Mol Cell. 2003 Dec;12(6):1353-65.

Assigning function to yeast proteins by integration of technologies.

Hazbun TR, Malmström L, Anderson S, Graczyk BJ, Fox B, Riffle M, Sundin BA, Aranda JD, McDonald WH, Chiu CH, Snydsman BE, Bradley P, Muller EG, Fields S, Baker D, Yates JR 3rd, Davis TN.

Source

Howard Hughes Medical Institute, University of Washington, Seattle, WA 98195, USA.

Abstract

Interpreting genome sequences requires the functional analysis of thousands of predicted proteins, many of which are uncharacterized and without obvious homologs. To assess whether the roles of large sets of uncharacterized genes can be assigned by targeted application of a suite of technologies, we used four complementary protein-based methods to analyze a set of 100 uncharacterized but essential open reading frames (ORFs) of the yeast Saccharomyces cerevisiae. These proteins were subjected to affinity purification and mass spectrometry analysis to identify copurifying proteins, two-hybrid analysis to identify interacting proteins, fluorescence microscopy to localize the proteins, and structure prediction methodology to predict structural domains or identify remote homologies. Integration of the data assigned function to 48 ORFs using at least two of the Gene Ontology (GO) categories of biological process, molecular function, and cellular component; 77 ORFs were annotated by at least one method. This combination of technologies, coupled with annotation using GO, is a powerful approach to classifying genes.

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Functional Genomics: all the king's horses and all the king's men can put Humpty together again. [Mol Cell. 2003]
Functional Genomics: all the king's horses and all the king's men can put Humpty together again.Oliver S. Mol Cell. 2003 Dec; 12(6):1343-4.

PMID:: 14690591; [PubMed - indexed for MEDLINE]

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