Relating Whole-Genome Expression Data with Protein-Protein Interactions

doi:10.1101/gr.205602

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Vol. 12, Issue 1, 37-46, January 2002

LETTER
Relating Whole-Genome Expression Data with Protein-Protein Interactions

Ronald Jansen,¹^,⁴ Dov Greenbaum,²^,⁴ and Mark Gerstein¹^,³^,⁵

¹ Departments of Molecular Biophysics and Biochemistry, ² Genetics, and ³ Computer Science, Yale University, New Haven, Connecticut 06520, USA

We investigate the relationship of protein-protein interactions with mRNA expression levels, by integrating a variety of datasources for yeast. We focus on known protein complexes that haveclearly defined interactions between their subunits. We find thatsubunits of the same protein complex show significant coexpression,both in terms of similarities of absolute mRNA levels and expressionprofiles, e.g., we can often see subunits of a complex havingcorrelated patterns of expression over a time course. We classifythe yeast protein complexes as either permanent or transient,with permanent ones being maintained through most cellular conditions.We find that, generally, permanent complexes, such as the ribosomeand proteasome, have a particularly strong relationship with expression,while transient ones do not. However, we note that several transientcomplexes, such as the RNA polymerase II holoenzyme and the replicationcomplex, can be subdivided into smaller permanent ones, whichdo have a strong relationship to gene expression. We also investigatedthe interactions in aggregated, genome-wide data sets, such asthe comprehensive yeast two-hybrid experiments, and found themto have only a weak relationship with gene expression, similarto that of transient complexes. (Further details on genecensus.org/expression/interactionsand bioinfo.mbb.yale.edu/expression/interactions.)

⁴ These authors contributed equally to thiswork.

⁵ Correspondingauthor.

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LETTER Relating Whole-Genome Expression Data with Protein-Protein Interactions

LETTER
Relating Whole-Genome Expression Data with Protein-Protein Interactions