Open AccessEfficient High-Throughput Resequencing of Genomic DNA
Author(s) -
Raymond D. Miller,
Shenghui Duan,
Elizabeth G. Lovins,
Ellen F. Kloss,
PuiYan Kwok
Publication year - 2003
Publication title -
genome research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 9.556
H-Index - 297
eISSN - 1549-5469
pISSN - 1088-9051
DOI - 10.1101/gr.886203
Subject(s) - biology , molecular inversion probe , genetics , primer (cosmetics) , dna nanoball sequencing , in silico pcr , dna sequencing , genomic dna , computational biology , snp genotyping , primer dimer , genome , polymerase chain reaction , single nucleotide polymorphism , multiplex polymerase chain reaction , dna , gene , genomic library , genotype , base sequence , chemistry , organic chemistry
Targeted resequencing of genomic DNA from organisms such as humans is an important tool enabling experimental access to variation within the species and between similar species. Taking full advantage of the reference genome sequences in designing robust, specific PCR assays and using stringent conditions, resequencing can be done efficiently without purification of the PCR product. By using a 10-fold greater amount of one primer when setting up the PCR initially in a new version of asymmetric PCR, one simply adds the rest of the sequencing reagents at the end of PCR and allows the sequencing reaction to proceed, with the excess PCR primer serving as the sequencing primer. We demonstrated that this streamlined protocol can be used with PCR products up to 1300 bp and had up to a 97% success rate in high-throughput analysis of allele frequencies for >30,000 single-nucleotide polymorphisms (SNPs). SNP primers and characterization results are provided at http://snp.wustl.edu.
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