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Segments missing from the draft human genome sequence can be isolated by transformation-associated recombination cloning in yeast.


ABSTRACT: The reported draft human genome sequence includes many contigs that are separated by gaps of unknown sequence. These gaps may be due to chromosomal regions that are not present in the Escherichia coli libraries used for DNA sequencing because they cannot be cloned efficiently, if at all, in bacteria. Using a yeast artificial chromosome (YAC)/ bacterial artificial chromosome (BAC) library generated in yeast, we found that approximately 6% of human DNA sequences tested transformed E. coli cells less efficiently than yeast cells, and were less stable in E. coli than in yeast. When the ends of several YAC/BAC isolates cloned in yeast were sequenced and compared with the reported draft sequence, major inconsistencies were found with the sequences of those YAC/BAC isolates that transformed E. coli cells inefficiently. Two human genomic fragments were re-isolated from human DNA by transformation-associated recombination (TAR) cloning. Re-sequencing of these regions showed that the errors in the draft are the results of both missassembly and loss of specific DNA sequences during cloning in E. coli. These results show that TAR cloning might be a valuable method that could be widely used during the final stages of the Human Genome Project.

SUBMITTER: Kouprina N 

PROVIDER: S-EPMC1315894 | biostudies-literature | 2003 Mar

REPOSITORIES: biostudies-literature

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Segments missing from the draft human genome sequence can be isolated by transformation-associated recombination cloning in yeast.

Kouprina Natalay N   Leem Sun-Hee SH   Solomon Greg G   Ly Albert A   Koriabine Maxim M   Otstot John J   Pak Eugene E   Dutra Amalia A   Zhao Shaying S   Barrett J Carl JC   Larionov Vladimir V  

EMBO reports 20030301 3


The reported draft human genome sequence includes many contigs that are separated by gaps of unknown sequence. These gaps may be due to chromosomal regions that are not present in the Escherichia coli libraries used for DNA sequencing because they cannot be cloned efficiently, if at all, in bacteria. Using a yeast artificial chromosome (YAC)/ bacterial artificial chromosome (BAC) library generated in yeast, we found that approximately 6% of human DNA sequences tested transformed E. coli cells le  ...[more]

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