Universal primer sequence for multiplex DNA amplification

Patent 6207372 Issued on March 27, 2001. Estimated Expiration Date:

February 10, 2018. Estimated Expiration Date is calculated based on simple USPTO term provisions. It does not account for terminal disclaimers, term adjustments, failure to pay maintenance fees, or other factors which might affect the term of a patent.

Abstract Claims Description Full Text

Patent References

Method for amplifying unknown nucleic acid sequences
Patent #: 5104792
Issued on: 04/14/1992
Inventor: Silver, et al.

Nucleotide sequence encoding the enzyme I-SceI and the uses thereof
Patent #: 5474896
Issued on: 12/12/1995
Inventor: Dujon, et al.

Methods for adapting nucleic acid for detection, sequencing, and cloning using exonuclease
Patent #: 5518901
Issued on: 05/21/1996
Inventor: Murtagh

Universal primer sequence for multiplex DNA amplification Patent #: 5882856
Issued on: 03/16/1999
Inventor: Shuber

Inventor

Shuber, Anthony P.

Assignee

Genzyme Corporation

Application

No. 983466 filed on 02/10/1998

US Classes:

435/6, Involving nucleic acid435/91.1, Polynucleotide (e.g., nucleic acid, oligonucleotide, etc.)435/91.2, Acellular exponential or geometric amplification (e.g., PCR, etc.)536/24.3Probes for detection of specific nucleotide sequences or primers for the synthesis of DNA or RNA

Examiners

Primary: Jones, W. Gary
Assistant: Tung, Joyce

Foreign Patent References

628640 EP 12/25/1994
89/12684 WO 12/25/1989
WO 93/18177 WO 09/25/1993
WO 93/18178 WO 09/25/1993

International Classes

C12Q 1/6/8
7/
C12P 19//34
7/
C07H 21//04

Abstract

The present invention provides primer that allow simultaneous amplification of multiple DNA target sequences present in a DNA sample. Further provided are methods for detecting multiple defined target DNA sequences in a DNA sample. Methods for high-throughput genetic screening are also provided. In yet another aspect, the present invention provides single-stranded oligonucleotide DNA primers for amplification of a target DNA sequence in a multiplex polymerase chain reaction.

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