acid molecule of the present invention is a gene that is up-regulated by nitrogen and contained in a full-length cDNA clone having the nucleotide sequence of SEQ ID NO:42, as follows:

TABLE-US-00040 TCGACTGGAGCACGAGGACACTGACATGGACTGAAGGAGTAGAAAATCA CCTAGCTAGAAAGGAGAGCACCGAGCGCTGCACCACTACTGCTGATATGA GCACCTGAACCTTCTGGGCAACCACATCCGGTCCCTGCCCCTGATCATCC GCAGCAGCCATGGCGCAGCAGCAGGAGAAGAAGCAGCAGCAGAGGGG GAAGCTGCAGAGGGTGCTAAGGGAGCAGAAGGCTCGGCTCTACATCA TCCGCCGATGCGTCGTCATGCTCCTCTGCTGGAGTGACTGATCCATCT CAAGCATGCATGATAAACCTGTGCTCTTTTTTTTTCCTTCTGTTTTTTCC CCTCTTTTTCCCATCCTTTTCACCTTGCCACTTTGGTGGGCGA

(Underlined=GeneRacer Oligo sequence; Bold/Underlined=start and stop codons; coding sequence in bold) (Sequence of 5' RACE product MEST213-C11-Full_Length cloned into pCR4-TOPO).

[0055]The predicted protein or polypeptide encoded by the full-length cDNA clone of SEQ ID NO:42 has an amino acid sequence of SEQ ID NO:43, as follows:

TABLE-US-00041 MAQQQEKKQQQRGKLQRVLREQKARLYIIRRCVVMLLCWSD

(The above sequence is presented after trimming. Cloned in pCR4-TOPO vector at the "TOPO Cloning site".)

[0056]A suitable nucleic acid molecule of the present invention is a gene that is up-regulated by nitrogen and contained in a full-length cDNA clone having the nucleotide sequence of SEQ ID NO:44, as follows:

TABLE-US-00042 CGACTGGAGCACGAGGACACTGACATGGACTGAAGGAGTAGAAAAACTA ACACTTCACGTGCCCCCATCCTTTTCCGCCTCAAGTCAAGTGTTCACGGT CCATCCTCTCGAGAGTCTAGGCCCTTCTCCCGAAGCCGCAGACGCAGAAA ACGGCTCTGCAT ATGGAGGCGAAGAAGAAGCCGTCGGCCCCCGCCGCC GTCGGAGCCGCGCCGCCGCCGCCGGGTAACGGGTACTTCAGCACCGT CTTCTCCGCGCCGACTGCGGGAAGCGCAAGTGACGCAAAGCATGCGG ACTTGTACACGATGCTGAACAAGCAGAGCTCCAGAGGGCAGAATGGC AGAGATGGCAAATCCCACAGCCGCCCTACTTACAAGGATGGCAAACA TGCTCATCCAAATGAGCCATCAGAATCTCCTTACTTTGGCTCATCCGT GCATTACGGTGGTCGGGAGTTCTACAGCAGCGTTTTACGGAAGCAAC CAGCCAATGAACCCCATACGGATTACAAGGGGGACAACCCGGATGGC TCTGCTACCAGAGGTGATTGGTGGCAAGGTTCACTTTATTACTGAATA ATCTGCTGGGACCTCTCCCTTTTGTGAACAAGGAATAAAAGGGGTAGAGC TGAGAATGGTTTGTTGTAGTGTTGGAAGTGTTGACGCGAGCCGTCAAGCA TCGATCAATAGTAATAGTTGTAATAGTTGAAAGCTGCGTCGTGACTACAA GCATCCTGTTGGTGGAGGCAGTATTTTAGATCCATCATCACGCCTGGACA GATGTGGGTGTCC

(Underlined=GeneRacer Oligo sequence; Bold/Underlined=start codon; coding sequence in bold) (Sequence of 5' RACE product CW264H08-Full_Length cloned into pCR4-TOPO) (derived from MEST264-H08 GB_ACC# BM350368).

[0057]The predicted protein or polypeptide encoded by the full-length cDNA clone of SEQ ID NO:44 has an amino acid sequence of SEQ ID NO:45, as follows:

TABLE-US-00043 MEAKKKPSAPAAVGAAPPPPGNGYFSTVFSAPTAGSASDAKHADLYTMLN KQSSRGQNGRDGKSHSRPTYKDGKHAHPNEPSESPYFGSSVHYGGREFYS SVLRKQPANEPHTDYKGDNPDGSATRGDWWQGSLYY

[0058]A putative promoter (upstream of the transcription site of the gene) for the gene of the full-length cDNA clone of SEQ ID NO:44 has a nucleotide sequence of SEQ ID NO:46, as follows:

TABLE-US-00044 aaagcttacacttcataagagattcatagttttatcttacagccatcgttgtcaacctcaactaccat gcaatccgtttgggattcaactagcaagtaaggggatgtttgtttgggtttataatctgtctggatta tataatctaacaacttttgaactaacacttagttcaagaattgttggattatataatctaggcagatt ataatcccaaacaaacacttcctaagtcttgtacaggctatagagattatttttccagaatggaggag ggataatgacaagacctaaaagaaagttatgtttatggaaaacaaaaaaatggagccaggataatgac acaaaagaaaggtatgttttctggaataaaaaaaattaaatatatattttgaacttcctaagactgga acatgatacctaagctggacagatgatcaaggacagttttacccctggagacagaaaaacttataaga cttagctttctacatcatatcctgttttgtatgtctcataattaggttccttgtattaagacgaccaa cctatcatttgttatacaaaattcgaacgactgctgaagtctcgaagtatatagtctaggctgattaa aatgtaagtatgggttaaagtgctgctggtaacaaactaaatacaactgtatgatgttgttgacaaca agacataactcaaaatgggagcaccaacaaagtgactggcaccggtgatgcaagcataacctaaacac aactaatggaaaacgcgaattggaaactatgaaagtgtcccatatatggtataccttgttcacaaaag ggagaggtcccagcagattattcagtaataaagtgaacctgaaagtgaagtctagcaagtcagtgtat gagcgtccatgtatatactgaagataatacacaaattgatgcaatgataccttgccaccaatcacctc tggtagcagagccatccgggttgtcccccttgtactggatttaaaattcaaaataaacattagactta agcgctccaaatgatctgtactacgtatatataaaaaggttctacgtacatccgtatggggttcattg gctggttgcttccgtaaaacgctgctgtagaactcccgaccaccgtaatgcacggatgagccaaagta aggagattctgatggctcatttggatgagcatgtttgccatccttgtaagtagggcggctgtgggatt tgccatctgagcacgaatttaaacttccatagttaaaatcagtgctccagattaattctaagctaaga tggtgagaaaaggttttaagtatcgttgtgcttatgaacgcgacctaaatcgaagagaaacgtcaaat tgacaagagtacccagaactacctctgccattctgccctctggagctctgcttgttcagcatcgtgta caagtccgcatgctttgcgtcacttgcgcttcccttgaatgcaaaacaaagtcaaaatgtcaacgtca tatccaaatagattttgcataatcctataggtcctctattatcaaaatcacccctcatcagaattaaa ttgggaaaccgttgaagtccctccacaaatcgcaacatagtaacggactctttcatcaaatcgcacca gctcactaatcatgcaaaaaaattactaagaccccaggaatctgagagcaaaatatcagaacgatggc gtgaagagacggcccgtaccgcagtcggcgcggagaagacggtgctgaagtacccgttacccggcggc ggcggcgcggctccgacggcggcgggggccgacggcttcttcttcgcctccatatgcagagccgtttt ctgcgtctgcggcttcgggagaagggcctagactctcgagaggatggaccgtgaacacttgacttgag gcggaaaaggatgggggcacgtgaagtgttagttgtaggcggcggcggccggcggggaaggaagcagt tggttgttcgcctcgtggcgtcctgcttcggccaacatctgtgccggcatttaaaggcctcgacggag cgactcggtttcgctatttcggagatcttaaggggctgaatggagaaaattgtgtttagctttcatcc acatccatccaacctgcagtgagacttgcagagtgcagactcccgtattacagggacggtcctgaata agttagtagttttatttcagagattcaacgatgttagtatacgaattatttagacacgtttggaatca tccagttttttagcaatctgatttataaaaagtcaagtgcttccaaacatatcagattatgcttcggt tcttaaaaatcggactgcctcttccataactaaaattagtttttaacttggtagaaattagtgattgt aaccgctcttaggtctatgcatgtgattccctcgatgtctttatcccatttgaatatttaattattat ttaaaaattttagattaaaaatattaattcaatctatatttaaaattggcaacaaagaaaaacaaaga gaataatagaatcaattacttttggaatagagtaaggattgaatttgtctttgtgtataacaaagcta gaagttggtttccaagaactagcctctaacacgcacacctatttttt

(>MAGI4_--139395 MAGI4.contigs_w_singleton.fas 2631 bp).

[0059]The present invention relates to a nucleic acid construct having a nucleic acid molecule that is modulated by nitrogen in corn. The construct also includes a 5' DNA promoter sequence and a 3' terminator sequence. The nucleic acid molecule, the DNA promoter sequence, and the terminator sequence are operatively coupled to permit transcription of the nucleic acid molecule.

[0060]The nucleic acid molecules of the present invention may be inserted into any of the many available expression vectors and cell systems using reagents that are well known in the art. Suitable vectors include, but are not limited to, the following viral vectors such as lambda vector system gt11, gt WES.tB, Charon 4, and plasmid vectors such as pG-Cha, p35S-Cha, pBR322, pBR325, pACYC177, pACYC1084, pUC8, pUC9, pUC18, pUC19, pLG339, pR290, pKC37, pKC101, SV40, pBluescript II SK. -. or KS. -. (see "Stratagene Cloning Systems" Catalog (1993) from Stratagene, La Jolla, Calif., which is hereby incorporated by reference in its entirety), pQE, pIH821, pGEX, pET series (see Studier et. al., "Use of T7 RNA Polymerase to Direct Expression of Cloned Genes," Gene Expression Technology vol. 185 (1990), which is hereby incorporated by reference in its entirety), and any derivatives thereof. Recombinant molecules can be introduced into cells via transformation, particularly transduction, conjugation, mobilization, or electroporation. The DNA sequences are cloned into the vector using standard cloning procedures in the art, as described by Sambrook et al., Molecular Cloning: A Laboratory Manual, Second Edition, Cold Spring Harbor, N.Y.: Cold Spring Harbor Press (1989), and Ausubel et al., Current Protocols in Molecular Biology, New York, N.Y.; John Wiley & Sons (1989), which are hereby incorporated by reference in their entirety.

[0061]In preparing a nucleic acid vector for expression, the various nucleic acid molecule sequences may normally be inserted or substituted into a bacterial plasmid. Any convenient plasmid may be employed, which will be characterized by having a bacterial replication system, a marker which allows for selection in a bacterium, and generally one or more unique, conveniently located restriction sites. Numerous plasmids, referred to as transformation vectors, are available for plant transformation. The selection of a vector will depend on the preferred transformation technique and target species for transformation. A variety of vectors are available for stable transformation using Agrobacterium tumefaciens, a soilborne bacterium that causes crown gall. Crown gall are characterized by tumors or galls that develop on the lower stem and main roots of the infected plant. These tumors are due to the transfer and incorporation of part of the bacterium plasmid DNA into the plant chromosomal DNA. This transfer DNA (T-DNA) is expressed along with the normal genes of the plant cell. The plasmid DNA, pTi, or Ti-DNA, for "tumor inducing plasmid," contains the vir genes necessary for movement of the T-DNA into the plant. The T-DNA carries genes that encode proteins involved in the biosynthesis of plant regulatory factors, and bacterial nutrients (opines). The T-DNA is delimited by two 25 bp imperfect direct repeat sequences called the "border sequences." By removing the oncogene and opine genes, and replacing them with a gene of interest, it is possible to transfer foreign DNA into the plant without the formation of tumors or the multiplication of Agrobacterium tumefaciens (Fraley et al., "Expression of Bacterial Genes in Plant Cells," Proc. Nat'l Acad. Sci. 80:4803-4807 (1983), which is hereby incorporated by reference in its entirety).

[0062]Further improvement of this technique led to the development of the binary vector system (Bevan, "Binary Agrobacterium Vectors for Plant Transformation," Nucleic Acids Res. 12:8711-8721 (1984), which is hereby incorporated by reference in its entirety). In this system, all the T-DNA sequences (including the borders) are removed from the pTi, and a second vector containing T-DNA is introduced into Agrobacterium tumefaciens. This second vector has the advantage of being replicable in E. coli as well as A. tumefaciens, and contains a multiclonal site that facilitates the cloning of a transgene. An example of a commonly-used vector is pBin19 (Frisch et al., "Complete Sequence of the Binary Vector Bin 19," Plant Molec. Biol 27:405-409 (1995), which is hereby incorporated by reference in its entirety). Any appropriate vectors now known or later described for genetic transformation are suitable for use with the present invention.

[0063]U.S. Pat. No. 4,237,224 to Cohen and Boyer, which is hereby incorporated by reference in its entirety, describes the production of expression systems in the form of recombinant plasmids using restriction enzyme cleavage and ligation with DNA ligase. These recombinant plasmids are then introduced by means of transformation and replicated in unicellular cultures including prokaryotic organisms and eukaryotic cells grown in tissue culture.

[0064]Certain "control elements" or "regulatory sequences" are also incorporated into the vector-construct. These include non-translated regions of the vector, promoters, and 5' and 3' untranslated regions which interact with host cellular proteins to carry out transcription and translation. Such elements may vary in their strength and specificity. Depending on the vector system and host utilized, any number of suitable transcription and translation elements, including constitutive and inducible promoters, may be used. Tissue-specific and organ-specific promoters can also be used.

[0065]A constitutive promoter is a promoter that directs expression of a gene throughout the development and life of an organism. Examples of some constitutive promoters that are widely used for inducing expression of transgenes include the nopaline synthase ("NOS") gene promoter from Agrobacterium tumefaciens (U.S. Pat. No. 5,034,322 to Rogers et al., which is hereby incorporated by reference in its entirety), the cauliflower mosaic virus ("CaMY") 35S and 19S promoters (U.S. Pat. No. 5,352,605 to Fraley et al., which is hereby incorporated by reference in its entirety), those derived from any of the several actin genes, which are known to be expressed in most cells types (U.S. Pat. No. 6,002,068 to Privalle et al., which is hereby incorporated by reference in its entirety), and the ubiquitin promoter, which is a gene product known to accumulate in many cell types.

[0066]An inducible promoter is a promoter that is capable of directly or indirectly activating transcription of one or more DNA sequences or genes in response to an inducer. In the absence of an inducer, the DNA sequences or genes will not be transcribed. The inducer can be a nutrient (e.g., nitrogen, including nitrogen in the form of nitrate), a chemical agent, such as a metabolite, growth regulator, herbicide, or phenolic compound, or a physiological stress directly imposed upon the plant such as cold, heat, salt, toxins, or through the action of a pathogen or disease agent such as a virus or fungus. A plant cell containing an inducible promoter may be exposed to an inducer by externally applying the inducer to the cell or plant such as by spraying, watering, heating, or by exposure to the operative pathogen. An example of an appropriate inducible promoter is a glucocorticoid-inducible promoter (Schena et al., "A Steroid-Inducible Gene Expression System for Plant Cells," Proc. Natl. Acad. Sci. 88:10421-5 (1991), which is hereby incorporated by reference in its entirety). Expression of the transgene-encoded protein is induced in the transformed plants when the transgenic plants are brought into contact with nanomolar concentrations of a glucocorticoid, or by contact with dexamethasone, a glucocorticoid analog (see Schena et al., "A Steroid-Inducible Gene Expression System for Plant Cells," Proc. Natl. Acad. Sci. USA 88:10421-5 (1991); Aoyama et al., "A Glucocorticoid-Mediated Transcriptional Induction System in Transgenic Plants," Plant J. 11:605-612 (1997); and McNellis et al., "Glucocorticoid-Inducible Expression of a Bacterial Avirulence Gene in Transgenic Arabidopsis Induces Hypersensitive Cell Death, Plant J. 14(2):247-57 (1998), which are hereby incorporated by reference in their entirety). In addition, inducible promoters include promoters that function in a tissue specific manner to regulate the gene of interest within selected tissues of the plant. Examples of such tissue specific or developmentally regulated promoters include seed, flower, fruit, or root specific promoters as are well known in the field (U.S. Pat. No. 5,750,385 to Shewmaker et al., which is hereby incorporated by reference in its entirety).

[0067]A number of tissue- and organ-specific promoters have been developed for use in genetic engineering of plants (Potenza et al., "Targeting Transgene Expression in Research, Agricultural, and Environmental Applications: Promoters used in Plant Transformation," In Vitro Cell. Dev. Biol. Plant 40:1-22 (2004), which is hereby incorporated by reference in its entirety). Examples of such promoters include those that are floral-specific (Annadana et al., "Cloning of the Chrysanthemum UEP1 Promoter and Comparative Expression in Florets and Leaves of Dendranthema grandiflora," Transgenic Res. 11:437-445(2002), which is hereby incorporated by reference in its entirety), seed-specific (Kluth et al., "5' Deletion of a gbss1 Promoter Region Leads to Changes in Tissue and Developmental Specificities," Plant Mol. Biol. 49:669-682 (2002), which is hereby incorporated by reference in its entirety), root-specific (Yamamoto et al., "Characterization of cis-acting Sequences Regulating Root-Specific Gene Expression in Tobacco," Plant Cell 3:371-382 (1991), which is hereby incorporated by reference in its entirety), fruit-specific (Fraser et al., "Evaluation of Transgenic Tomato Plants Expressing an Additional Phytoene Synthase in a Fruit-Specific Manner," Proc. Natl Acad. Sci. USA 99:1092-1097 (2002), which is hereby incorporated by reference in its entirety), and tuber/storage organ-specific (Visser et al., "Expression of a Chimaeric Granule-Bound Starch Synthase-GUS gene in transgenic Potato Plants," Plant Mol Biol. 17:691-699 (1991), which is hereby incorporated by reference in its entirety). Targeted expression of an introduced gene (transgene) is necessary when expression of the transgene could have detrimental effects if expressed throughout the plant. On the other hand, silencing a gene throughout a plant could also have negative effects. However, this problem could be avoided by localizing the silencing to a region by a tissue-specific promoter.

[0068]A suitable promoter can also be one that is gene-specific, in that it regulates transcription of a nucleic acid molecule of the present invention. A suitable gene-specific promoter gene-specific promoter (derived from MAGI93503) has a nucleotide sequence of SEQ ID NO:41 as follows:

TABLE-US-00045 CGTTGTCGGAACGTCCCGTCGATGTTCGGAAACGAGCACGACCCGTCGACTCCTGCTTCTTGGCGGAGA AGAAAGGGGACGACGAGCGAGCGTTTTGACTTTGATTTCCTCGCTAAAACCGGCCGCTGTTTTTGCTTT CCGCGCGAGCCGCCCACGTTATTGACTGACGCTGGTGCGAGAGCGCTGCTGCCTCTGCGGTTGCCGTCT GCGCTCCAGTGGTAGCCGAGAATATTGTTAGGTCCGTAGGATCAGATTTGCTACGTACTAAAAAAATTC CTTAAACTTTAATTGTGTATTTTTTTTAAAAAAAATTATAGCATTTATCAGCAACAAAACTCTAAAAAC ATGTTTAGTTCGCTGCTTAATTTATCACATATTGTCTAAATTTTATATATAAATTATTTAATTCGAACG ACTAACCAGAACCCAGACCTACAATAAATTTGCCCCCGCTGCTGCGCTCCCCAGCTCCCCAAGTCCCTA ACCCGCCCTCGCTTTGTCGCCGCGGCACACGGTTTTGGCCGTGGACAGGACAGTTGCACCCTAGCCCCA TTGGCCGATTCCGAGCTAGGAAGGAGTATATGCGTATCGGTAGTAACCGAGGAGCAACGCAACATGTCC ACAGCCCGCGCGCTGGTAACGGGTCCATGCGTCTTGGCTCATCAGGTGCCCCAAGGGACGCCCTCGCCC GGTCTGACCCACCTATATAAACTTAAAACTTGTGCCCCAACATCATCAGTTCGTATCACACCCAACCTC CCACTGTAAAAAAGAGCAGCGGAACGTGCGTGCATCCATCCATCCATCCATTTCCAATCCCAATCCCAA TCCCACCAGTGTCCAGTGCTCGGGGAACCGACACAGCTCCTCAGCAGAGTAGCCAGCACGACAAGCCCG ATCAGCAGACAGCAGGCATG

This gene-specific promoter is a fragment of genomic DNA of maize that is likely to include promoter elements that allow the gene of SEQ ID NO:39 to exhibit nitrogen-regulated expression. Other suitable promoters include those having a nucleotide sequence of SEQ ID NO:3, SEQ ID NO:6, SEQ ID NO:9, SEQ ID NO:12, SEQ ID NO:15, SEQ ID NO:18, SEQ ID NO:21, SEQ ID NO:26, SEQ ID NO:29, SEQ ID NO:33, SEQ ID NO:38, SEQ ID NO:41, and/or SEQ ID NO:46.

[0069]The nucleic acid construct of the present invention also includes an operable 3' regulatory region, selected from among those which are capable of providing correct transcription termination and polyadenylation of mRNA for expression in the host cell of choice, operably linked to a modified trait nucleic acid molecule of the present invention. A number of 3' regulatory regions are known to be operable in plants. Exemplary 3' regulatory regions include, without limitation, the nopaline synthase (NOS) 3' regulatory region (Fraley et al., "Expression of Bacterial Genes in Plant Cells," Proc. Nat'l Acad. Sci. USA 80:4803-4807 (1983), which is hereby incorporated by reference in its entirety) and the cauliflower mosaic virus (CaMV) 3' regulatory region (Odell et al., "Identification of DNA Sequences Required for Activity of the Cauliflower Mosaic Virus 35S Promoter," Nature 313(6005):810-812 (1985), which is hereby incorporated by reference in its entirety). Virtually any 3' regulatory region known to be operable in plants would be suitable for use in conjunction with the present invention.

[0070]The different components described above can be ligated together to produce expression systems which contain the nucleic acid constructs of the present invention, using well known molecular cloning techniques as described in Sambrook et al., Molecular Cloning: A Laboratory Manual, Second Edition Cold Spring Harbor, N.Y.: Cold Spring Harbor Press (1989), and Ausubel et al. Current Protocols in Molecular Biology, New York, N.Y.: John Wiley & Sons (1989), which are hereby incorporated by reference in their entirety.

[0071]Once the nucleic acid construct of the present invention has been prepared, it is ready to be incorporated into a host cell. Accordingly, another aspect of the present invention relates to a recombinant host cell containing one or more of the nucleic acid constructs of the present invention. Basically, this method is carried out by transforming a host cell with a nucleic acid construct of the present invention under conditions effective to achieve transcription of the nucleic acid molecule in the host cell. This is achieved with standard cloning procedures known in the art, such as described by Sambrook et al., Molecular Cloning: A Laboratory Manual, Second Edition, Cold Springs Laboratory, Cold Springs Harbor, N.Y. (1989), which is hereby incorporated by reference in its entirety. Suitable hosts include, but are not limited to, bacterial cells, viruses, yeast cells, mammalian cells, insect cells, plant cells, and the like. Preferably the host is either a bacterial cell or a plant cell. Methods of transformation may result in transient or stable expression of the nucleic acid under control of the promoter. Preferably, a nucleic acid construct of the present invention is stably inserted into the genome of the recombinant plant cell as a result of the transformation, although transient expression can serve an important purpose, particularly when the plant under investigation is slow-growing.

[0072]Plant tissue suitable for transformation includes leaf tissue, root tissue, meristems, zygotic and somatic embryos, callus, protoplasts, tassels, pollen, embryos, anthers, and the like. The means of transformation chosen is that most suited to the tissue to be transformed.

[0073]Transient expression in plant tissue can be achieved by particle bombardment (Klein et al., "High-Velocity Microprojectiles for Delivering Nucleic Acids Into Living Cells," Nature 327:70-73 (1987), which is hereby incorporated by reference in its entirety), also known as biolistic transformation of the host cell, as disclosed in U.S. Pat. Nos. 4,945,050, 5,036,006, and 5,100,792, all to Sanford et al., and in Emerschad et al., "Somatic Embryogenesis and Plant Development from Immature Zygotic Embryos of Seedless Grapes (Vitis vinifera)," Plant Cell Reports 14:6-12 (1995), which are hereby incorporated by reference in their entirety.

[0074]In particle bombardment, tungsten or gold microparticles (1 to 2 μm in diameter) are coated with the DNA of interest and then bombarded at the tissue using high pressure gas. In this way, it is possible to deliver foreign DNA into the nucleus and obtain a temporal expression of the gene under the current conditions of the tissue. Biologically active particles (e.g., dried bacterial cells containing the vector and heterologous DNA) can also be propelled into plant cells. Other variations of particle bombardment, now known or hereafter developed, can also be used. Further, particle bombardment transformation can be used to stably introduce the nucleic acid construct into plant cells.

[0075]Another appropriate method of stably introducing the nucleic acid construct into plant cells is to infect a plant cell with Agrobacterium tumefaciens or Agrobacterium rhizogenes previously transformed with the nucleic acid construct. As described above, the Ti (or RI) plasmid of Agrobacterium enables the highly successful transfer of a foreign nucleic acid molecule into plant cells. A variation of Agrobacterium transformation uses vacuum infiltration in which whole plants are used (Senior, "Uses of Plant Gene Silencing," Biotechnology and Genetic Engineering Reviews 15:79-119 (1998), which is hereby incorporated by reference in its entirety).

[0076]Yet another method of introduction is fusion of protoplasts with other entities, either minicells, cells, lysosomes, or other fusible lipid-surfaced bodies (Fraley et al., Proc. Natl. Acad. Sci. USA 79:1859-63 (1982), which is hereby incorporated by reference in its entirety). The nucleic acid molecule may also be introduced into the plant cells by electroporation (Fromm et al., Proc. Natl Acad. Sci. USA 82:5824 (1985), which is hereby incorporated by reference in its entirety). In this technique, plant protoplasts are electroporated in the presence of plasmids containing the expression cassette. Electrical impulses of high field strength reversibly permeabilize biomembranes allowing the introduction of the plasmids. Electroporated plant protoplasts reform the cell wall, divide, and regenerate. Other methods of transformation include polyethylene-mediated plant transformation, micro-injection, physical abrasives, and laser beams (Senior, "Uses of Plant Gene Silencing," Biotechnology and Genetic Engineering Reviews 15:79-119 (1998), which is hereby incorporated by reference in its entirety). The precise method of transformation is not critical to the practice of the present invention. Any method that results in efficient transformation of the host cell of choice is appropriate for practicing the present invention. Transfromation can also be achieved using the "whisker" method, as is well known in the art.

[0077]After transformation, the transformed plant cells must be regenerated. Plant regeneration from cultured protoplasts is described in Evans et al., Handbook of Plant Cell Cultures, Vol 1, New York, N.Y.: MacMillan Publishing Co. (1983); Vasil, ed., Cell Culture and Somatic Cell Genetics of Plants, Vol. I (1984) and Vol. III (1986), Orlando: Acad. Press, which are hereby incorporated by reference in their entirety.

[0078]Means for regeneration vary from species to species of plants, but generally a suspension of transformed protoplasts or a petri plate containing explants is first provided. Callus tissue is formed and shoots may be induced from callus and subsequently rooted. Alternatively, embryo formation can be induced in the callus tissue. These embryos germinate as natural embryos to form plants. The culture media will generally contain various amino acids and hormones, such as auxin and cytokinins. Efficient regeneration will depend on the medium, on the genotype, and on the history of the culture. If these three variables are controlled, then regeneration is usually reproducible and repeatable.

[0079]Preferably, transformed cells are first identified using a selection marker simultaneously introduced into the host cells along with the nucleic acid construct of the present invention. Suitable selection markers include, without limitation, markers encoding for antibiotic resistance, such as the neomycin phosphotransferae II ("nptII") gene which confers kanamycin resistance (Fraley et al., Proc. Natl. Acad. Sci. USA 80:4803-4807 (1983), which is hereby incorporated by reference in its entirety), and the genes which confer resistance to gentamycin, G418, hygromycin, streptomycin, spectinomycin, tetracycline, chloramphenicol, and the like. Cells or tissues are grown on a selection medium containing the appropriate antibiotic, whereby generally only those transformants expressing the antibiotic resistance marker continue to grow. Other types of markers are also suitable for inclusion in the expression cassette of the present invention. For example, a gene encoding for herbicide tolerance, such as tolerance to sulfonylurea is useful, or the dhfr gene, which confers resistance to methotrexate (Bourouis et al., EMBO J. 2:1099-1104 (1983), which is hereby incorporated by reference in its entirety). Similarly, "reporter genes," which encode for enzymes providing for production of an identifiable compound are suitable. The most widely used reporter gene for gene fusion experiments has been uidA, a gene from Escherichia coli that encodes the β-glucuronidase protein, also known as GUS (Jefferson et al., "GUS Fusions: β Glucuronidase as a Sensitive and Versatile Gene Fusion Marker in Higher Plants," EMBO J 6:3901-3907 (1987), which is hereby incorporated by reference in its entirety). Similarly, enzymes providing for production of a compound identifiable by luminescence, such as luciferase, are useful. The selection marker employed will depend on the target species; for certain target species, different antibiotics, herbicide, or biosynthesis selection markers are preferred.

[0080]Plant cells and tissues selected by means of an inhibitory agent or other selection marker are then tested for the acquisition of the transgene (Sambrook et al., Molecular Cloning: A Laboratory Manual, Cold Spring Harbor, N.Y.: Cold Spring Harbor Press (1989), which is hereby incorporated by reference in its entirety).

[0081]After the fusion gene containing a nucleic acid construct of the present invention is stably incorporated in transgenic plants, the transgene can be transferred to other plants by sexual crossing. Any of a number of standard breeding techniques 10 can be used, depending upon the species to be crossed. Once transgenic plants of this type are produced, the plants themselves can be cultivated in accordance with conventional procedure so that the nucleic acid construct is present in the resulting plants. Alternatively, transgenic seeds are recovered from the transgenic plants. These seeds can then be planted in the soil and cultivated using conventional procedures to produce transgenic plants. The component parts and fruit of such plants are encompassed by the present invention.

[0082]The present invention can be utilized in conjunction with a wide variety of plants or their seeds. Suitable plants can include dicots and monocots. More particular, suitable plants can include the following: rice, corn, soybean, canola, potato, wheat, mung bean, alfalfa, barley, rye, cotton, sunflower, peanut, sweet potato, bean, pea, chicory, lettuce, endive, cabbage, brussel sprout, beet, parsnip, turnip, cauliflower, broccoli, radish, spinach, onion, garlic, eggplant, pepper, celery, carrot, squash, pumpkin, zucchini, cucumber, apple, pear, melon, citrus, strawberry, grape, raspberry, pineapple, tobacco, tomato, sorghum, sugarcane, banana, Arabidopsis thaliana, Saintpaulia, petunia, pelargonium, poinsettia, chrysanthemum, carnation, crocus, marigold, daffodil, pine, Medicago truncatula, Sandersonlia aurantiaca, and zinnia.

[0083]Another aspect of the present invention is a method of expressing a nucleic acid molecule that is modulated by nitrogen in a plant. This method involves providing a transgenic plant or plant seed transformed with a nucleic acid construct having a nucleic acid molecule that is modulated by nitrogen in corn, a 5' DNA promoter sequence, and a 3' terminator sequence. The nucleic acid molecule, the DNA promoter sequence, and the terminator sequence are operatively coupled to permit transcription of the nucleic acid molecule. The method also involves growing the transgenic plant or a transgenic plant grown from the transgenic plant seed under conditions effective to express the nucleic acid molecule in the transgenic plant or the plant grown from the transgenic plant seed. In one embodiment, the transgenic plant or plant seed is provided by transforming a non-transgenic plant or a non-transgenic plant seed with the nucleic acid construct of the present invention to yield said transgenic plant or plant seed. In one aspect, the growing step is effective in reducing nitrogen uptake of the transgenic plant or the plant grown from the transgenic plant seed. In another aspect, the growing step is effective in increasing nitrogen uptake of the transgenic plant or the plant grown from the transgenic plant seed. In yet another aspect, the growing step is effective in increasing efficiency of nitrogen utilization of the transgenic plant or the plant grown from the transgenic plant seed. Transformation of the transgenic plant or plant seed can be achieved using Agrobacterium-mediated transformation, the whisker method, vacuum infiltration, biolistic transformation, electroporation, micro-injection, polyethylene-mediated transformation, or laser-beam transformation.

[0084]The present invention also relates to an isolated DNA promoter from corn suitable for inducing nitrogen-regulated expression of a protein encoded by an isolated DNA molecule operably associated with the DNA promoter. A suitable DNA promoter for use in this method can be any one of the promoters described herein, including, for example, the promoters having a nucleotide sequence of SEQ ID NO:3, SEQ ID NO:6, SEQ ID NO:9, SEQ ID NO:12, SEQ ID NO:15, SEQ ID NO:18, SEQ ID NO:21, SEQ ID NO:26, SEQ ID NO:29, SEQ ID NO:33, SEQ ID NO:38, SEQ ID NO:41, and/or SEQ ID NO:46. The isolated DNA promoter can be used to prepare nucleic acid constructs as previously described. In a particular nucleic acid construct, the isolated DNA promoter can be operably linked to an isolated nucleic acid that either has a nucleotide sequence (or encoding portion thereof) of SEQ ID NO:1, SEQ ID NO:4, SEQ ID NO:7, SEQ ID NO:10, SEQ ID NO:13, SEQ ID NO:16, SEQ ID NO:19, SEQ ID NO:22, SEQ ID NO:24, SEQ ID NO:27, SEQ ID NO:30, SEQ ID NO:34, SEQ ID NO:36, SEQ ID NO:39, SEQ ID NO:42, and/or SEQ ID NO:44, or encodes a polypeptide having an amino acid sequence of SEQ ID NO:2, SEQ ID NO:5, SEQ ID NO:8, SEQ ID NO:11, SEQ ID NO:14, SEQ ID NO:17, SEQ ID NO:20, SEQ ID NO:23, SEQ ID NO:25, SEQ ID NO:28, SEQ ID NO:31, SEQ ID NO:32, SEQ ID NO:35, SEQ ID NO:37, SEQ ID NO:40, SEQ ID NO:43, and/or SEQ ID NO:45. Other suitable genes from corn that can be regulated by the DNA promoter of the present invention include, for example, nitrate reductase, nitrite reductase, Uroporphyrin-III methyl transferase. Expression vectors can be prepared by inserting the nucleic acid construct in an appropriate vector (as described in more detail supra), and transgenic host cells and plants (including their component parts such as fruits and seeds) can be produced by transforming them with the nucleic acid construct containing the DNA promoter.

[0085]The present invention also relates to a method of directing nitrogen-regulated expression of an isolated nucleic acid in plants. This methods involves transforming a plant cell with the nucleic acid construct that includes an isolated DNA promoter suitable for inducing nitrogenregulated expression of a protein encoded by an isolated DNA molecule operably associated with the DNA promoter. This method also involves regenerating a plant from the transformed plant cell. By this method, expression of the nucleic acid molecule, under control of the DNA promoter, occurs in the plant and is upregulated by nitrogen. A suitable DNA promoter for use in this method can be any one of the promoters described herein, including, for example, the promoters having a nucleotide sequence of SEQ ID NO:3, SEQ ID NO:6, SEQ ID NO:9, SEQ ID NO:12, SEQ ID NO:15, SEQ ID NO:18, SEQ ID NO:21, SEQ ID NO:26, SEQ ID NO:29, SEQ ID NO:33, SEQ ID NO:38, SEQ ID NO:41, and/or SEQ ID NO:46.

[0086]Although preferred embodiments have been depicted and described in detail herein, it will be apparent to those skilled in the relevant art that various modifications, additions, substitutions, and the like can be made without departing from the spirit of the invention and these are, therefore, considered to be within the scope of the invention as defined in the claims which follow.

Sequence CWU 1

461758DNAmaize 1cgactggagc acgaggacac tgacatggac ggaaggagta gaaaatattg cctgctccga 60cgaccttgaa tattcactgg ccatttaatt tctacttaca agcctgaatg agctagagat 120ccatctgctt ctgtacgtgc tcgtcaggta cgctcgtaaa aagaaaagaa aaaaaaagaa 180gagatcgaga tcgatctgtt gacgacgccc ccgtcgccga tatgggcgac ctctctgtcg 240gccacagccg ccgctggtgc ggccgtttcg cggccgtcct ttgcctgtgc gcggccttct 300gcaagccaga tgaactcccg atggatccac tgccgaactt gccgccgacg aggtcgctgc 360agtgcttcga ggacgaacag gtgtacagct gctgcgaggg cgcgtacagg ctaaacccat 420cgggaatcat cgccgttccc gtcggcgcgg tggactacta ctgcggcggc gcgtgcgtgg 480tggagacgga ggacgtgctc aactgcgtgg ccagcgccct ggacggcttc gccttctaca 540acggggcctc cgtggaggac gtgcgctacg cactcaggcg gggctgcagc cacaccgcca 600gaagaggcga cttcaacgat ttggagccgc atctgggcga ctaccctgac atctatggcg 660acgatgatga gcacagcttt ggcagcaagg ttgttgcagc tcctctgagg ttgctcgcgt 720ttcttggcgg tgcggggctg ttcttcctgg gcccttga 7582178PRTmaize 2Met Gly Asp Leu Ser Val Gly His Ser Arg Arg Trp Cys Gly Arg Phe1 5 10 15Ala Ala Val Leu Cys Leu Cys Ala Ala Phe Cys Lys Pro Asp Glu Leu 20 25 30Pro Met Asp Pro Leu Pro Asn Leu Pro Pro Thr Arg Ser Leu Gln Cys35 40 45Phe Glu Asp Glu Gln Val Tyr Ser Cys Cys Glu Gly Ala Tyr Arg Leu50 55 60Asn Pro Ser Gly Ile Ile Ala Val Pro Val Gly Ala Val Asp Tyr Tyr65 70 75 80Cys Gly Gly Ala Cys Val Val Glu Thr Glu Asp Val Leu Asn Cys Val 85 90 95Ala Ser Ala Leu Asp Gly Phe Ala Phe Tyr Asn Gly Ala Ser Val Glu 100 105 110Asp Val Arg Tyr Ala Leu Arg Arg Gly Cys Ser His Thr Ala Arg Arg115 120 125Gly Asp Phe Asn Asp Leu Glu Pro His Leu Gly Asp Tyr Pro Asp Ile130 135 140Tyr Gly Asp Asp Asp Glu His Ser Phe Gly Ser Lys Val Val Ala Ala145 150 155 160Pro Leu Arg Leu Leu Ala Phe Leu Gly Gly Ala Gly Leu Phe Phe Leu 165 170 175Gly Pro34037DNAmaize 3ccgcaagagg gagtctttac cgagtgtcac ctaatacgct tggcgaagga cctggtaaaa 60gggcccacag ggagcttttt gctaagtgtc tgtacagtgg acactcggca aagagtgagc 120ctttgccgag tgtcactccg tcaccgttac ctggtgtcgt gacgacggct tttctttgtc 180gagtaccgag tgacactcga caaaaccttt gccgagcgtc cgataaaaag tattcggcaa 240agaagccgtt gccgtctttg ccgagtgttt tccagacttt gccgagtgtt tcagacactc 300ggcaaagaac ctgattccga tagtgaaggt cttacacccc gatccacccc aattcgtgcg 360tattggagca agtacccaaa caaaaccgta ctgggaataa ttacctccgt tcgctgcagt 420ttgcagaaca gcagttcaat gctacaggac gacgcagctg cagcgaacat gcatgcattt 480gaactcactc cgttcactga tggacaagag gcatctgggt gactaataaa agaacgacac 540acacggacag cttctagaag tattggtagc gcatgaacaa caatgccgct gttagcttgt 600actgaggcac gaaacatgaa tctgacctac tactgacttc tactataata atagtatata 660gtatggccag gccaggccaa ctccggcgaa aacgggagta cgcatgcaga tggagcggca 720cattagtagg ctgtttggtt tgaagaatgg gctagtctat catcttctca ctctccactt 780ttttgtttgg tttgtggaat gaaatgagtt gattcatcat cacctcattc cttatagtta 840gttagttagt actaatatga ggaatatggt catcccacca aatttgagga atggatccac 900gatgtaccac cacattttgc atgaagtgat tcctcaaacc aaacaccccc aaatgtaaac 960cgagtcatgc ctccgatccc aaccttcgtg tttcccacca aacacacgcg tacagaggcc 1020aagcacacgc acaaaagcaa gcctcgatcg tagcccgtgc ctaaccctgc cgatgccgta 1080ataaacttgt gtgctccacg caaccatgaa atgaacctag aaatcgcagg ggcgggatgc 1140gagtgaaaag gagcgggcag gtcaggtagg tttgaactct ctcctataat aatcctagct 1200agcacacttg cccagattat attgcctgct ccgacgacct tgaatattca ctggccattt 1260aatttctact tacaagcctg aatgagctag agatccatct gcttctgtac gtgctcgtca 1320ggtacgctcg taaaaagaaa agaaaaaaaa agaagagatc gagatcgatc tgttgacgac 1380gcccccgtcg ccgatatggg cgacctctct gtcggccaca gccgccgctg gtgcggccgt 1440ttcgcggccg tcctttgcct gtgcgcggcc ttctgcaagc caggtgcgtg ctcaccgtca 1500acacacgcac cattattcca ccctcccaag gagcacagta caacgcacgt acatatacct 1560ctcctcaatc gatatatagt tacgtcttac gtactatcta gttaatctat cacgttgatg 1620tctaatatag actccgcatg gcatatgcat gcagatgaac tcccgatgga tccactgccg 1680aacttgccgc cgacgaggtc gctgcagtgc ttcgaggacg aacaggtaag ctaacaagca 1740agagcgtgtt tggtttcatg ctaggacaga gttgcatacc acgtagctat cataagccta 1800ccacacgtag ctatcacagc ctgtcgattt cgttcggtcg cctgacggta aacatcgctg 1860cccgagaggc gagctctttt tgacaagcct cgacgaacca aataagccaa gtcctactgt 1920acgagggcga tcgaggcgcc gaggcctgtg tgatgtgatg ccgtgtgtcg tggtcaccca 1980ccagctgctg tgtacattgg tccccgtgcc gcgcgtcgta accgcatgcg gcatgccgct 2040gcatgcaggt gtacagctgc tgcgagggcg cgtacaggct aaacccatcg ggaatcatcg 2100ccgttcccgt cggcgcggtg gactactact gcggcggcgc gtgcgtggtg gagacggagg 2160acgtgctcaa ctgcgtggcc agcgccctgg acggcttcgc cttctacaac ggggcctccg 2220tggaggacgt gcgctacgca ctcaggcggg gctgcagcca caccgccaga agaggtcccc 2280aagtttctcg cctactagct catctctctc tacgtaccag ccaagctaga tcgactacca 2340gtctccgcag cagtgcattc ggaacgaccg ctgacaaact gacaggctcg tgttcctgtc 2400agcgcaggcg acttcaacga tttggagccg catctgggcg actaccctga catctatggc 2460gacgatgatg aacacagctt tggcagcaag gttgttgcag ctcctctgag gttgctcgcg 2520tttcttggcg gtgcggggct gttcttcctg ggcccttgaa cgaagatata aaagaactag 2580cgatgtgatc cgcgtaaata tatactccgt atatagcatg acatgagtat ctagtttgtc 2640ttatatggta aaccatacta aattttcttg tatggcatta aaaaaaatta agactttatt 2700tagttatttg actagttgtt ctctctggat cctctaatca gttcgaactc tataagcttt 2760tttattccac tcctatctag aggtcgcata atatgctaag gtgagatctt gatgtctttc 2820gtttttttaa ctcgataaag ttgttgtgag tctctcttat aaaattattt ttaatgctaa 2880tattagattt tagtcagaga tatgcagttg accgttttgc actaaaatat ttttgaattt 2940actatagtat tagttgtcta ctaatcacag ctaaaaccgt ttttattttt agttttttta 3000taacagaaaa aatatctctg gaaacgaaaa cggcaacaca gtagttcaaa aatatcgaag 3060acaataattt aacatgaaaa atatatatgt aatgatcgga atctaaaaaa caatcactaa 3120atataaacat atagtaacat gtactctcaa ttgacctgaa aaaagcacat aacctataga 3180tccacaaagt aacgaagatt gaagcatgaa aaatagacca tcatacatta aagggttgtg 3240cttatttagc tctagaataa cctccttaag agcaacttca tttgcaacaa cattgtctag 3300agttaaagag aatattttct tctctgtaaa ccatttcaat aagcatgaac tgggtctaag 3360agacaaattc ttaccgttgt gccgacccag aacatgatcg aaatttgtaa ttcgcttctg 3420tatttgtgaa tcatcatcta cccaatgtac catgatacac atgtaccttt tattctgatt 3480tgatatccac atctccatgg tagcactgaa gtgacaatta agggttttaa aaaatttata 3540caacacatca tttttatgca aaagagatcc attacttctt ttctaacaat gacatgtgac 3600tttatagaaa atataggctt taaaggttta atgaaatcca taaagtattc atgttcaaga 3660atgttaaatg ggtactcatg aatgataata gtagtataaa acttcctcaa actaattgac 3720tcgtcatatt tatatggttg gacaatatat agatatacct accttatgat ctttttctga 3780tttgagctcc tgctatctta gtaaaacctt atgataacgc ttctaatgca accaaaacta 3840agttgttcct ctatggcttt tagcactacc tttgtaagtc ctatttttgt agctcagaaa 3900ctttcatttg gcccaaattt gctccagaga tttgcaattc ccctccacta caacaacata 3960caaatcaaaa tactgccaaa catctaaagt atacttattt gctactttat ggggtgctca 4020tcaacattag attcact 40374932DNAmaize 4ggacactgac atggactgaa ggagtagaaa atacagaacc ctgcaactgc aagctaagga 60gagtgtgatc accaacagct agtgctagtc ccccttcctt ccatccatcc atggcatgcg 120tcagcacctt ccagagctgc cccattgcca gaagagcaaa gatcaacacc aggtccaggg 180gcagcagcag tagcgtggcg aaggggtcac caccaccagc cttccagttc cagtgcaggg 240cgtcgacttt cgcggcggac accagcctcc ggctcgagct ggacgagaac cccgaggcga 300tcatctcggg ggcgtggccc gggaactgct ccctcctcag ctacgacgac ctccgcgcct 360acctcgagtc gcaggagacg gcggcccagg cagacgatca gcgcggcgtg gcgctcctga 420gcgagaccat gtccacaccc gtgctggtgg ccacagcaga ccagaccctg gaggacgtcg 480agtgccactt cgaggccgtg tcggggcttc cggtcgtcga cagcggcctc agatgcgtcg 540gggtgatcgt caagaacgac cgggcaagag cctctcatgg gtccaagacg aagatatcgg 600aagtgatgac atctccagct atcacactat cgtctgacaa aaccgtgatg gatgctgctg 660ttctcatgct caagaagaag atccacagat taccagttgt aaaccaggac gaaaaagtaa 720taggtatagt tacccgcgct gatgttcttc gcgtgttgga aggcatgttg aagatttagg 780agcgcagata cccatgctcg gaagccacag cctcttgtaa atatgtagat gtgcccgggc 840atggtgtttc tgagtagcag caaagagatc taccatgtat aggagtttct ccttgtaaat 900aatagtagca cgccaggaga ctccatccca gg 9325222PRTmaize 5Met Ala Cys Val Ser Thr Phe Gln Ser Cys Pro Ile Ala Arg Arg Ala1 5 10 15Lys Ile Asn Thr Arg Ser Arg Gly Ser Ser Ser Ser Val Ala Lys Gly 20 25 30Ser Pro Pro Pro Ala Phe Gln Phe Gln Cys Arg Ala Ser Thr Phe Ala35 40 45Ala Asp Thr Ser Leu Arg Leu Glu Leu Asp Glu Asn Pro Glu Ala Ile50 55 60Ile Ser Gly Ala Trp Pro Gly Asn Cys Ser Leu Leu Ser Tyr Asp Asp65 70 75 80Leu Arg Ala Tyr Leu Glu Ser Gln Glu Thr Ala Ala Gln Ala Asp Asp 85 90 95Gln Arg Gly Val Ala Leu Leu Ser Glu Thr Met Ser Thr Pro Val Leu 100 105 110Val Ala Thr Ala Asp Gln Thr Leu Glu Asp Val Glu Cys His Phe Glu115 120 125Ala Val Ser Gly Leu Pro Val Val Asp Ser Gly Leu Arg Cys Val Gly130 135 140Val Ile Val Lys Asn Asp Arg Ala Arg Ala Ser His Gly Ser Lys Thr145 150 155 160Lys Ile Ser Glu Val Met Thr Ser Pro Ala Ile Thr Leu Ser Ser Asp 165 170 175Lys Thr Val Met Asp Ala Ala Val Leu Met Leu Lys Lys Lys Ile His 180 185 190Arg Leu Pro Val Val Asn Gln Asp Glu Lys Val Ile Gly Ile Val Thr195 200 205Arg Ala Asp Val Leu Arg Val Leu Glu Gly Met Leu Lys Ile210 215 22063987DNAmaize 6caacgtggag taggcaagcg ttggtcttgg ccgaaccacg ggataaacca ctgtgtcaac 60tctgtgattg atctcttgtg gtattgtgtt ttgttgagac tcttttctag ccacttggca 120tttagtgtgc taacacttaa caagtttttg tggctataag tttaagtttt acaggatcac 180ctattcaccc cccccccctc taggtgctct caagttgaca ggtgtctcca tggtgcctaa 240ttgagccgtt cttttacgct atccattcga ttggtttggt gggtatgtgt ggtctggctc 300ttgcgatgtt tgcccgctgg aaacgaaaca atcgtgcata cgtgcgcatg caattaacgg 360tggtgttttt ggcctgtctt gcagcagcgg gtgcagcatt ggcttggcat aagcacgcaa 420ccaaacaaag actacctttt ggtcaatgca tgcgaagaat ctgtacgagc gggcgtagac 480aaccaatgat gcgatataaa atttaaggat tgaatcatat tagaatcgag ctttatttct 540attcattttc gaactaattt tttaagtatc ctaacttatt gtgaagaaac gtaaatattt 600agatcccgat ccattaccac ctctactcat acgtgaaacc aaacacgcgg aatatccttc 660tggttcaaat atgcagaagt caatgagcag gacttctgct tgtttgttca gtctctcagg 720cagggttaca ggaggcaata caagatgttc tccaacgatt ccctgaatcg ttcaccccct 780ctctcagtcc tatgattcac tcactcaccc ctccccctct tctccgtatg acaggaaatc 840cccctagagg gggagagctc taagctcccc ctccactaat taatcatatt tactgtgaaa 900ttacctattt gtagtgtaat taatagttag caatgtgtat tacgtattat aaatattgta 960ccaatattta aaactcaaaa aactaatgta taaaaatcaa atagtgcact taaagtatta 1020agggcagagc tgaatagggg gattgttgga gaagtgaaga aataggggga agaatagttg 1080agaaggggta tttaaatatg aatagaaagt atgaatggag ggaatgtttg gagagagctc 1140aagaacaagg gacactgagc tgcctacaac acgtggccct ttttgtccct cttctttttt 1200ttctttcgca tctgctggct acaagaggac acgcccttct attcgccgta tagagcagtg 1260tctgtgaagt aaaagagaac tatcctccaa ggcttatttt gagtgtatta ctcctggatt 1320cttgaatctt agctggtatg gtatggtaag gagttacgtt gtccaggaga ttccaactta 1380cggatccaca ctgaaaagtt tgtattaccc atttgttagg ccccgtttca atctcacggg 1440ataaacttta gcttcctgct aaactttagc tatgtgaatt gaagtgctaa agtttagttt 1500taattaccac cattagcttt cctgtttaga ttacaaatgg ctaaaagtag ctaaaaaaag 1560ctgctaaagt ttatctcgca agattggaac agggcctata tggtcacttt agagaggcat 1620ggaggtttaa tagactatga cattcgtacg tggtcacctc aacaaacttt attgtttgac 1680cgaaccatag attgaattgt gtgacattgt tctttgctcg tattattatt aatagaaagt 1740aaccttcttg ggtgcggccc atacggtcct gagcgcacta aatgaggcct cattggccgc 1800ggcccattcg atcctcaacg cactggataa agccagcgtg gcgtggctaa accacttcgt 1860ttggcatggg cctgtcggtg cacttgccca aaccatgagc ttgtaccaaa actcgctagt 1920ggtagtggta ttagtagtga agaacttctg caacttcaaa ctcaccgatt ctctcgcggt 1980cagtttggaa gctaaaatat cggtggaaat tagagagaat ttgataagct aaaatctctt 2040tattatttaa aattgaataa taaataaatt ttaactcctc caatcttctc cgtttttatg 2100tctcccaaac tcagtgtacc agatcatatt cctttcatta aaaaaaaggt gaacaaagac 2160gccaccttat ccactgccac gtgacagggg gccaggggaa tctcggcggc cagtggcggc 2220acgccacgcc ggccggtcgc ccccgtcgct gtacaagata cccatgattg gagcggggca 2280ggtgcagagc agcaacgcca cggctgcatg agatcaagaa gctgccttca cttcgcccac 2340tgcagcatgc cgtgtcgccg tcagagttgg gcgcatatcc agataaaaaa aacttgcctg 2400cttgcactgc agatgcgttg tttttgctaa cagcaagcag gcaagtcagc agcctaacct 2460tctttgatat ttacagagaa gatgaaaagg agaactggag agcagtagtg gcagtcactt 2520cactggtcaa gcattcctat ccacctcggc ccacctccac ctccctgaca gtcattttgt 2580tatataaaac ccatcaagct cccctgcaag gagatacaga accctgcaac tgcaagctaa 2640ggagagtgtg atcaccaaca gctagtgcta gtcccccttc cttccatcca tccatggcat 2700gcgtcagcac cttccagagc tgccccattg ccagaagagc aaagatcaac accaggtcca 2760ggggcagcag cagtagcgtg gcgaaggggt caccaccacc agccttccag ttccagtgca 2820gggcgtcgac tttcgcggcg gacaccagcc tccggctcga gctggacgag aaccccgagg 2880cgatcatctc gggggcgtgg cccgggaact gctccctcct cagctacgac gacctccgcg 2940cctacctcga gtcgcaggag acggcggccc aggcagacga tcaggtacac ttcgatctcg 3000cggcttcttc agttcttgtt accattgttt acatctcctc cagctcttgc taacccggcc 3060tggacgggtc tcctcctctg tggatatata cagcgcggcg tggcgctcct gagcgagacc 3120atgtccacac ccgtgctggt ggccacagca gaccagaccc tggaggacgt cgagtgccac 3180ttcgaggccg tgtcggggct tccggtcgtc gacagcggcc tcagatgcgt cggggtgatc 3240gtcaagaacg accgggcaag agcctctcat ggggtcagca cctcgctcct ctccctccac 3300ctctttcttt ctcatggggc cagggccatg catgcgcatc aagctgctag tttctcatag 3360acaggcaaat aagaacgacg tacgtccgtt cagtttaccg gtctgtttct acttgtgaca 3420gtccaagacg aagatatcgg aagtgatgac atctccagct atcacactat cgtctgacaa 3480aaccgtgatg ggtaatcttt tttgcatcgc ttttcttttc ttttcttttc ttttctgttc 3540atgtgtgatt tttaacaagt tgaatctaac agtgcatgcc taacgtctac agatgctgct 3600gttctcatgc tcaagaagaa gatccacaga ttaccagttg taaaccagga cgaaaaagta 3660ataggtacgg tgagtgagtg tcagaatgct cacaagccag cagagattaa aaaaaaaaac 3720tgcatgccat acacttaatt agtattatcc ttaattatca ttgacaacac agagattata 3780tgttgcaagg gctaatgggg ttctaaacac tgtcaacagg tatagttacc cgcgctgatg 3840ttcttcgcgt gttggaaggc atgttgaaga tttaggagcg cagataccca tgctcggaag 3900ccacagcctc ttgtaaatat gtagatgtgc ccgggcatgg tgtttctgag tagcagcaaa 3960gagatctacc atgtatagga gttctcc 398771178DNAmaize 7cgactggagc acgaggacac tgacatggac tgaaggagta gaaacccttc tcgctcggtt 60gctcgggagc tttccccttc ctgttcctga agcttccgac atccgaccgc ctcctcctcc 120tcgttctact cgccgcccct tctagaatca tccagaggcg tgccggtgaa gcgcgagagc 180ggtgaggcat ggcgatgcag acgggggtcg cgacctccaa ggtcctcatc ctcgtcggtg 240cagggatgac gggctcgatc ctgctgcgga atggccgctt atctgatgtg ttgggagaac 300tccaggagat tatgaagggt gtaaatcaag gaacttcttc gggtccctat gacattgcac 360ttattcaagc tcagattcgg aatttagcgc aagaagtcag agatttgaca ttgtcaaagc 420ccattaccat actgaatggc aaatctgact cgggaggcag tttatcatcc tacatactgc 480cagcagcagc agttggagca atgggttatt gctacatgtg gtggaagggg ttgtctctct 540cagatgtcat gtttgtcaca aaacacaaca tggcaaatgc tgttcagagc atgtcaaagc 600agttggagca agtttcatca gcactagctg caacaaaaag acatctaact caacggcttg 660agaatttgga tggcaaaatg gatgaacaag tagaggtctc caaagctatt agaaatgagg 720tcaatgatgt taaagatgac ctgtctcaaa ttggatttga tgtcgaatca attcagaaaa 780tggttgctgg attggaggga aagatcgagt tacttgagaa caaacaggac gtggctaata 840ctggtatctg gtatctctgc caagtagcag gcggtttaaa agatggaata aacaccaggt 900ttttccagga aaccagtgag aagctgaagc tctcacattc agctcaacct gaaaacaagc 960cagtgaaggg gcttgaattt ttttcggaaa gcaccatgga acagaaagta gctgactcca 1020aaccaattgc ggtgacagtc gacgctgaga agcctgagaa aaccgctgct gtaatgggca 1080ccacagtgca caggtctatc aggttctcat atcggaaggc aggccttgct ttgtgatcaa 1140atcctctccg cttgagatgc acgtggcctt cctggttg 11788315PRTmaize 8Met Ala Met Gln Thr Gly Val Ala Thr Ser Lys Val Leu Ile Leu Val1 5 10 15Gly Ala Gly Met Thr Gly Ser Ile Leu Leu Arg Asn Gly Arg Leu Ser 20 25 30Asp Val Leu Gly Glu Leu Gln Glu Ile Met Lys Gly Val Asn Gln Gly35 40 45Thr Ser Ser Gly Pro Tyr Asp Ile Ala Leu Ile Gln Ala Gln Ile Arg50 55 60Asn Leu Ala Gln Glu Val Arg Asp Leu Thr Leu Ser Lys Pro Ile Thr65 70 75 80Ile Leu Asn Gly Lys Ser Asp Ser Gly Gly Ser Leu Ser Ser Tyr Ile 85 90 95Leu Pro Ala Ala Ala Val Gly Ala Met Gly Tyr Cys Tyr Met Trp Trp 100 105 110Lys Gly Leu Ser Leu Ser Asp Val Met Phe Val Thr Lys His Asn Met115 120 125Ala Asn Ala Val Gln Ser Met Ser Lys Gln Leu Glu Gln Val Ser Ser130 135 140Ala Leu Ala Ala Thr Lys Arg His Leu Thr Gln Arg Leu Glu Asn Leu145 150 155 160Asp Gly Lys Met Asp Glu Gln Val Glu Val Ser Lys Ala Ile Arg Asn 165 170 175Glu Val Asn Asp Val Lys Asp Asp Leu Ser Gln Ile Gly Phe Asp Val 180 185 190Glu Ser Ile Gln Lys Met Val Ala Gly Leu Glu Gly Lys Ile Glu Leu195 200 205Leu Glu Asn Lys Gln Asp Val Ala Asn Thr Gly Ile Trp Tyr Leu Cys210 215 220Gln Val Ala Gly Gly Leu Lys Asp Gly Ile Asn Thr Arg Phe Phe Gln225 230 235 240Glu Thr Ser Glu Lys Leu Lys Leu Ser His Ser Ala Gln Pro Glu Asn 245 250 255Lys Pro Val Lys Gly Leu Glu Phe Phe Ser Glu Ser Thr Met Glu Gln 260 265 270Lys Val Ala Asp Ser Lys

Pro Ile Ala Val Thr Val Asp Ala Glu Lys275 280 285Pro Glu Lys Thr Ala Ala Val Met Gly Thr Thr Val His Arg Ser Ile290 295 300Arg Phe Ser Tyr Arg Lys Ala Gly Leu Ala Leu305 310 31593385DNAmaize 9taactctaca agctaagaat caacatgtat gcaattccat aataatcggg catcatctat 60cactcattgc taacttcagc actgaacatg atttcaagag tttttagcag aactactatg 120cgggtgatct cctttcagat gtagatggtt tagaagtgta cataagcttg caggggctta 180aggaactgtt tatttaatct tctgtgagca cgaacatcca tagaagaact atctgaactg 240aagctaaaga tttgcatgaa atggtaattt gtacacatta agtgcatcat gcaaacagaa 300cgagtacaca gtgaaacgat acagacctcc cgagtcagat ttgccattca gtatggtaat 360gggctttgac aatgtcaaat ctctgacttc ttgcgctaaa ttccgaatct aatatcaagc 420acgagcatgc aaagttaagt agaaatgaat aattttaccg agatggaaag aagcaagaga 480aacttctaag cagatgctga cactgagata gtgagatgta agatgtattc catatgagga 540agagcatacc tgagcttgaa taagtgcaat gtcataggga cccgaagaag ttccttgatt 600tacacccttc ataatctcct agaaacacaa aaggtacatc attgccttaa ataaacattt 660actaggaagt ttcagagcat accatcaaaa tctgtatgat atgtatcagg aatcactaac 720tagtgaagca taagttatgg tacgcaaaac ttccgagtgc caattgggcg ttgatgtaat 780tttatcacat ggtgttaatc acatccacat atagacagaa tcaacgcttc tagtacccca 840tcgccaagtc attcaaaaaa tatcaggtat cagctatctg acaacgctca actatccaaa 900ccgtatgaaa gtgcgtgtaa tcaaaatgaa catatttttt tcggggttgg gtgtgggggg 960tataccgacc tggagttctc ccaacacatc agataagcgg ccattccgca gcaggatcga 1020gcccgtcatc cctgcgagga caccatttca ccacgtaagg tgtcgaaaca acagccgatt 1080ggggaaaata gcatcaaatc cgagagagat ttgatggggg cgagaggtcg atggcggtga 1140tgagaagagg acctgcaccg acgaggatga ggaccttgga ggtcgcgacc cccgtctgca 1200tcgccatgcc tcaccgctct cgcgcttcac cggcacgcct ctggatgatt ctagaagggg 1260cggcgagtag aacgaggagg aggaggcggt cggatgtcgg aagcttcagg aacaggaagg 1320ggaaagctcc cgagcaaccg agcgagaagg gtgcctggac ccgggaccgg gacctgagaa 1380tttcgtgtgt cacaaacaaa cagggtgaac cagttgtgaa atgggaccac gtgtcagtga 1440agaggtgagt agtagtattt gtgagttgtg actcgagaaa tgccgctgcg ggctgcggcc 1500tagccacagc cacgtcagca atgtcgaaag tcgaaaccaa ccccactcca cgtctccccc 1560aggagaagcg accattcaaa gccgccggga gctcggcgtc accgccgcga gctcgacacc 1620tcgacacctc gtgccgccgc agcgcttgct ttcgtccccc ttacgccact cccacttggc 1680cacttcagcc accatctccc tgaagctagt ggctaacctc ctcaccgcca tgggcacccc 1740tctcctcatc ccccttctcg tcaccctcca gctgttcact acctcctccc ccgcggtcgc 1800gtcgtcacac atctccgcca tcatctcgca gtcgggcctc gacttcgcca aggacctgct 1860cgtatcccat gccgttgcga ccctcacgcc catgaacgtg ccggacatcg agaggaccat 1920gagcataccc ctcgtgggca ccgtccgcat ggccgcatcc gggattgtgc tccacggcct 1980cgccgtcacc aactccaccg tcgctgtggg ggacgcgggt gttgtcgtgg ccgcctcgtt 2040ggccagcgcg aacctcacca tggagtggaa ctactcgtat gacgcctgga ttgtgaccat 2100atccgacagc gggaatgctt cggtccaggt ataaatgagg ggaacatata ctgtgcagtc 2160atattagtgc aaccgtgcaa ttaagcaatg atgcatcgat ccaatcaaaa tccaactatg 2220attgctattt taggtggaac atggttagat gcaaaacagt cctgtttggt tgatattcga 2280tattccatca gttatgttcc ccaaggcgtg gcttgctgat tggtggctgt taattgaatc 2340ataagatact gcccgttttt ttaatatact gagtaggaga tatacgcatc ttttatgcta 2400ttaagtatag actgatcgcg cgacacttga attttggaat atctattttc tgtcagatgt 2460cagaagtaga atcaattatc ttagaagtgg gtgctaattc acacctatta ctatatttaa 2520aatgggatta atataaacac tctatttttc tcgaaagcgc aagagagctg cgcgaaaata 2580tattaagaag aagtaaaagg tccaaaagga ccccaagata cagataaggc cgacctacgg 2640cggccaataa caagcataaa tgaaaccatc catgacaaaa acactgctac cagaacagca 2700ctacatctat ctagctaaca ggtagacctg ggataggggc agtaagcaag gacagcttct 2760ttgcaccagc cataacccaa agatcaatct ccaaaccaac acttctaata gcaacagcaa 2820cactaggact cttattgtca aaaacgtagc cattgcgatg tttccaaagg gtccaaacac 2880caagaatgac aagagaatta agaccatttc ttgcaatccc aggagtcttg gtgatcaagt 2940cttgccacca atccataaaa acctcttcac aggactgatg ggccaagtgt tgtagattta 3000caagaagaag cagcttgaac caaaattctc tagcaaaaac gcagcccagc agcatatgat 3060ttaaggtttc ctgatcctga tcacataatg gacatctctc cggatgatcc atacctcttc 3120tttgcaacct atcagctgtc cacaccttct tgtgagcgac caaccacatg aaaaatttag 3180atttcggagg agcccaagtc ttccaaatta tatgaaaagg ctcaaactca attgacccaa 3240taaagaaacc cctataagct tccttggaag aatattttcc attggcagca aggcgaaaga 3300aatgcttgtc ttcaacatga ggtcttagct gaaccaaatc taataaatcc cacaagagga 3360gatactcgtt gatacaccca ctgaa 338510420DNAmaize 10cgactggagc acgaggacac tgacatggac tgaaggagta gaaaaactcc caaatccttc 60gtttcgtcgt ctccacacgc aatagcatcc gagcaaagaa gccaaagagc aactgggagc 120gaggacggga ggcaacaagc ggcggcggca tggaccggaa cctgagcggg tttctgatcg 180ggtgcctggg cgccgccgtg acgctgctgg cgtaccagca gacggtggtg accagcacgc 240agagcgtcgc ggcgggcttc gtcgtcatcc tcttcgccct cttcgtcaag gaaggattca 300tttccctctg aatctctggt gcgcgtcagc cagccatgca tgaggaggcg tcatcgctcc 360gctgcctgta tttctgctcg ctagttcagt cccgcagctg ccgctgtgct cgtcaggttc 4201153PRTmaize 11Met Asp Arg Asn Leu Ser Gly Phe Leu Ile Gly Cys Leu Gly Ala Ala1 5 10 15Val Thr Leu Leu Ala Tyr Gln Gln Thr Val Val Thr Ser Thr Gln Ser 20 25 30Val Ala Ala Gly Phe Val Val Ile Leu Phe Ala Leu Phe Val Lys Glu35 40 45Gly Phe Ile Ser Leu50121736DNAmaize 12gatacgactc tcgctggtat ataaaatctg tttcgtagat aaacatgaaa ccagaatttt 60tgatcaccat atacttgttt cagaagcaaa ttggggacac catatacttg ttgccttcaa 120acgaccgtac aataagttca gactgaccat ctgaatgtca caagagctag tttagagcag 180caagaaattg tcaagtgacc tagacatccc gaaccgacgc ttcccagact tagcccgacc 240ttccgggtcc ttcataagct gactccgtgg cccctcacca gaccaacgcc gcagccgttg 300accttgcggc tttttatccc catccggcca tccccaaccc aactcccaaa tccttcgttt 360cgtcgtctcc acacgcaata gcatccgagc aaagaagcca aagagcaact gggagcgagg 420acgggaggca acaagcggcg gcggcatgga ccggaacctg agcgggtttc tgatcgggtg 480cctgggcgcc gccgtgacgc tgctggcgta ccagcagacg gtggtgacca gcacgcagag 540cgtcgcggcg ggcttcgtcg tcatcctctt cgccctcttc gtcaaggaag gattcatttc 600cctctgaatc tctggtgcgc gtcagccagc catgcatgag gaggcgtcat cgctccgctg 660cctgtatttc tgctcgctag ttcagtcccg cagctgccgc tgtgctcgtc aggttcttgg 720aaaaatactg taatagcgta gtgactttta tgtacgacac ggatggttgt tgctggctga 780agggtctact ctgtcgaaat cgatgtatct tagtttatgc tacttgaaga acagcagact 840gcagatcagc agagttcttg ccttcttacg ctaattaata attattggta cacgaatcct 900gattgtgttg agccttcttg ccgttgctcc ttccctacta acatctcggc ttgccaattc 960acctatgtat gtttgctttg tatattagtg caggtattaa tggccgcctg taagtgagtt 1020tgttctccct tgttgaacta ataaaattgg catgaattca ccccaaaaag attgatgctg 1080tttctcacta gttttcagcc tcagacgact atagatgtcc aaacagtgcg gaccgtccat 1140ttgaaacttg acccgtcacg attttagtcc ggtccaagca tggccaagca gggttggtaa 1200cggcacgacc tgtttagcgt gccgggtttg ggcagctaca gaggcccgcg tgttttggtc 1260cgatccgaca cgagcaatgg gccgacacag cggcggccca tttttcatat ggcatatggt 1320gccagcggcc acacgccccc ccaaccaggc cacacacccg aaccctatct ctaatcccct 1380caccccctcg ggccctccgt ccccatctct agcgattcgg cgccgtcgtt ctcgcccgtt 1440gcatcccgtc ggctcttgac ctcgacggcg gacgactctc catcgctgtc gtatgtggtg 1500ctccgacctg cttggacttg gagttcctcc gtcctccctc gtcactccct ccgtctgcga 1560ctggggactc cctaacccta acccctccgg tctccggatt cggtggttct agctcctcag 1620ctgtgcaagg ttcgtttatc tcgtctaatc ccctccagat ttggtgtcta gctgatgtct 1680ggtgctcgtc tgtggtgtct ggttgccgtt gccggtggtc gtcacctgtt gctcct 173613791DNAmaize 13cgactggagc acgaggacac tgacatggac tgaaggagta gaaatcttgg atctggtggt 60gggttcatcc ttggcccact tcttcttgag cttgggtgca taccgcaggt ggcaagtgca 120acagcaacat tcgtgatgat gttctcctcc tccctctctg tggtggagtt ttacttcctg 180cacagattcc ccctgccttt tgctggctac ctcatcttca tttccatatt ggctggattc 240tggggccagt gtttggttag gaagatcgtg catgtgctca agagagcatc gcttattgtc 300ttcatcctct cctctgttat cttcgtcagt gctcttacga tgggtgtcgt tggaacccag 360aagagcattt cgatgatcaa caatcacgaa tatatggggt tcctcaactt ctgcgagtaa 420ctcaaacacc atcagactgt cgatccgtcc gggagaatcc aggccaatgc ctaattgacc 480tcatctccct caaaatctag aagaataaag tcgccgagta tgtgcacaag ttagctcctc 540gccaacatgt gcgcatttag accgacagag tcgctgtagt gaattcagct cgtgttagct 600cctggctaac gagctgacca tacggcttta gttttgtgaa gtgggcgcga tttcgtcatg 660tcatgcatgt gttagctcct ggctaacctg caaatgcgtg tgttggtgca ggtttttgtc 720acgtctgcgt cagctcctgg ctgaccagca gttgtttgtc gttcattctc tgcgtcagct 780cctggctgac c 7911494PRTmaize 14Met Met Phe Ser Ser Ser Leu Ser Val Val Glu Phe Tyr Phe Leu His1 5 10 15Arg Phe Pro Leu Pro Phe Ala Gly Tyr Leu Ile Phe Ile Ser Ile Leu 20 25 30Ala Gly Phe Trp Gly Gln Cys Leu Val Arg Lys Ile Val His Val Leu35 40 45Lys Arg Ala Ser Leu Ile Val Phe Ile Leu Ser Ser Val Ile Phe Val50 55 60Ser Ala Leu Thr Met Gly Val Val Gly Thr Gln Lys Ser Ile Ser Met65 70 75 80Ile Asn Asn His Glu Tyr Met Gly Phe Leu Asn Phe Cys Glu 85 90152189DNAmaize 15cttgggcggt agagcttttt attagctttt caaaaagttc aaggtcatca aggtcagagt 60ttaaatctaa aagctatgcc taaaatataa aatgggtcat actgagcacc catacatatg 120atgatcttgt ccagtaccac atctgataca cacagagcat tacggtgacc catgttccat 180atcttaaggt aacgaaggtt tgtcctaagt taaagttttg aaactttgac aacaatatct 240acaaaaataa ttatttttta cttaaagaaa ttatatattg tgctagatgt tttaataata 300aatataatag ttttattttt atttagtcaa tgtttatgaa tattttgtta ttaatgataa 360aagtttcaaa attttgactt agtataaact ttcgtgatct taagataggg aagagaggga 420gtgagtaggt atcaattgca cccaggtaat gatcattttc aacggtcaaa ttactaaaaa 480tagccgttac caaaaactca acagtgtaca tgatgtggag cgatccgggg ggagacaccc 540acttacgttc aatgaaaatg ctagtccacg aaggagacgg aagcccaccc tggcctctct 600ttgaggcgaa gccacgttcc ggccaatcgt ctcacagcct ctatgcaggc tggaatgtca 660cccatgctgc acctcacctc aaccatcgta aatcttaagg accattcttc ttaattaact 720catttgcaag ggtttgtagc gccgctttac cttagtacat gtgttacagt aaacaaacaa 780ttgccagtgc tttatatgat ttcgatccat catattttag gtccaaaaca gcatcttcac 840tcaaagagac agattaaagc tgtttggact gctttagcta taataaaaat actgtagaaa 900aaacagaagt cggtggaagc cgcagcgaac atgttctgat tttcacggaa atacggcttg 960aaacgcactc ggcttgcaca aacagaatgg gaattgactg atatttacaa tgttccatgc 1020aacaaatatt tgcagttttg cagcctagcc tggtgctagc gcaagaatga acaacaaata 1080actgctggtc agccaggagc tgacgcagag aatgaacgac aaacaactgc tggtcagcca 1140ggagctgacg cagacgtgac aaaaacctgc accaacacac gcatttgcag gttagccagg 1200agctaacaca tgcatgacat gacgaaatcg cgcccacttc acaaaactaa agccgtatgg 1260tcagctcgtt agccaggagc taacacgagc tgaattcact acagcgactc tgtcggtcta 1320aatgcgcaca tgttggcgag gagctaactt gtgcacatac tcggcgactt tattcttcta 1380gattttgagg gagatgaggt caattaggca ttggcctgga ttctcccgga cggatcgaca 1440gtctgatggt gtttgagtta ctcgcagaag ttgaggaacc ccatatattc gtgattgttg 1500atcatcgaaa tgctcttctg ggttccaacg acacctgaaa ctcaccgaaa caagaggcca 1560ttaggagaga agttaaaaat caaactagat tgatttagac gaaacaagta aaagagctaa 1620tataatgcta catccgttct cgaatatttg tcgtccgtta gttcattttt taaaatgaac 1680taaaacgtga caaataaaaa agaacggaga atggagtgag tattccttaa gattattttt 1740ctcaaggatg catgctataa ttgcaaaatc aatttaagca acaccggtac gtttagttca 1800atttaagcaa caccggtacg tttagttcaa ttcaacttgg agcggtatca ggttagcaat 1860ttgccaagtt taaagctaag tagcaagtca atgagttatc aataggttca tacccatcgt 1920aagagcactg acgaagataa cagaggagag gatgaagaca ataagcgatg ctctcttgag 1980cacatgcacg atcttcctaa ccaaacactg gccccagaat ccagccaata tggaaatgaa 2040gatgaggtag ccagctgcag atagagaaac agtgcaagtt attaactcgt taccatataa 2100caatcacact tatgaaaacg tctacatttt gaggaattgg aatctaacta atagagtagg 2160ttatttcttt agaacgtgac atttcataa 218916839DNAmaize 16cgactggagc acgaggacac tgacatggac tgaaggagta gaaaaaagtg ctcccggaag 60actccaagct gcagctaccg gccttcctct cccccattcc aattccgaga acaggggcgg 120cggagtcaac caggtacgat gtgctcggta gcgaggctgg cgtttgtgct tgcactggcc 180atagccgcct cgtcaattga ggttgcggag agcagagatt ttaatatctt tgctcagggc 240agcttgcctg atgcaaccaa gggatcgtct ggtctagctg caaccagtgg aaagttgtgt 300cagttatgcg agcagtactc atccgaggcg ctcctctatc tcacacaaaa cgagacccag 360actgagattc ttagcattct acaccatgaa tgtgccagcc ttgcccctct caaacagcag 420tgcatcacgc tggttgacta ctacgtaccc cttttcttct tggaggtctc catggttacc 480cctgagaagt tctgcgagtc gatgcatctc tgcaagaagg ggatgaagat tagcctaccc 540acccgggagg gtacttgtgg tttgtgccac catgttgttg ttgaaattct tatcatgctt 600aaagacccca acatgcagct ggaagtaatc gacctactca ccaaaacatg cagcaaggcg 660cagaactatg aacagtagtg caagcggctg gtcctcaagt atattccact tattctggtg 720aagggccaga aattccttga gacaacggat gtctgctctg tgatacatgc atgcaaagca 780ggcacacaag catcaatgga agccatgcct ctgtctgcca tgttgtgaag gtgatgcga 83917179PRTmaize 17Met Cys Ser Val Ala Arg Leu Ala Phe Val Leu Ala Leu Ala Ile Ala1 5 10 15Ala Ser Ser Ile Glu Val Ala Glu Ser Arg Asp Phe Asn Ile Phe Ala 20 25 30Gln Gly Ser Leu Pro Asp Ala Thr Lys Gly Ser Ser Gly Leu Ala Ala35 40 45Thr Ser Gly Lys Leu Cys Gln Leu Cys Glu Gln Tyr Ser Ser Glu Ala50 55 60Leu Leu Tyr Leu Thr Gln Asn Glu Thr Gln Thr Glu Ile Leu Ser Ile65 70 75 80Leu His His Glu Cys Ala Ser Leu Ala Pro Leu Lys Gln Gln Cys Ile 85 90 95Thr Leu Val Asp Tyr Tyr Val Pro Leu Phe Phe Leu Glu Val Ser Met 100 105 110Val Thr Pro Glu Lys Phe Cys Glu Ser Met His Leu Cys Lys Lys Gly115 120 125Met Lys Ile Ser Leu Pro Thr Arg Glu Gly Thr Cys Gly Leu Cys His130 135 140His Val Val Val Glu Ile Leu Ile Met Leu Lys Asp Pro Asn Met Gln145 150 155 160Leu Glu Val Ile Asp Leu Leu Thr Lys Thr Cys Ser Lys Ala Gln Asn 165 170 175Tyr Glu Gln181961DNAmaize 18gcactcatag cacatctgag gttccctttc ttgaacttag ctcacctact gttcatagtt 60ctgcgccttg ctgcatgttt tggtgagtag gtcgattact tccagctgca agcttgcagc 120aaacaaagaa aggcattaca gtatgtacag agtacagagc agtacaacac agaagaatgt 180tggtgacaga tagtgaaaat atggttatta cctgcatgtt ggggtcttta agcatgataa 240gaatttcaac aacaacatgg tggcacaaac cacaagtacc ctcccgggtg ggtaggctaa 300tcttcatccc cttcttgcag agatgcatcg actcgcagaa cttctcaggg gtaaccatgg 360agacctccaa gaagaaaagg ggtacgtagt agtcaaccag cgtgatgcac tgcagcaggg 420tgaatcatca acacaacatt taacacagct gaaaacgtgg taccaatgga aggatcacaa 480gttacctata cctgctgttt gagaggggca aggctggcac attcatggtg tagaatgcta 540agaatctcag tctgggtctc gttttgtgtg agatagagga gcgcctcgga tgagtactgc 600tcgcataact gacacaactt tccactggtt gcagctagac cagacgatcc cttggttgca 660tcaggcaagc tgccctgagc tgaattgaag acagaagaaa ggattggcca gaaatgcaaa 720acttcagaaa aacttgagtt cctgtgagga atagcagcta agctgaagct acgccctcta 780cattgagtag aactgatggc ttagacgtaa ttgctttctt taacatgtca ccggactaaa 840tgaagatacg aacttgtcaa acaaagaagg aatttagata aactaattga aactatcacg 900agatctccat cgaaaagaaa ctatcactag acctgataat tcactgctat ggatcaacat 960tcaacaaaga ataaagagag taaggagcaa aaatcagtag attgaaagct taccaaagat 1020attaaaatct ctgctctccg caacctcaat tgacgaggcg gctatggcca gtgcaagcac 1080aaacgccagc ctcgctaccg agcacatcgt acctgcttac cactaccagt tggtcagttg 1140acaggaacaa aactactgct tgaagaaaac tatcgcagtg aaatcagctg tggctgatgg 1200acgcagaaaa gctggcttgc tcaaagcttc tccataaagc caaaaggtaa ccaaaaaaaa 1260aagagaaagg aaatgtatcc tagggccctc tctctacgtc atgtaacgga tcagtagaag 1320tttcagattc attcagcccg acgtaactga agaattcagt tcgcttcaag atgtagccat 1380cagattcacg tatttggagt caagccaaga tagtaccaat tggtccgcat ccacattcca 1440ggcaacagat tcacgagatt cagctcgctc cacgccagca gagctgctac tattctggca 1500ccactccaaa tacgcctttg cagcagatta gcaaagcatt ttacgctcgc ttttgcgctt 1560tattttgccc ctcgtttcct ttccaggtag cttccggttc cgaagaatcg gaggtccttg 1620gattcaggga caaggggtcg aactgggcag caaatcaaga accgagggga gacggtagta 1680cagagagccc aggagaagct aacatatgaa tggggaatta aagacgcatc tcacctggtt 1740gactccgccg cccctgttct cggaattgga atgggagaga ggaaggccgg tatctgcatc 1800ttggactctt ccgggagcac tttgttttct taaagcttcg tgttacatta agaagatgca 1860tgagcatgta gaacagtgtg tgtggccgtg tgtgtgagaa cctgagatat ttttgcttct 1920ttggtggcca agatgtgtta gaaaggcata atcttttctt a 196119589DNAmaize 19cgactggagc acgaggacac tgacatggac tgaaggagta gaaatatagc cagaactctt 60gcatcctggt gatggtaaac tgccgtgcca gtataaacgc gaaggcaggt cacacatact 120cacaagtccg tcccatctca ggtcatccat ccatccatcc ctgcagcaat ggcgtctgca 180gtgaccagca gcgacaagga gcaggccgtc cctaccatcg acgctgacga agcgcacgcg 240ctgctgagct ccggccatgg ctacgtggat gtcaggatgc ggggggactt ccacaaggcg 300catgcgcccg gtgctcggaa cgttccctac tacctgtccg tcacgccgca agggaaggag 360aagaacccac actttgtaga ggaagtggct gccttctgtg ggaaggatga tgtcttcatt 420gtgggttgca acacggggaa cagatccagg ttcgcgacgg cagaccttct gaacgcgggg 480ttcaagaacg tgaggaacct gcaaggtggt taccgctcct ttcagcagcg agctcaacag 540cagtagacat cacgtcctga aggtatgcca gggatgctgc agttgaacg 58920125PRTmaize 20Met Ala Ser Ala Val Thr Ser Ser Asp Lys Glu Gln Ala Val Pro Thr1 5 10 15Ile Asp Ala Asp Glu Ala His Ala Leu Leu Ser Ser Gly His Gly Tyr 20 25 30Val Asp Val Arg Met Arg Gly Asp Phe His Lys Ala His Ala Pro Gly35 40 45Ala Arg Asn Val Pro Tyr Tyr Leu Ser Val Thr Pro Gln Gly Lys Glu50 55 60Lys Asn Pro His Phe Val Glu Glu Val Ala Ala Phe Cys Gly Lys Asp65 70 75 80Asp Val Phe Ile Val Gly Cys Asn Thr Gly Asn Arg Ser Arg Phe Ala 85 90 95Thr Ala Asp Leu Leu Asn Ala Gly Phe Lys Asn Val Arg Asn Leu Gln 100 105 110Gly Gly Tyr Arg

Ser Phe Gln Gln Arg Ala Gln Gln Gln115 120 125212277DNAmaize 21cgcactaaga aggcagggaa ttgtgtggca aatataggta catgctacac gtgtgatatt 60tcccgatttg tcaatctggg acatgaagtt aacatcgcaa attataatgt tacaggaacc 120aggtatggtg ctagcttgcg taagcaaatc aagaagatgg aggtatctca gcattccaag 180tacttttgcg agttctgtgg gaaggtacat ttctgttagt taccctgttt ctgcatccaa 240gttttctaat ctttgatcta ttgaactgcg agctgtcttt atgttgtact cgttatcatc 300accactgctg ttatgaaatg taggctgcag tcagattgat tttgagcaca tgaaatcaat 360tagttttcga tatatctgtt tgtcacaagc acatgaaatc aattagtctt cgatatatct 420gtttgtcaca tttgaatgat ttataagatg tctgggcatg tccatcaatg tgtttctaag 480atacatttga agacagacag catttgttcc gaatccaacc tttgctgtgc tgtgtttcca 540gtttgctgtg aagaggaaag cagttggaat ttgggggtgc aaggactgtg ggaaggtgaa 600ggctggtggt gcttacacca tgaagtaagt aattcttcgc ctgtccgaaa accacaattt 660gttagccacg gctaaattct gttaatgtgt ttgcagcact gctagtgcgg tcaccgtcag 720gagcacgatc cgccgcctga gggagcagac tgaagcatga tatagctctt tatattattg 780gggtttcctg tagttgctct tgtcaggcat gttgtggggg ccttatctag tggaaatgtg 840gaatcactgt actggctgtt ttgccgagac aatgctcctt atatttggtt tatgctctag 900gatctcaaag ttgtgttaag atttgccctt ggttaccgtt ctgaatctga caagtgatat 960ttcatcctat gccatcttga cgtcgaattt ggttgtggtt ttctatgcgc ttggctgtgt 1020caatggtttg ctattctgtt cttgaaattc tacagatact gctgcgtctc tgctggttga 1080gtctggttta gatagcaacc agtccttatt attggtcttt caagttcaag tcaactaaaa 1140tgcgacaaat aaaaaaaaga atggagggag tatataactg ttcaagtcaa ccaatcctta 1200ttacgcctgc acttgtgtcc aaaaagaaat gccccggagc tattattggt ctgttgccag 1260ataagcagtg acgacgcagc atcgaaggtc agagacgact tttttgcgag aacgagcatc 1320aagctgacgg aatggagcat tattccgata aaaaaaaggt atagccagaa ctcttgcatc 1380ctggtgatgg taaactgccg tgccagtata aacgcgaagg caggtcacac atactcacaa 1440gtccgtccca tctcaggtca tccatccatc catccctgca gcaatggcgt ctgcagtgac 1500cagcaggtaa acatagcttc tgagtgcatc tgatgttgct tacagtaaca ttacatgcat 1560agagcagaag atcggatgca tctggattaa ccagagtcag tcttgtcttg gtgtgcactg 1620cagcgacaag gagcaggccg tccctaccat cgacgctgac gaagcgcacg cgctgctgag 1680ctccggccat ggctacgtgg atgtcaggtg cgtagagctc agccagtcag ggacgcgcct 1740atgcgtgtgc tggagcttcc agacgaactg acgctgacgg ggacgaggtg gttctccttc 1800gtgcaggatg cggggggact tccacaaggc gcatgcgccc ggtgctcgga acgttcccta 1860ctacctgtcc gtcacgccgc aaggtcagtt tcttgctcgc tggcgttggc gctggcactg 1920gcattggggt tattgatttg agctgcctct gtccccgtgt agggaaggag aagaacccac 1980actttgtaga ggaagtggct gccttctgtg ggaaggatga tgtcttcatt gtggtagcta 2040ttcactcata taaataaata aataaatgta ctagtactct ataaatagat agatacgcct 2100gtaatcaagg agttgtcgtg tagggttgca acacggggaa cagatccagg ttcgcgacgg 2160cagaccttct gaacgcggta aacacagccc atccgagctt tagcatcaat ccagttagct 2220gtatgtgtgt gtgtgtgtgt gtgtgtttaa ctgagggtca cactagtctg ctcgcat 227722897DNAmaize 22aagatagctg caaaacaagc gagttactta caaccaaaca gaagggtaga aaccacctga 60agccatgtgc attgctgcat ggatttggca ggctcaccct gtgcaccaac tcctcctgct 120tctcaacaga gatgagttcc acagcaggcc tacaaaagca gtaggatggt ggggtgaagg 180ctcaaagaag atccttggtg gcagggatgt gcttggtgga ggaacatgga tggggtgcac 240caaggatgga aggcttgcct tcctgaccaa tgtgcttgaa ccagatgcca tgcccggtgc 300acggactagg ggagatctgc ctctcaaatt cctgcagagc aacaagagcc cactcgaagt 360tgcaactgaa gtggcagaag aagctgatga atacaatggc ttcaacctca tactagctga 420tctaacaaca aatatcatgg tttatgtgtc aaaccggcct aagggtcagc ctgcaacaat 480tcaactcgtg tcaccaggac tccatgtgct gtccaatgca aggctagata gcccttggca 540gaaggcaatt ctcctcggta aaaacttcag ggagcttctt agggagcatg gtgctgatga 600ggttgaagtg aaggatatag ttgagaggct aatgactgac accacaaagg ctgacaaaga 660tagactgcca aacactggtt gtgatcccaa ctgggagcat ggtctgagct ccatcttcat 720tgaggtgcaa actgaccaag ggccctatgg gacacggagc acagccgttt tatcagtgaa 780ctatgatggc gaagctagct tgtacgagaa gtatcttgag agtggtatat ggaaggatca 840cacagtgagt taccagatag agtagtaggc attgcacagg aaaagttggc gacctca 89723266PRTmaize 23Met Cys Ile Ala Ala Trp Ile Trp Gln Ala His Pro Val His Gln Leu1 5 10 15Leu Leu Leu Leu Asn Arg Asp Glu Phe His Ser Arg Pro Thr Lys Ala 20 25 30Val Gly Trp Trp Gly Glu Gly Ser Lys Lys Ile Leu Gly Gly Arg Asp35 40 45Val Leu Gly Gly Gly Thr Trp Met Gly Cys Thr Lys Asp Gly Arg Leu50 55 60Ala Phe Leu Thr Asn Val Leu Glu Pro Asp Ala Met Pro Gly Ala Arg65 70 75 80Thr Arg Gly Asp Leu Pro Leu Lys Phe Leu Gln Ser Asn Lys Ser Pro 85 90 95Leu Glu Val Ala Thr Glu Val Ala Glu Glu Ala Asp Glu Tyr Asn Gly 100 105 110Phe Asn Leu Ile Leu Ala Asp Leu Thr Thr Asn Ile Met Val Tyr Val115 120 125Ser Asn Arg Pro Lys Gly Gln Pro Ala Thr Ile Gln Leu Val Ser Pro130 135 140Gly Leu His Val Leu Ser Asn Ala Arg Leu Asp Ser Pro Trp Gln Lys145 150 155 160Ala Ile Leu Leu Gly Lys Asn Phe Arg Glu Leu Leu Arg Glu His Gly 165 170 175Ala Asp Glu Val Glu Val Lys Asp Ile Val Glu Arg Leu Met Thr Asp 180 185 190Thr Thr Lys Ala Asp Lys Asp Arg Leu Pro Asn Thr Gly Cys Asp Pro195 200 205Asn Trp Glu His Gly Leu Ser Ser Ile Phe Ile Glu Val Gln Thr Asp210 215 220Gln Gly Pro Tyr Gly Thr Arg Ser Thr Ala Val Leu Ser Val Asn Tyr225 230 235 240Asp Gly Glu Ala Ser Leu Tyr Glu Lys Tyr Leu Glu Ser Gly Ile Trp 245 250 255Lys Asp His Thr Val Ser Tyr Gln Ile Glu 260 265241351DNAmaize 24cgactggagc acgaggacac tgacatggac tgaaggagta gaaaatcagc cgcagtcgcg 60tcgcgtcgcg tcgcgtccag tccaatcctc ggagcctcac acgggcggac gagcgggagc 120ttctcccaat ctcccctgcc ctgccctgcc ctgccgccgc gcttagcttc gcatcttccc 180ctcctcctcc tcctccttcc tcggccaagc gaggagcgag gcgcgggcgc gagcgcgtcg 240ttgagatgga ttcggaggcg gtgcagcacg gccttctccc tctgtctgcc tgtcctccta 300ccgccaacag ctgcgcgcat tacagccgtg ggtgcagcgt cgtggcgccc tgctgcggcc 360aggccttcgg ctgccgccat tgccacaacg acgccaagaa ctcgctggag gtcgacccgc 420gcgaccggca cgagatcccc cgccacgaaa taaagaaggt gatctgttct ctctgctcca 480aggaacagga cgtgcaacag aactgctcca gctgtggggc ctgcatgggc aagtacttct 540gtaaagtatg caagttcttc gatgatgatg cctcaaaggg ccagtaccac tgtgacggat 600gtggaatatg tagaaccggc ggcgtggaga actttttcca ctgtgataaa tgtgggtgtt 660gctacagcaa tgtcttgaag gattcccacc actgcgtcga aagagcaatg catcacaact 720gccccgtctg ctttgagtat ctgttcgact ccacgaagga catcagcgtg ctgcaatgtg 780ggcataccat ccatttggag tgcatgaacg agatgagagc acaccatcac ttctcatgcc 840cagtgtgctc gaggtccgcc tgcgacatgt cggccacatg gcggaagctc gacgaggagg 900tcgcggccac gccgatgcct gacatctacc agaagcacat ggtgtggatc ctgtgcaacg 960actgcagcgc gacctcgagc gtgcggttcc acgtgctggg gcacaagtgc cccgcgtgca 1020gctcgtacaa cacccgggag acgagggctg cgtgccccag gatctgaggc gaaccagagg 1080ccatgtcaca aaatgccagg gagatgccgt ccaacgacca tctgtctgca ggacgttgct 1140gcgcttaagg ttaaaggcta gcgcgagacc aggcctggta gtccagtctt gagtttggtg 1200ctggagcatt tgtaatgttc cggtaaaatg taatgcgtcc atgagtgctg tccaggcagt 1260aagcacacct gtggatcggg gccggcgcaa ggtccctagg caagctgcag gattagtggg 1320gctattcatg tttagggcgc gaatgcaacg a 135125273PRTmaize 25Met Asp Ser Glu Ala Val Gln His Gly Leu Leu Pro Leu Ser Ala Cys1 5 10 15Pro Pro Thr Ala Asn Ser Cys Ala His Tyr Ser Arg Gly Cys Ser Val 20 25 30Val Ala Pro Cys Cys Gly Gln Ala Phe Gly Cys Arg His Cys His Asn35 40 45Asp Ala Lys Asn Ser Leu Glu Val Asp Pro Arg Asp Arg His Glu Ile50 55 60Pro Arg His Glu Ile Lys Lys Val Ile Cys Ser Leu Cys Ser Lys Glu65 70 75 80Gln Asp Val Gln Gln Asn Cys Ser Ser Cys Gly Ala Cys Met Gly Lys 85 90 95Tyr Phe Cys Lys Val Cys Lys Phe Phe Asp Asp Asp Ala Ser Lys Gly 100 105 110Gln Tyr His Cys Asp Gly Cys Gly Ile Cys Arg Thr Gly Gly Val Glu115 120 125Asn Phe Phe His Cys Asp Lys Cys Gly Cys Cys Tyr Ser Asn Val Leu130 135 140Lys Asp Ser His His Cys Val Glu Arg Ala Met His His Asn Cys Pro145 150 155 160Val Cys Phe Glu Tyr Leu Phe Asp Ser Thr Lys Asp Ile Ser Val Leu 165 170 175Gln Cys Gly His Thr Ile His Leu Glu Cys Met Asn Glu Met Arg Ala 180 185 190His His His Phe Ser Cys Pro Val Cys Ser Arg Ser Ala Cys Asp Met195 200 205Ser Ala Thr Trp Arg Lys Leu Asp Glu Glu Val Ala Ala Thr Pro Met210 215 220Pro Asp Ile Tyr Gln Lys His Met Val Trp Ile Leu Cys Asn Asp Cys225 230 235 240Ser Ala Thr Ser Ser Val Arg Phe His Val Leu Gly His Lys Cys Pro 245 250 255Ala Cys Ser Ser Tyr Asn Thr Arg Glu Thr Arg Ala Ala Cys Pro Arg 260 265 270Ile267106DNAmaize 26ccttacaggt tatcacttac cgcctccgtt ttcgaatatt tatcgttcgc tagttaatct 60taatttaaac ttaaatgagg caaataaacg tttaaactat tctcttgatc gtgtgtctga 120ttgtcttgtt gtttaaaatg cctcctagat cgatcgtcgt agtgcaggtt gttttagaca 180aagttgaact gcgatcagac cgagaccgga caaccattga gcagttattt tcctattcat 240cgtggactaa ctggaagata ttttctgagc tccaaaaaat atccaaagga agggagaacg 300tgaaggacga ggtcggaccg gacacgcctc ccctcgctaa tcattgaggc ggaggcggcg 360gaggcgattt tgggaacact cgcaggtaga ttttgcgtga acttggacga gggtcatttt 420cgctttggat gaatccacga ggtggtgtca ctgcacgcgc acggggccct caaaccgttt 480gaaaaccaaa ccgaaggcaa caaaacgaga ctctcatctc atctgactct acggccagct 540caagtgatct gctgctggtg gccgacctgg cggcgtgatc tcgctcccgt gcccgtctcc 600tccatccgac gcgtacatgg cccgccatcc tcatccatcc gccctccaga ggaccagtcc 660agaccaataa taaaagggaa ggtcgacgac gggctcgctc caatccggcg aaccgcgtcc 720ccgtcagcct gtcatcccgt gggcgcgcgg ctgtcgacct gcgcatcagc ttctatgatt 780agccaggagc aataatttat tactcctatt tgccaggcga cgttcgtcca attcgacccg 840gcaggcagca ggcagcagct gtgctcctgt gggtgggtgg gtcatgggtg accacatgca 900tcgatggagc cagggccgcc gtgtgcgcag ccaactctac ctatccccgc ccccgggatg 960ggcgatggca actatcctat cgcaacaata tcctggggtg ggggctataa aacggagcgg 1020cccgcgtggg gcgcgcctcc atcagccgca gtcgcgtcgc gtcgcgtcgc gtccagtcca 1080atcctcggag cctcacacgg gcggacgagc gggagcttct cccaatctcc cctgccctgc 1140cctgccctgc cgccgcgctt agcttcgcat cttcccctcc tcctcctcct ccttcctcgg 1200ccaagcgagg agcgaggcgc gggcgcgagc gcgtcgttga gatggattcg gaggcggtgc 1260agcacgggta agcaagcaaa gcaatccatg gatcgatcca ggacacaggg aggagctagg 1320aagaggaaca atctcatgat ctcattcatc tgacacagcc ttctccctct gtctgcctgt 1380cctcctaccg ccaacagctg cgcgcattac agccgtgggt gcagcgtcgt ggcgccctgc 1440tgcggccagg ccttcggctg ccgccattgc cacaacgacg ccaaggttcg gtggtttccc 1500tccttccgtt ttcgcttcgg ctccggttca gcagatgttc tgaaacaacc ctgtcccgtg 1560ccccggcaga actcgctgga ggtcgacccg cgcgaccggc acgagatccc ccgccacgaa 1620ataaagaagg tcagcgttcc ctccctctgc tcaaagagca atctcctgcc tgtttcaacc 1680attgcctatc tcgtgttcgt ctttgttatt accgtgagca aagaaaggaa gaaacaaaca 1740agagcgccgc cttctctctt ctccttctcc atgtaatgga gcatttgttc cgccgcgtag 1800tcgagtgcaa gcagcggttt tcctcttttg gaaacccacc cccacgcacg gttccgttcc 1860aatctcgccc ttccaattga ccaacacaaa cctttcctaa gatttcttgt cctccttacc 1920cttctacaga caagtacgaa acgcaatcgc acaaggttat actactacta gcttttagtg 1980ttctagcgac cttagatttt tttttttggt taggcatccc tgatttttct cacacttaaa 2040agcttcttca gataaggcca tatcagctca gctcagtgct ctgggagccg ttctgcactt 2100cacttgcgtg tcactaaaaa cttgactgct ttccgcgatg tgctccgcac caagtggccg 2160gcactgcgtg gtccacagga tttttcaaga gaaagccggg gtcacgggtg ccacttgaag 2220ccaaggacag gcgtctggga ttggagaata tatgagaaag ggataccgtc agaggcacat 2280ctcaccgtca aactgaacag ggtctaactg cttccagctg atttgattga gtttgagtgc 2340tgcatagttg aggacctgga tatagtgacg tgtcctgaca ggtgtctttg gacctattag 2400cagtgaatct gacgtcgatc ggctaaagca atcatgttcg attcttatcc tttttttttt 2460gagagtatat gcctgattcg ataaacgttc ctatcctgtt tcctgatgat gcatatatgt 2520tgtttcgatt catatagaat cataccatcc atctattttg tttaaaaaaa aaatttctgg 2580gtggccatgg gcacagcatg cctgttctta agataacgat tccagtaact gttcccttct 2640gtcactgaac tcatatgaat cgagacttaa ctggagctgt tgcgcaggtg atctgttctc 2700tctgctccaa ggaacaggac gtaagttgtc taccaaaacg tactcctaca acagtttttc 2760aggagcacgc atcttttggc tgtactacta ctgctaactg catggaaact gctcattccc 2820atcggcaggt gcaacagaac tgctccagct gtggggcctg catgggcaag tacttctgta 2880aagtatgcaa gttcttcgat gatgatgtaa gcgtactcga atcccagacg atgaacaaag 2940aaactgaact cgatgcgttg tttactgcgt ttcttttttc ccccttcttc ttcacgtaca 3000tactgtactg ctcttggtcc aggtctcaaa gggccagtac cactgtgacg gatgtggaat 3060atgtaggtaa gcaccaccac gctgatggct acgtctaaag acttgacgcg cagaagtgta 3120aaacttctgt cagccgttca aaactgataa attcgggttc ctcgtcttct tgttgtttat 3180gcagaaccgg cggcgtggag aactttttcc actgtgataa atgtggtgag tttctgcgcg 3240gacttctttc tgctaagatt ctgtaaccat gctatgcagc aaagatttca ctcgcgccct 3300tattggtgtc cttgttgccg tccgacaggg tgttgctaca gcaatgtctt gaaggattcc 3360caccactgcg tcgaaagagc aatgcatcac aactgccccg tctgctttga ggtgagagac 3420ctccgtttca acggaacatt cactctgaat gttccaatct cttgatattg agaaggtttc 3480cctctgtttt ttttcacagt atctgttcga ctccacgaag gacatcagcg tgctgcaatg 3540tgggcatacc atccatttgg agtgcatgaa cgagatgaga gcacaccatc agtaagcata 3600tataccgttc tcttcggagc tgagaaacgg tgccacctca caacatcctc ttttagtcgc 3660agtgacctta cagtctcagc cctgtttggt ctttggcagc ttctcatgcc cagtgtgctc 3720gaggtccgcc tgcgacatgt cggccacatg gcggaagctc gacgaggagg tcgcggccac 3780gccgatgcct gacatctacc agaagcacat ggtaagaagc cgaccgccca ctcgttcgtc 3840gtcccgttac atcttttcca cagccatggc tcgctgtttg acgagctctg aacctgtccg 3900gggtgccgat tgctggaact gaacggcaaa tgaacgctgt ggtgtgagtg caggtgtgga 3960tcctgtgcaa cgactgcagc gcgacctcga gcgtgcggtt ccacgtgctg gggcacaagt 4020gccccgcgtg cagctcgtac aacacccggg agacgagggc tgcgtgcccc aggatctgag 4080gcgaaccaga ggccatgtca caaaatgcca gggagatgcc gtccaacgat catctgtctg 4140caggacgttg ctgcgcttaa ggttaaaggc tagcgcgaga ccaggcctgg tagtccagtc 4200ttgagtttgg tgctggagca tttgtaatgt tccggtaaaa tgtaatgcgt ccatgagtgc 4260tgtccaggca gtaagcacac ctgtggatcg gggccggcgc aaggtcccta ggcaagctgc 4320aggattagtg gggctattca tgtttagggc gcgaatgcaa cgaaattacc cgtgggccgt 4380gggctcggta tgtaacagaa ccgattattt ctattacaat aataacatgc agttctattg 4440ggccgagcct aatcaggcac cacgaatgtg aataattgca catggcgcat atatggcggg 4500cagtagatac atataaaatg gagaaaatcc gtttattgcc atcaaaactt atactgatca 4560ctacaatacc atctaaaatg atgtgctccc ttcaaaacca ttggtttata ttttctatcc 4620tttcattgcc attgccgtta cataatggcg catgtggcat atatgggcgg cgtatgtagg 4680ttcaggatgg tcacacgaca tatgacgaga ctacagagac atggtcaaga gaagttcagt 4740ggattgtgac attctgatct aagacttctt aaaattggag ttaataagat cgataatact 4800cgtaccaata atgcacatct tgctttttag aagcctgttt tgaaataacc ccaggattaa 4860gcatgtttgg cccaaagaaa tttttgtgat ggtggtcgac cgagaagttt tcttgactgc 4920atgccagtga ggacaaaaaa acacatatga aagaatcgtg ttggtctgtg agaatagatc 4980aggaagtttt ctcgactgcg cgaccatgga tggttggggt gtttcatcaa ggatccgctt 5040taaacacata cctttttgcc ttggtgatgg ataaggacat accggacata aaggggataa 5100cccttggtgt gtgttttttt gcagacaatg taatgctagt tgatgaaagt cgggcatgag 5160taaatggaaa actagagttg tggcaagaaa ctttataatc aaaaggtttt agacttagta 5220gaactaaaat agaatatatt ggatgcgatt tcagcactac atatgaggaa tgagatctta 5280gtttagaagg tctaggaagg acacctttag atatttagta tcagcctata gagagaccgg 5340gatattaatg aagatgctag ccataaaatc aaagtagagt cagtgaagtg gagtcaagca 5400tctggcattt tatatgacaa agtgggaatt gcaaaagcta aaaagaaagt tttaggacaa 5460cgattagacc ttctatatta tatggaacat aattttagcc tacaaaaaga tgatatgttt 5520agcagataaa tgttgcggta atacatatgt tacgttggat ttgtgaacat acaaaaaggg 5580atcgagttta gaatgatgat atacatgata gactaggggt agcaccagtc gatcgatatg 5640gtttgaatat atccaacgga gacctataga ggtgtcaata tgtcttagga cctgtttgaa 5700agcatccagt ttttaagaaa ttggtttata gaaattaaag tggttccaaa catacaagtt 5760tatgccccag tttatataaa ctggattatc aatttcttaa aaaccaagaa gctagtcttt 5820gctagctaaa accaactttt gcttgtttaa ttacataatg cccttgttgg ttgcatggaa 5880tttacatcta ttgtcgtcgc ttttaagata gaggaagggt atgttagtaa ttgtgtatca 5940aaaaatagaa aatttgtttc ttagaactaa gttccaaaca ccctcaccta acttttttat 6000aaactagttt ctataaactg gagatagaaa ttggttttta ataaaccggt atgctttcaa 6060acaatacctt aggattctaa gatgtgatac caatgagaaa aggaagagga agactgaagt 6120tggtatggga ggtgataata aaatgagtct tgaaaaaatg agatatatct aaagatttag 6180ccttgaatag aaatgcatga aaataactat ccatatgttt gaaccttgac tttgagtttt 6240gttgaatttt taactctagc ctacgccaat ttgtttggga ctaaaaggtt atgttgttgt 6300tattgccgct ataaatggtg ttcaacactt tcttcaagat tatgatattt tgttttctac 6360accaacaata ttactgttgg ggtctccttc tctgccgaag gtcctcagga tgaagaaact 6420gtctttggtt catcttggta agatacgtca aaaggaccga atgccgaagc tgtgacagac 6480atgcagggaa tatagcagag cttcgataag agttaaagct tcggcttaag atgattatga 6540aggtcataca agaaaccaag ccaccaatga aaagacctgt ttatccttaa aatttgtatt 6600agaacaatgt atagatatca gggtcataaa tgtacttttg cttgggcggc gtcccgtgcc 6660tataaataga tgaactgtac ccccgtactg ttgacacttt cattgaaagt cattctcgca 6720ctctctcctt caagcaagac gaaggtacta atgtaatata atgtttgtaa tggttcatta 6780gaatgttatc caaactatgt cattactttg atatagaaaa taaagtgaat tcataagata 6840ataccacatt gtgatattat ctccatgaga aatgaagatc cgctcttctt caccttcgcc 6900caaaaaccat tatctttgag agaagataat tgaaaggaaa ttgggttaac catttcctat 6960aactaatttt ggtgggtgat gatcaacaca aacccatgga ctaactagtt tgtctagaat 7020tcatggatta caggtgcata aggttcaaca caaaccaaga aagaaatccg gttagggaca 7080caattaaaaa tggagcaaag acttga 710627645DNAmaize 27cgactggagc acgaggacac tgacatggac tgaaggagta

gaaagctgct attttcttct 60tacattgtcc actgcgctag ctagctcgca tctacctgga aagctgaaag ctagccagag 120cgctagctag cttcgttcct cgtcgccgcg cgccggccag atgactgctc accagacttg 180ctgcgatgat gccgttgccg ccggcactgc accggctgcc aggaggaggc gcctcaaatt 240gacgaggccg tcggcctcgc tcttgatggc gaggaagcta aggaagaagg ctgccggcag 300caaacgccca agggcggcag cgtcgaggaa gcgcgcgatg gcgatcagga ggaagatgga 360agcgctgagg ctgctcgtgc cactctgcgg ccgagacaac ggctcggtga ccggtggggc 420ggtcgaacga ctggacgagc tcctcatgca cgccgccggg tacatcctgc gcctccagat 480gcaggtcaga gtgatgcagc ttatggtcca tgcactaaat gaccggcccg aggattaatc 540ttcttcccaa gaccatgtga tcttccttct ttaatttctt cttcatcttc ttcgcgtgcc 600tgtgttgcac gaggcagctg tgcgtcggtg tctgggtgca aatca 64528125PRTmaize 28Met Thr Ala His Gln Thr Cys Cys Asp Asp Ala Val Ala Ala Gly Thr1 5 10 15Ala Pro Ala Ala Arg Arg Arg Arg Leu Lys Leu Thr Arg Pro Ser Ala 20 25 30Ser Leu Leu Met Ala Arg Lys Leu Arg Lys Lys Ala Ala Gly Ser Lys35 40 45Arg Pro Arg Ala Ala Ala Ser Arg Lys Arg Ala Met Ala Ile Arg Arg50 55 60Lys Met Glu Ala Leu Arg Leu Leu Val Pro Leu Cys Gly Arg Asp Asn65 70 75 80Gly Ser Val Thr Gly Gly Ala Val Glu Arg Leu Asp Glu Leu Leu Met 85 90 95His Ala Ala Gly Tyr Ile Leu Arg Leu Gln Met Gln Val Arg Val Met 100 105 110Gln Leu Met Val His Ala Leu Asn Asp Arg Pro Glu Asp115 120 125292433DNAmaize 29taaatctgac ctccaaaatg tctctaatga aagtgtctgc gagaaacagt attgctcgac 60cgaggaagaa aggtatttat aacacaccca tcacaaatgg ttggcttaat taaccgcaag 120tgcagaatag atttgcactg ttggttcact taataaaact gcaagtgaaa atatactttt 180tctactatcg gttttgttaa gtgaacctac cgattttgca ctggtgatta tttaagccaa 240cctcatgtga taatatgaat gatttgcacg tggttttatt aagcgaacta acaatgtaaa 300tgtgtttcca atggtggttt ttaagtcggg accgtcattt tactttaact ggcgcgcacc 360gtgctgtttt atacttgact gatgaacctt cgtggtgagt ggaagcggtg tggagcgagg 420gctagctcat gcggccagcc ggcgacattt ctcttgttcc gatcccccgg ccggccaacc 480actcaattaa gtaggtgatc gattggcatg catgcatgga tgcatatcag caaatgcata 540tcatatgcct cgctagctgg ctagtatata tagtggatgt ggatcggatc atgtgacggc 600cgggcggtgg ctgcattgca ttggccctgc atatatgcac ggtgacacaa caacggggcc 660caaataaagg acacgtcgaa ggtgcgcgcc ccagtggcgt ccgacagcgc gttttgacga 720ggaaaagagg gtgcgggcac gcgcgcacgc atatgctcgc ggcatgcagc ctcagtggcc 780gatgacgagt ggcgtgtggt gtggccggcg gccggccggc cgggtgcctg cgtggtgcat 840gttgcttgcc atgcctgcgt gaaatgagcc gtcagcgagc gagctgaggg cgggcatgtg 900gctgcatgtg gccactagtt tggagaacat gcggcatatg ccccggacct tcctgggcgc 960tcaagcaaac accgctctcg tgctcgctct cttgggaaat cgcagatgca tgctacccaa 1020cgtgacctgg atctctttta cgtacgcaca ccctagcgtg ctgctctcct gtgtccccgc 1080ctcctgctag ctgttcacaa tatccacgcg atttaacaaa cagatatgtg tgcatgctac 1140tgcttgtttt cctattcaat atagtaatct gctttattta gagtaccgta cctgtgccgt 1200cagtgccccc aaccccaacg taactacgca cgcacatggc atctaatcta tataagcatc 1260agaccttgct cccttaatct cgcgctgcta ttttcttctt acattgtcca ctgcgctagc 1320tagctcgcat ctacctggaa agctgaaagc tagccagagc gctagctagc ttcgttcctc 1380gtcgccgcgc gccggccaga tgactgctca ccagacttgc tgcgatgatg ccgttgccgc 1440cggcactgca ccggctgcca ggaggaggcg cctcaaattg acgaggccgt cggcctcgct 1500cttgatggcg aggaagctaa ggaagaaggc tgccggcagc aaacgcccaa gggcggcagc 1560gtcgaggaag cgcgcgatgg cgatcaggag gaagatggaa gcgctgaggc tgctcgtgcc 1620actctgcggc cgagacaacg gctcggtgac cggtggggcg gtcgaacgac tggacgagct 1680cctcatgcac gccgccgggt acatcctgcg cctccagatg caggtcagag tgatgcagct 1740tatggtccat gcactaaatg accggcccga ggattaatct tcttcccaag accatgtgat 1800cttccttctt taatttcttc ttcatcttct tcgcgtgcct gtgttgcacg aggcagctgt 1860gcgtcggtgt ctgggtgcaa atcattggct gagtgtgtta ttggtgatat tatttgttcg 1920tatatacaga atatatactc atgcatgcat actgtatgag atgatagagt aaatctagac 1980atatatagtt caaggaaacc tacagccaac agttgtatgc atgtgagggg ggttccttgt 2040ctgtatgtac gcaattgtct attgtgtgac ggttgaaatt gaaatttcgt caatcatcat 2100ttcttcgtct agataacgtg tgtacaaacg gcgagtgttt aaatgaacta gagctaataa 2160ttagtggcta aaattagctg gagacatcca aacaccctaa ctaataattt aactattagt 2220tatttttagt aaattagtca atacttagct agctatttgt tagctagcta attctactag 2280cattttttag ctaactagct attagctcta gtacattcaa acaccctttt agggactaat 2340ttttagtctc tccattttat ttcattttag tcactaaatt accaaatacg aaaattaaag 2400ctctatttta gtttccggta tttgacaatt tag 2433301146DNAmaize 30ggacactgac atggactgaa ggagtagaaa atccatccat tcccctcgcc aagccgccac 60ggcctgactt tccctcccgc acacccgcga ccatacaggc aagtcaggca tacaccaaca 120acgctcgtcg tgcacctcgc gcctcaggtc accccaccaa attcctcttg atacgccgaa 180tttcttttgc taattctgct acctcctgtc gctaagccac catattcagt ctaacccctg 240ctctgagctc acctgattgg cggctccgtt cggcctctgg gcctgggtgt accgactacc 300gagggctctt tcgaaatgtc aattgggtcg agtttggtgg gctacgtgaa gcatggatga 360atttcccggc tggaagcggg aggcggcagc agcatccggg gccggagcac ctgtcgccga 420tgacgccgct cccgctggcg cggtaggggt cggtctactc gctcacgttc gacgagttcc 480agagctcgct cggtggggcc accaaggact tcggatccat gaacatggac gagctcctcc 540gcaacatctg gtcggcggag gagacacaca gcgtcacagc tgcggaccat gccgcgcggg 600cgccgtacgt ccagtgccag ggctcgctca ccctcccctg cacgctcagc cagaagaccg 660tcgacgaggt ctagcgtgac ctcgtgtgca acggtggagg accctccgac gaggctgtgg 720cgccgcccca ccggcccaac ggcagccgac gctcggggag atcatgctgg aggagttcct 780cgtccgcgcc ggcgtggtga gggaggacat gatggcggcg gcgcccgtac caccagcgcc 840gggttgccca ccacctcatc tgcaaccgcc aatgctgttt ccacatggca atgtgtttgc 900tcccttagtg cctccgctcc aattcgggaa tgggtttgtg tcgggggctc tcagtcagca 960gcagggaggt gttcttgagg ccccggcggt atcgccgcgg ccggtgacgg caagcgggtt 1020cgggaagatg gaaggagacg acttgtcgca tctgtcgcca tcaccggtgt cgtacgtttt 1080tttgtgctgg tttgagggga aggaagccac cagctgtgga caaggtggtt gagaggaggc 1140aacgcc 114631108PRTmaize 31Met Asp Glu Phe Pro Gly Trp Lys Arg Glu Ala Ala Ala Ala Ser Gly1 5 10 15Ala Gly Ala Pro Val Ala Asp Asp Ala Ala Pro Ala Gly Ala Val Gly 20 25 30Val Gly Leu Leu Ala His Val Arg Arg Val Pro Glu Leu Ala Arg Trp35 40 45Gly His Gln Gly Leu Arg Ile His Glu His Gly Arg Ala Pro Pro Gln50 55 60His Leu Val Gly Gly Gly Asp Thr Gln Arg His Ser Cys Gly Pro Cys65 70 75 80Arg Ala Gly Ala Val Arg Pro Val Pro Gly Leu Ala His Pro Pro Leu 85 90 95His Ala Gln Pro Glu Asp Arg Arg Arg Gly Leu Ala 100 10532122PRTmaize 32Met Leu Glu Glu Phe Leu Val Arg Ala Gly Val Val Arg Glu Asp Met1 5 10 15Met Ala Ala Ala Pro Val Pro Pro Ala Pro Gly Cys Pro Pro Pro His 20 25 30Leu Gln Pro Pro Met Leu Phe Pro His Gly Asn Val Phe Ala Pro Leu35 40 45Val Pro Pro Leu Gln Phe Gly Asn Gly Phe Val Ser Gly Ala Leu Ser50 55 60Gln Gln Gln Gly Gly Val Leu Glu Ala Pro Ala Val Ser Pro Arg Pro65 70 75 80Val Thr Ala Ser Gly Phe Gly Lys Met Glu Gly Asp Asp Leu Ser His 85 90 95Leu Ser Pro Ser Pro Val Ser Tyr Val Phe Leu Cys Trp Phe Glu Gly 100 105 110Lys Glu Ala Thr Ser Cys Gly Gln Gly Gly115 120331376DNAmaize 33tagaatagcc agcatcgaca aattacttac aaatagaaac attacctgtt tcctcccacg 60cgacctcgcg gccaactccc ggttcttgat catccggcgt tgcctcctct caaccacctt 120ctccacagct ggtggcttcc ttcccctcaa accagcacaa aaaaacgtac gacaccggtg 180atggcgacag atgcgacaag tcgtctcctt ccatcttccc gaacccgctt gccgtcaccg 240gccgcggcga taccgccggg gcctcaagaa cacctccctg ctgctgactg agagcccccg 300acacaaaccc attcccgaat tggagcggag gcactaaggg agcaaacaca ttgccatgtg 360gaaacagcat tggcggttgc agatgaggtg gtgggcaacc cggcgctggt ggtacgggcg 420ccgccgccat catgtcctcc ctcaccacgc cggcgcggac gaggaactcc tccagcatga 480tctccccgag cgtcggctgc cgttgggccg gtggggcggc gccacagcct cgtcggaggg 540tcctccaccg ttgcacacga ggtcacgcta gacctcgtcg acggtcttct ggctgagcgt 600gcaggggagg gtgagcgagc cctggcactg gacgtacggc gcccgcgcgg catggtccgc 660agctgtgacg ctgtgtgtct cctccgccga ccagatgttg cggaggagct cgtccatgtt 720catggatccg aagtccttgg tggccccacc gagcgagctc tggaactcgt cgaacgtgag 780cgagtagacc gacccctacc gcgccagcgg gagcggcgtc atcggcgaca ggtgctccgg 840ccccggatgc tgctgccgcc tcccgcttcc agccgggaaa ttcatccatg cttcacgtag 900cccaccaaac tcgacccaat tgacatttcg aaagagccct cggtagtcgg tacacccagg 960cccagaggcc gaacggagcc gccaatcagg tgagctcaga gcaggggtta gactgaatat 1020ggtggcttag cgacaggagg tagcagaatt agcaaaagaa attcggcgta tcaagaggaa 1080tttggtgggg tgacctgagg cgcgaggtgc acgacgagcg ttgttggtgt atgcctgact 1140tgcctgtatg gtcgcgggtg tgcgggaggg aaagtcaggc cgtggcggct tggcgagggg 1200aatggatgga tatgtgtcgc caccaaggag tcgtgtgggg gagtttaaaa cgtcgccagg 1260ctcgaggtcg cacatggtgt tgggtttggg tgcgtgctgg gtcataaaag ctgaaaggga 1320attaggctta cacctatttc ctaaatgatt ttggtggttg aattgtccaa cacaaa 137634686DNAmaize 34attcccgtct tacctagcgc tagggttagt acgcgtccac ggcgacgacc tctgcgcgga 60gtgtgctccg attggctggc ctcctcgatc ctccttcccg cgaacgcacg cgcgcgcgag 120ggagaggttg agacttgaga gatagacgaa agacgaaaca agggaaggag acgccgtgct 180cgcctattgg ccgccgcctc cgctccttcg cgcccaatgg cttctgcagc atatcaatat 240catgcagcat agcagtactc agacccttac tacgcaggcg ttgttgctcc ctatggaagt 300caagatgtgt gtccgaggag cctgtctatg tgaacgccaa gcagtaccgc ggcattctaa 360gacggcggca gtcacgtgcc aaggccgagc ttgagagaaa gcgctggtca agcaagaaag 420ccgtatcttc acgagtcccc gtcatcagca cgcgatgacg aggagggcga gagggaacgg 480tggacgcttc ctaaacacga agaagagtga ccgtgtccct cctgatgact tgatacagct 540acgacgacac aacgaggctt gaagaggtag cggtctggct ggcatcctag agcagcggtt 600tctgtccaca ggcacgtgca tctgagaccg gatccgtagc tccactccac agcatatgcg 660cagcccatcc atctcgtgca cacttg 6863550PRTmaize 35Met Gln His Ser Ser Thr Gln Thr Leu Thr Thr Gln Ala Leu Leu Leu1 5 10 15Pro Met Glu Val Lys Met Cys Val Arg Gly Ala Cys Leu Cys Glu Arg 20 25 30Gln Ala Val Pro Arg His Ser Lys Thr Ala Ala Val Thr Cys Gln Gly35 40 45Arg Ala5036922DNAmaize 36cgactggagc acgaggacac tgacatggac tgaaggagta gaaaaaaaac ccaaatcaaa 60tttcgccttc gtcgtcgtct tatcgtctca gatttgactc catgtcggcg gcgctcgcgg 120tgacggacga ggtggccctg ccgatccggg cggtggggga tctagcggcc gccgccgagg 180tctcgcggga ggaggtcgcc gtcatcaccc agtgcgcggc gctcggtggg aagttgcctt 240ttgaagatgc atcagttggt gcggttcttg cagtcattaa aaacgtggaa agcttgaggg 300agcaattggt tgctgaaatc aggcgggtgc tgaaagctgg tggaagagta ttggtgcaga 360gccctgcacc ctcatccagt cagaagccga acactgatat tgagcgcaag ttactgatgg 420gtggatttgc tgaagtgcaa tcttctgctg caagctcgca ggatagcgtg caatctgtta 480cagttaaggc aaagaaggct agctggagca tgggctcttc ttttcccctt aagaaaacaa 540caaaagccct tcccaagatt caaattgacg acgactctga tctgattgat gaagacagtc 600tcttgactga ggaggacctg aagaaaccac aacttccagt tgttggggac tgtgaggtgg 660gggcagcaaa gaaagcatgc aagaactgta cttgtggcag ggctgaggcc gaggagaagg 720ttgggaagct ggagctcact gcggagcaga tcaataaccc tcagtcagct tgtggcagtt 780gtgggttggg tgatgccttc cgctgtggaa cctgtcccta cagaggtctt ccaccattca 840agcctggcga gaaggtttcc ttgtctggca acttccttgc tgctgacata tgatggcatc 900gccaacatcg gcaaaacaag ga 92237263PRTmaize 37Met Ser Ala Ala Leu Ala Val Thr Asp Glu Val Ala Leu Pro Ile Arg1 5 10 15Ala Val Gly Asp Leu Ala Ala Ala Ala Glu Val Ser Arg Glu Glu Val 20 25 30Ala Val Ile Thr Gln Cys Ala Ala Leu Gly Gly Lys Leu Pro Phe Glu35 40 45Asp Ala Ser Val Gly Ala Val Leu Ala Val Ile Lys Asn Val Glu Ser50 55 60Leu Arg Glu Gln Leu Val Ala Glu Ile Arg Arg Val Leu Lys Ala Gly65 70 75 80Gly Arg Val Leu Val Gln Ser Pro Ala Pro Ser Ser Ser Gln Lys Pro 85 90 95Asn Thr Asp Ile Glu Arg Lys Leu Leu Met Gly Gly Phe Ala Glu Val 100 105 110Gln Ser Ser Ala Ala Ser Ser Gln Asp Ser Val Gln Ser Val Thr Val115 120 125Lys Ala Lys Lys Ala Ser Trp Ser Met Gly Ser Ser Phe Pro Leu Lys130 135 140Lys Thr Thr Lys Ala Leu Pro Lys Ile Gln Ile Asp Asp Asp Ser Asp145 150 155 160Leu Ile Asp Glu Asp Ser Leu Leu Thr Glu Glu Asp Leu Lys Lys Pro 165 170 175Gln Leu Pro Val Val Gly Asp Cys Glu Val Gly Ala Ala Lys Lys Ala 180 185 190Cys Lys Asn Cys Thr Cys Gly Arg Ala Glu Ala Glu Glu Lys Val Gly195 200 205Lys Leu Glu Leu Thr Ala Glu Gln Ile Asn Asn Pro Gln Ser Ala Cys210 215 220Gly Ser Cys Gly Leu Gly Asp Ala Phe Arg Cys Gly Thr Cys Pro Tyr225 230 235 240Arg Gly Leu Pro Pro Phe Lys Pro Gly Glu Lys Val Ser Leu Ser Gly 245 250 255Asn Phe Leu Ala Ala Asp Ile 260385083DNAmaize 38gctgtaccag ttgaggtact ccttgacgtc ctcgtacatg gtgggcgcca gcgggtgcca 60gatgccggag tcgaggtaga gcacggggtc gtcgtacttg atgccggcgc ccctaagcac 120cggcaagtag gatccggcga tcatcttgag gaagttctgg aggttgtccg ccgagccgcc 180gagccagaac tggaggctga ggatgtacag ccaggcgtcc tgcgccttgt cggagggcag 240gtacttgagc accttgggca gcgtgcgcac gagcttgagc atgctgtcgg cgaagttgct 300ggagttggac ttgctgcgct tgaagagctg gaagaagggg ctcttggact gccccagctg 360cgacatgctg aaggagccga gcttgttgag gcgcatgacc tcgggcatgg aggggaagac 420aaggacggcg tccatgcggt cgcgctcctt ctcggccgcg gccttgacct tgagcgccag 480ctcctcgacg aagatgaggg agccgatgaa gacgttgacg tcggcgaggt cggcgcggaa 540ggtagcccac gacctcgaac gacgcggcgc ggcgcgggtc agcgttgagc tgctgcacgg 600cggccgtgac ggacgactgg tactgcgcct ccagcacgac gtagacgacc ttgacccgag 660gcaggccccg cgggtcggcc ggcaccacgc gccgcacctc gggcttggtc tgcgtgaaca 720agccgttgcc gccggcgacc gcgcaccgga tggcgccggc gcgccgcggc tgctggcgac 780ggctgctcag gaggaacgag tgcagcggca cgggcgccgc caggagctgc ttctgcgccg 840cggcggcgaa tggggtggac actagcgacg acgacatggc gcctgctcac aggacggagc 900cggcgggcgg agaaacgcgc gcctggacac tgacgcgacg ctcgagcgca gtaagtaaaa 960aaaaatctac actagactac tagagtaagg cgcctgttct tggctcgtgg ctggacaatt 1020gttcttggcg gccgccgtcc ctcggaaaca gagcagggaa aggagaagaa gcgagcaggg 1080gagcgcggga ggcgggaaaa tgtataggtt gtccgtgtcc acgtccttcg tctcaattaa 1140gaagaggcat ccaggctcac aaaatcaatc tgaaaacaca tgcactgatg cacacttgtg 1200tttgtgtaga ggcgcttata tatcatccaa aagacaagtc actcacacgc aaattcgcat 1260tggctaacag aagctatttg gaatgcagtt cagtcgacta acaacgtagg tacccccgtc 1320tccttgtttt gccgatgttg gcgatgccat catatgtcag cagcaaggaa gttgccagac 1380aaggaaacct gccaatcgga gaagcagcag cagtgaacgt tcaagatcca gagtacaatc 1440gacagacata ttttgatctc ctcgagaatt ctatcagggg aggagacgag tagaactgtt 1500ttaccttctc gccaggcttg aatggtggaa gacctctgta gggacaggtt ccacagcgga 1560aggcatcacc caacccacac tgcaaagaaa aatcaaggat catttacaga tatcaccaga 1620cgtgataggt aacctagtcc gagtgaacgt atgaaatttc acgagggggc acaagtgcca 1680cctgtaagca atacttacac tgccacaagc tgactgaggg ttattgatct gctccgcagt 1740gagctccagc ttcccaacct tctcctcggc ctcagccctg ccacaagtac agttcttgca 1800tgctttcttt gctgccccca cctcacagtc cccaactggt gaaaacatca gtgaaaacat 1860cacttaactg tttaggatcc aaacctaaac tggctattgc ttacggagtt gaactaagtt 1920gacgggtttt gttgctctac caactggaag ttgtggtttc ttcaggtcct cctcagtcaa 1980gagactgtct tcatcaatca gatcagagtc gtcgtcaatt tgaatcttgg gaagggcttt 2040tgttgttttc ttaaggggaa aagaagagcc catgctccag ctagccttct ttgccttaac 2100ctacaagtgg ttcaaattag cacaaaaact aaagcctgca cagcaaaact aacatactat 2160aacacatgat cttagaccac tcactgtaac agattgcacg ctatcctgcg agcttgcagc 2220agaagattgc acttcagcaa atccacccat cagtaacttg cgctcaatat cagtgttcgg 2280ctaacggaga caatcataaa aaaattaaga actttaaatc gacattgcaa gagaaacgag 2340acaacaaaga cagattctga taagttaata ccttctgact ggatgagggt gcagggctct 2400gcaccaatac tcttccacca gctttcagca cccgcctgat ttcagcaacc aattgctccc 2460tcaagctttc cacgttttta atgactgcaa gaaccgcacc aactgatgca tcttcaaaag 2520gcaacttccc acctgatgca tggcagaaca atagtttggt cacggttttg tgataacaca 2580cacacacaca cacacacaca cacacacaca cacacacaca cacacacggc atagcactag 2640caaagcataa cacaaattaa aaatcgaaca ttattgttta atagaggctc ccaaaatcag 2700gaatgctagc acttggctta ttcataaaca cacacatcca taatcaggaa gcatacatta 2760ctgaaccatt aaatttaata ataaaaattc agatgttgaa tccatggctg aaattttctg 2820ttccttttga aagtataatc ctaactttca tctccggctg acctggtaat atcttctagc 2880tccttttacc ttatattttt ttcagttgct tgagaaatag cggtaggaaa attgacacat 2940gtcattcgta aatccatggg acttagagca actccaagag cttcctaaga aattgttccc 3000caaaacatca tatagggggc tgctgaaaaa aatccactaa gagcaactcc aaatgagtgc 3060tagaaaattt ccccaaaaaa tgattattgg ggatatgtta aaaaatttta ggggtgaatt 3120atcatgtata ctccaacgat tccgttaaac aaatgcgact caatctcagc cacagtctga 3180gtcttacaga cacacacaaa acctaacatg ccggtggcag ccacattatc acacaccgga 3240acaaataact ttgaggcaaa aacacattat gcaagcagag aaacaccaga acagactccc 3300agctgttgaa gtgcaaatgt gttttctata tttgagttac ttgctggtaa atcccgatcg 3360ggaatgtaat aatcggggag ttgcattagc acttttgcag caagctaagc caactggttg 3420ggaatgtcaa gcattcttga gcaggagtac tagtcaagtt aacaggcttc agatcccatc 3480caatcattgt cacatttgaa tataacttga gcgggtagaa aaaatatcat aacaaaggca 3540tcatggactg aatcctaaac atcataacga aggcatcatg gactgaatag cgatcatcat 3600aacaacggca ggaaacagac tcccaactga atcatggtta acatggactg aattgtggtg

3660gcactgcatg cagtgcgaga tgcatcatat ccaggtcaat tcaggttagc aaatgcaagg 3720ccacaggagt tgccgccagg gaggaggctc taggcgaggt cacgggagtt gcggtggaag 3780ttgctgcgga ttggggaaga cctttgctcg ccaatatttg agggagagtg gagctcggat 3840gcgggacgct gataatttgg gggaaggaaa ggggaactat tgggtggaga attttttgtt 3900tttcacccca aaacatgttt ttgggttggt tttagcgttc ttctggagat gctcttaagc 3960aactagcaca tgagacatgg catagatatc aagaactgca aggagaggtt caagttcaaa 4020tctgaagaag tctgcaaggg catgtccaca gattcagcgg ttttggagtt gggaaataac 4080ttcagctttc ttttcttttt gttgttgaga cgttcttttc tttttctttt ttttttgttg 4140ttgttgaggc gtcagctcga cgttttcatt ctacacatta gaaagtggca gtagcgcaag 4200agataccaca gggccaaaac tactagtggt actgaaagtt ttcattcgaa gaatcagtaa 4260gtggcactat cacaggaaga aacattgcaa ggccaaactt ggcgtccact gactgcgctt 4320caatattact tgagcaactt gctagcctcc cgatcccgga aggatggttt gataaactaa 4380ttctctaatt gaagtgggaa cccttaagaa ccaaacgtcc actactccaa atttgattgc 4440aaaagaaaaa agaatctagc ccattccgcg gaatcacgcc agaaggctcg ctaattgaag 4500catgcaagca aggcagcaaa gagaacagca cgcatcgacg ggttcctgca tccacaagca 4560cgaacttggc aacttgccat ggtcgcctcg agggaaagaa atagaagaaa aaatggaaag 4620agggcaagac gggggcgaaa ccagctaagc tcaccgagcg ccgcgcactg ggtgatgacg 4680gcgacctcct cccgcgagac ctcggcggcg gccgctagat cccccaccgc ccggatcggc 4740agggccacct cgtccgtcac cgcgagcgcc gccgacatgg agtcaaatct gcacacgagc 4800acacgccgag aaccagaaga gactcggtga aaggagtatc cccgaagaga aaaggaatta 4860gggttaatcg agggagggtt ttatctgcac gcccccggat tcatcacgcg actgctacct 4920gagacgataa gacgacgacg aaggcgaaat ttgatttggg ttttgcctgg cctcctctcc 4980tctcgaagct tcacaacacg ccgagttatt tgatattgta acaatctcgt cgcgcggctt 5040caccagttat tactccgtag ttatacttcg ctagtttagt att 508339819DNAmaize 39catccatcca tccatccatt tccaatccca atcccaatcc caccagtgtc cagtgctcgg 60ggaaccgaca cagctcctca gcagagtagc cagcacgaca agcccgatca gcagacagca 120ggcatggcac tcgcggaggc cgacgacggc gcggtggtct tcggcgagga gcaggaggcg 180ctggtgctca agtcgtgggc cgtcatgaag aaggacgccg ccaacctggg cctccgcttc 240tttctcaagg tcttcgagat cgcgccgtcg gcgaagcaga tgttctcgtt cctgcgcgac 300tccgacgtgc cgctggagaa gaaccccaag ctcaagacgc acgccatgtc cgtcttcgtc 360atgacctgcg aggcggcggc gcagcttcgc aaggccggga aggtcaccgt gagggagacc 420acgctcaaga ggctgggcgc cacgcacttg aggtacggcg tcgcagatgg acacttcgag 480gtgacggggt tcgcgctgct tgagacgatc aaggaggcgc tccccgctga catgtggagc 540ctcgagatga agaaagcctg ggccgaggcc tacagccagc tggtggcggc catcaagcgg 600gagatgaagc ccgatgccta gtagtggcga ttgcgaccag tgtttaaccc atgacgcagc 660gccgtcacag atgtcccgtg tggtcttgcg ctttagcaat ttctctctgg agggagcgtg 720tattgttatc ttgtgatcga gagcctgtgt gctgcctttg cttcttgtga ttatatagct 780actgaataaa gatgtagcgt tcttcaaaaa aaaaaaaaa 81940165PRTmaize 40Met Ala Leu Ala Glu Ala Asp Asp Gly Ala Val Val Phe Gly Glu Glu1 5 10 15Gln Glu Ala Leu Val Leu Lys Ser Trp Ala Val Met Lys Lys Asp Ala 20 25 30Ala Asn Leu Gly Leu Arg Phe Phe Leu Lys Val Phe Glu Ile Ala Pro35 40 45Ser Ala Lys Gln Met Phe Ser Phe Leu Arg Asp Ser Asp Val Pro Leu50 55 60Glu Lys Asn Pro Lys Leu Lys Thr His Ala Met Ser Val Phe Val Met65 70 75 80Thr Cys Glu Ala Ala Ala Gln Leu Arg Lys Ala Gly Lys Val Thr Val 85 90 95Arg Glu Thr Thr Leu Lys Arg Leu Gly Ala Thr His Leu Arg Tyr Gly 100 105 110Val Ala Asp Gly His Phe Glu Val Thr Gly Phe Ala Leu Leu Glu Thr115 120 125Ile Lys Glu Ala Leu Pro Ala Asp Met Trp Ser Leu Glu Met Lys Lys130 135 140Ala Trp Ala Glu Ala Tyr Ser Gln Leu Val Ala Ala Ile Lys Arg Glu145 150 155 160Met Lys Pro Asp Ala 16541917DNAmaize 41cgttgtcgga acgtcccgtc gatgttcgga aacgagcacg acccgtcgac tcctgcttct 60tggcggagaa gaaaggggac gacgagcgag cgttttgact ttgatttcct cgctaaaacc 120ggccgctgtt tttgctttcc gcgcgagccg cccacgttat tgactgacgc tggtgcgaga 180gcgctgctgc ctctgcggtt gccgtctgcg ctccagtggt agccgagaat attgttaggt 240ccgtaggatc agatttgcta cgtactaaaa aaattcctta aactttaatt gtgtattttt 300tttaaaaaaa attatagcat ttatcagcaa caaaactcta aaaacatgtt tagttcgctg 360cttaatttat cacatattgt ctaaatttta tatataaatt atttaattcg aacgactaac 420cagaacccag acctacaata aatttgcccc cgctgctgcg ctccccagct ccccaagtcc 480ctaacccgcc ctcgctttgt cgccgcggca cacggttttg gccgtggaca ggacagttgc 540accctagccc cattggccga ttccgagcta ggaaggagta tatgcgtatc ggtagtaacc 600gaggagcaac gcaacatgtc cacagcccgc gcgctggtaa cgggtccatg cgtcttggct 660catcaggtgc cccaagggac gccctcgccc ggtctgaccc acctatataa acttaaaact 720tgtgccccaa catcatcagt tcgtatcaca cccaacctcc cactgtaaaa aagagcagcg 780gaacgtgcgt gcatccatcc atccatccat ttccaatccc aatcccaatc ccaccagtgt 840ccagtgctcg gggaaccgac acagctcctc agcagagtag ccagcacgac aagcccgatc 900agcagacagc aggcatg 91742384DNAmaize 42tcgactggag cacgaggaca ctgacatgga ctgaaggagt agaaaatcac ctagctagaa 60aggagagcac cgagcgctgc accactactg ctgatatgag cacctgaacc ttctgggcaa 120ccacatccgg tccctgcccc tgatcatccg cagcagccat ggcgcagcag caggagaaga 180agcagcagca gagggggaag ctgcagaggg tgctaaggga gcagaaggct cggctctaca 240tcatccgccg atgcgtcgtc atgctcctct gctggagtga ctgatccatc tcaagcatgc 300atgataaacc tgtgctcttt ttttttcctt ctgttttttc ccctcttttt cccatccttt 360tcaccttgcc actttggtgg gcga 3844341PRTmaize 43Met Ala Gln Gln Gln Glu Lys Lys Gln Gln Gln Arg Gly Lys Leu Gln1 5 10 15Arg Val Leu Arg Glu Gln Lys Ala Arg Leu Tyr Ile Ile Arg Arg Cys 20 25 30Val Val Met Leu Leu Cys Trp Ser Asp35 4044788DNAmaize 44cgactggagc acgaggacac tgacatggac tgaaggagta gaaaaactaa cacttcacgt 60gcccccatcc ttttccgcct caagtcaagt gttcacggtc catcctctcg agagtctagg 120cccttctccc gaagccgcag acgcagaaaa cggctctgca tatggaggcg aagaagaagc 180cgtcggcccc cgccgccgtc ggagccgcgc cgccgccgcc gggtaacggg tacttcagca 240ccgtcttctc cgcgccgact gcgggaagcg caagtgacgc aaagcatgcg gacttgtaca 300cgatgctgaa caagcagagc tccagagggc agaatggcag agatggcaaa tcccacagcc 360gccctactta caaggatggc aaacatgctc atccaaatga gccatcagaa tctccttact 420ttggctcatc cgtgcattac ggtggtcggg agttctacag cagcgtttta cggaagcaac 480cagccaatga accccatacg gattacaagg gggacaaccc ggatggctct gctaccagag 540gtgattggtg gcaaggttca ctttattact gaataatctg ctgggacctc tcccttttgt 600gaacaaggaa taaaaggggt agagctgaga atggtttgtt gtagtgttgg aagtgttgac 660gcgagccgtc aagcatcgat caatagtaat agttgtaata gttgaaagct gcgtcgtgac 720tacaagcatc ctgttggtgg aggcagtatt ttagatccat catcacgcct ggacagatgt 780gggtgtcc 78845136PRTmaize 45Met Glu Ala Lys Lys Lys Pro Ser Ala Pro Ala Ala Val Gly Ala Ala1 5 10 15Pro Pro Pro Pro Gly Asn Gly Tyr Phe Ser Thr Val Phe Ser Ala Pro 20 25 30Thr Ala Gly Ser Ala Ser Asp Ala Lys His Ala Asp Leu Tyr Thr Met35 40 45Leu Asn Lys Gln Ser Ser Arg Gly Gln Asn Gly Arg Asp Gly Lys Ser50 55 60His Ser Arg Pro Thr Tyr Lys Asp Gly Lys His Ala His Pro Asn Glu65 70 75 80Pro Ser Glu Ser Pro Tyr Phe Gly Ser Ser Val His Tyr Gly Gly Arg 85 90 95Glu Phe Tyr Ser Ser Val Leu Arg Lys Gln Pro Ala Asn Glu Pro His 100 105 110Thr Asp Tyr Lys Gly Asp Asn Pro Asp Gly Ser Ala Thr Arg Gly Asp115 120 125Trp Trp Gln Gly Ser Leu Tyr Tyr130 135462631DNAmaize 46aaagcttaca cttcataaga gattcatagt tttatcttac agccatcgtt gtcaacctca 60actaccatgc aatccgtttg ggattcaact agcaagtaag gggatgtttg tttgggttta 120taatctgtct ggattatata atctaacaac ttttgaacta acacttagtt caagaattgt 180tggattatat aatctaggca gattataatc ccaaacaaac acttcctaag tcttgtacag 240gctatagaga ttatttttcc agaatggagg agggataatg acaagaccta aaagaaagtt 300atgtttatgg aaaacaaaaa aatggagcca ggataatgac acaaaagaaa ggtatgtttt 360ctggaataaa aaaaattaaa tatatatttt gaacttccta agactggaac atgataccta 420agctggacag atgatcaagg acagttttac ccctggagac agaaaaactt ataagactta 480gctttctaca tcatatcctg ttttgtatgt ctcataatta ggttccttgt attaagacga 540ccaacctatc atttgttata caaaattcga acgactgctg aagtctcgaa gtatatagtc 600taggctgatt aaaatgtaag tatgggttaa agtgctgctg gtaacaaact aaatacaact 660gtatgatgtt gttgacaaca agacataact caaaatggga gcaccaacaa agtgactggc 720accggtgatg caagcataac ctaaacacaa ctaatggaaa acgcgaattg gaaactatga 780aagtgtccca tatatggtat accttgttca caaaagggag aggtcccagc agattattca 840gtaataaagt gaacctgaaa gtgaagtcta gcaagtcagt gtatgagcgt ccatgtatat 900actgaagata atacacaaat tgatgcaatg ataccttgcc accaatcacc tctggtagca 960gagccatccg ggttgtcccc cttgtactgg atttaaaatt caaaataaac attagactta 1020agcgctccaa atgatctgta ctacgtatat ataaaaaggt tctacgtaca tccgtatggg 1080gttcattggc tggttgcttc cgtaaaacgc tgctgtagaa ctcccgacca ccgtaatgca 1140cggatgagcc aaagtaagga gattctgatg gctcatttgg atgagcatgt ttgccatcct 1200tgtaagtagg gcggctgtgg gatttgccat ctgagcacga atttaaactt ccatagttaa 1260aatcagtgct ccagattaat tctaagctaa gatggtgaga aaaggtttta agtatcgttg 1320tgcttatgaa cgcgacctaa atcgaagaga aacgtcaaat tgacaagagt acccagaact 1380acctctgcca ttctgccctc tggagctctg cttgttcagc atcgtgtaca agtccgcatg 1440ctttgcgtca cttgcgcttc ccttgaatgc aaaacaaagt caaaatgtca acgtcatatc 1500caaatagatt ttgcataatc ctataggtcc tctattatca aaatcacccc tcatcagaat 1560taaattggga aaccgttgaa gtccctccac aaatcgcaac atagtaacgg actctttcat 1620caaatcgcac cagctcacta atcatgcaaa aaaattacta agaccccagg aatctgagag 1680caaaatatca gaacgatggc gtgaagagac ggcccgtacc gcagtcggcg cggagaagac 1740ggtgctgaag tacccgttac ccggcggcgg cggcgcggct ccgacggcgg cgggggccga 1800cggcttcttc ttcgcctcca tatgcagagc cgttttctgc gtctgcggct tcgggagaag 1860ggcctagact ctcgagagga tggaccgtga acacttgact tgaggcggaa aaggatgggg 1920gcacgtgaag tgttagttgt aggcggcggc ggccggcggg gaaggaagca gttggttgtt 1980cgcctcgtgg cgtcctgctt cggccaacat ctgtgccggc atttaaaggc ctcgacggag 2040cgactcggtt tcgctatttc ggagatctta aggggctgaa tggagaaaat tgtgtttagc 2100tttcatccac atccatccaa cctgcagtga gacttgcaga gtgcagactc ccgtattaca 2160gggacggtcc tgaataagtt agtagtttta tttcagagat tcaacgatgt tagtatacga 2220attatttaga cacgtttgga atcatccagt tttttagcaa tctgatttat aaaaagtcaa 2280gtgcttccaa acatatcaga ttatgcttcg gttcttaaaa atcggactgc ctcttccata 2340actaaaatta gtttttaact tggtagaaat tagtgattgt aaccgctctt aggtctatgc 2400atgtgattcc ctcgatgtct ttatcccatt tgaatattta attattattt aaaaatttta 2460gattaaaaat attaattcaa tctatattta aaattggcaa caaagaaaaa caaagagaat 2520aatagaatca attacttttg gaatagagta aggattgaat ttgtctttgt gtataacaaa 2580gctagaagtt ggtttccaag aactagcctc taacacgcac acctattttt t 2631