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W2022148802 abstract "Abstract Background Short-read high-throughput DNA sequencing technologies provide new tools to answer biological questions. However, high cost and low throughput limit their widespread use, particularly in organisms with smaller genomes such as S. cerevisiae . Although ChIP-Seq in mammalian cell lines is replacing array-based ChIP-chip as the standard for transcription factor binding studies, ChIP-Seq in yeast is still underutilized compared to ChIP-chip. We developed a multiplex barcoding system that allows simultaneous sequencing and analysis of multiple samples using Illumina's platform. We applied this method to analyze the chromosomal distributions of three yeast DNA binding proteins (Ste12, Cse4 and RNA PolII) and a reference sample (input DNA) in a single experiment and demonstrate its utility for rapid and accurate results at reduced costs. Results We developed a barcoding ChIP-Seq method for the concurrent analysis of transcription factor binding sites in yeast. Our multiplex strategy generated high quality data that was indistinguishable from data obtained with non-barcoded libraries. None of the barcoded adapters induced differences relative to a non-barcoded adapter when applied to the same DNA sample. We used this method to map the binding sites for Cse4, Ste12 and Pol II throughout the yeast genome and we found 148 binding targets for Cse4, 823 targets for Ste12 and 2508 targets for PolII. Cse4 was strongly bound to all yeast centromeres as expected and the remaining non-centromeric targets correspond to highly expressed genes in rich media. The presence of Cse4 non-centromeric binding sites was not reported previously. Conclusion We designed a multiplex short-read DNA sequencing method to perform efficient ChIP-Seq in yeast and other small genome model organisms. This method produces accurate results with higher throughput and reduced cost. Given constant improvements in high-throughput sequencing technologies, increasing multiplexing will be possible to further decrease costs per sample and to accelerate the completion of large consortium projects such as modENCODE." @default.
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W2022148802 date "2009-01-21" @default.
W2022148802 modified "2023-10-10" @default.
W2022148802 title "Efficient yeast ChIP-Seq using multiplex short-read DNA sequencing" @default.
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W2022148802 cites W1946207508 @default.
W2022148802 cites W1966369779 @default.
W2022148802 cites W1967985251 @default.
W2022148802 cites W1976970497 @default.
W2022148802 cites W1984708728 @default.
W2022148802 cites W1988294855 @default.
W2022148802 cites W1995275121 @default.
W2022148802 cites W1996212302 @default.
W2022148802 cites W1996563665 @default.
W2022148802 cites W2003345607 @default.
W2022148802 cites W2004071559 @default.
W2022148802 cites W2005281324 @default.
W2022148802 cites W2009692439 @default.
W2022148802 cites W2015416439 @default.
W2022148802 cites W2016373415 @default.
W2022148802 cites W2020541351 @default.
W2022148802 cites W2020749481 @default.
W2022148802 cites W2024457909 @default.
W2022148802 cites W2035797493 @default.
W2022148802 cites W2038697069 @default.
W2022148802 cites W2047207683 @default.
W2022148802 cites W2047765648 @default.
W2022148802 cites W2052575391 @default.
W2022148802 cites W2054204989 @default.
W2022148802 cites W2059699217 @default.
W2022148802 cites W2059907322 @default.
W2022148802 cites W2060027353 @default.
W2022148802 cites W2060742513 @default.
W2022148802 cites W2066955442 @default.
W2022148802 cites W2067151470 @default.
W2022148802 cites W2070328141 @default.
W2022148802 cites W2071391879 @default.
W2022148802 cites W2080457024 @default.
W2022148802 cites W2080498142 @default.
W2022148802 cites W2092238955 @default.
W2022148802 cites W2095901358 @default.
W2022148802 cites W2100779584 @default.
W2022148802 cites W2101824673 @default.
W2022148802 cites W2103713889 @default.
W2022148802 cites W2108244474 @default.
W2022148802 cites W2110247397 @default.
W2022148802 cites W2110397906 @default.
W2022148802 cites W2110581419 @default.
W2022148802 cites W2115197624 @default.
W2022148802 cites W2115352378 @default.
W2022148802 cites W2127201083 @default.
W2022148802 cites W2127879691 @default.
W2022148802 cites W2129795133 @default.
W2022148802 cites W2133280569 @default.
W2022148802 cites W2134320468 @default.
W2022148802 cites W2142093660 @default.
W2022148802 cites W2144533535 @default.
W2022148802 cites W2152927202 @default.
W2022148802 cites W2154431984 @default.
W2022148802 cites W2158424350 @default.
W2022148802 cites W2166378086 @default.
W2022148802 cites W2342204193 @default.
W2022148802 cites W4248318091 @default.
W2022148802 doi "https://doi.org/10.1186/1471-2164-10-37" @default.
W2022148802 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/2656530" @default.
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