MOTIVATION: A major issue in computational biology is the reconstruction of functional relationships among genes, for example the definition of regulatory or biochemical pathways. One step towards this aim is the elucidation of transcriptional units, which are characterized by co-responding changes in mRNA expression levels. These units of genes will allow the generation of hypotheses about respective functional interrelationships. Thus, the focus of analysis currently moves from well-established functional assignment through comparison of protein and DNA sequences towards analysis of transcriptional co-response. Tools that allow deducing common control of gene expression have the potential to complement and extend routine BLAST comparisons, because gene function may be inferred from common transcriptional control. RESULTS: We present a co-clustering strategy of genome sequence information and gene expression data, which was applied to identify transcriptional units within diverse compendia of expression profiles. The phenomenon of prokaryotic operons was selected as an ideal test case to generate well-founded hypotheses about transcriptional units. The existence of overlapping and ambiguous operon definitions allowed the investigation of constitutive and conditional expression of transcriptional units in independent gene expression experiments of Escherichia coli. Our approach allowed identification of operons with high accuracy. Furthermore, both constitutive mRNA co-response as well as conditional differences became apparent. Thus, we were able to generate insight into the possible biological relevance of gene co-response. We conclude that the suggested strategy will be amenable in general to the identification of transcriptional units beyond the chosen example of E.coli operons. AVAILABILITY: The analyses of E.coli transcript data presented here are available upon request or at http://csbdb.mpimp-golm.mpg.de/
MOTIVATION: A major issue in computational biology is the reconstruction of functional relationships among genes, for example the definition of regulatory or biochemical pathways. One step towards this aim is the elucidation of transcriptional units, which are characterized by co-responding changes in mRNA expression levels. These units of genes will allow the generation of hypotheses about respective functional interrelationships. Thus, the focus of analysis currently moves from well-established functional assignment through comparison of protein and DNA sequences towards analysis of transcriptional co-response. Tools that allow deducing common control of gene expression have the potential to complement and extend routine BLAST comparisons, because gene function may be inferred from common transcriptional control. RESULTS: We present a co-clustering strategy of genome sequence information and gene expression data, which was applied to identify transcriptional units within diverse compendia of expression profiles. The phenomenon of prokaryotic operons was selected as an ideal test case to generate well-founded hypotheses about transcriptional units. The existence of overlapping and ambiguous operon definitions allowed the investigation of constitutive and conditional expression of transcriptional units in independent gene expression experiments of Escherichia coli. Our approach allowed identification of operons with high accuracy. Furthermore, both constitutive mRNA co-response as well as conditional differences became apparent. Thus, we were able to generate insight into the possible biological relevance of gene co-response. We conclude that the suggested strategy will be amenable in general to the identification of transcriptional units beyond the chosen example of E.coli operons. AVAILABILITY: The analyses of E.coli transcript data presented here are available upon request or at http://csbdb.mpimp-golm.mpg.de/
Authors: Peter D Karp; Wai Kit Ong; Suzanne Paley; Richard Billington; Ron Caspi; Carol Fulcher; Anamika Kothari; Markus Krummenacker; Mario Latendresse; Peter E Midford; Pallavi Subhraveti; Socorro Gama-Castro; Luis Muñiz-Rascado; César Bonavides-Martinez; Alberto Santos-Zavaleta; Amanda Mackie; Julio Collado-Vides; Ingrid M Keseler; Ian Paulsen Journal: EcoSal Plus Date: 2018-11
Authors: Lars M Voll; Aziz Jamai; Petra Renné; Hildegard Voll; C Robertson McClung; Andreas P M Weber Journal: Plant Physiol Date: 2005-12-09 Impact factor: 8.340
Authors: Kevin Horan; Charles Jang; Julia Bailey-Serres; Ron Mittler; Christian Shelton; Jeff F Harper; Jian-Kang Zhu; John C Cushman; Martin Gollery; Thomas Girke Journal: Plant Physiol Date: 2008-03-19 Impact factor: 8.340
Authors: Peter D Karp; Daniel Weaver; Suzanne Paley; Carol Fulcher; Aya Kubo; Anamika Kothari; Markus Krummenacker; Pallavi Subhraveti; Deepika Weerasinghe; Socorro Gama-Castro; Araceli M Huerta; Luis Muñiz-Rascado; César Bonavides-Martinez; Verena Weiss; Martin Peralta-Gil; Alberto Santos-Zavaleta; Imke Schröder; Amanda Mackie; Robert Gunsalus; Julio Collado-Vides; Ingrid M Keseler; Ian Paulsen Journal: EcoSal Plus Date: 2014-05
Authors: Allen Day; Jun Dong; Vincent A Funari; Bret Harry; Samuel P Strom; Dan H Cohn; Stanley F Nelson Journal: PLoS One Date: 2009-12-31 Impact factor: 3.240