A molecular barcoded yeast ORF library enables mode-of-action analysis of bioactive compounds. Author Cheuk Ho, Leslie Magtanong, Sarah Barker, David Gresham, Shinichi Nishimura, Paramasivam Natarajan, Judice L Y Koh, Justin Porter, Christopher Gray, Raymond Andersen, Guri Giaever, Corey Nislow, Brenda Andrews, David Botstein, Todd Graham, Minoru Yoshida, Charles Boone Publication Year 2009 Type Journal Article Abstract We present a yeast chemical-genomics approach designed to identify genes that when mutated confer drug resistance, thereby providing insight about the modes of action of compounds. We developed a molecular barcoded yeast open reading frame (MoBY-ORF) library in which each gene, controlled by its native promoter and terminator, is cloned into a centromere-based vector along with two unique oligonucleotide barcodes. The MoBY-ORF resource has numerous genetic and chemical-genetic applications, but here we focus on cloning wild-type versions of mutant drug-resistance genes using a complementation strategy and on simultaneously assaying the fitness of all transformants with barcode microarrays. The complementation cloning was validated by mutation detection using whole-genome yeast tiling microarrays, which identified unique polymorphisms associated with a drug-resistant mutant. We used the MoBY-ORF library to identify the genetic basis of several drug-resistant mutants and in this analysis discovered a new class of sterol-binding compounds. Keywords Genetic Engineering, Open Reading Frames, Cloning, Molecular, Gene Library Journal Nat Biotechnol Volume 27 Issue 4 Pages 369-77 Date Published 04/2009 Alternate Journal Nat. Biotechnol. Google ScholarBibTeXEndNote X3 XML