Novel Raf kinase protein-protein interactions found by an exhaustive yeast two-hybrid analysis

Anton Yuryev; Lawrence P. Wennogle

doi:10.1016/S0888-7543(02)00008-3

Novel Raf kinase protein-protein interactions found by an exhaustive yeast two-hybrid analysis

Anton Yuryev, Lawrence P. Wennogle

Research output: Contribution to journal › Article › peer-review

41 Scopus citations

Abstract

We have performed an exhaustive unbiased yeast two-hybrid analysis to identify interaction partners of two human Raf kinase isoforms, A-Raf and C-Raf, using their N-terminal regulatory domain as "bait." A total of 20 different human proteins were found to interact with Raf isoforms. Several of these interactions were novel and an extensive bioinformatics evaluation was performed for each. The novel putative interactions include a signalosome component, TOPK/PBK kinase, and two new putative protein phosphatases. The cysteine-rich zinc-binding domain (CRD) of Raf was found to interact with all 20 proteins and to achieve isoform-specific interactions. Since similar putative CRDs are present in a variety of protein serine-threonine kinases, the data suggest that the CRD may function as a major protein-protein interaction domain of these kinases. We propose possible functional consequences of these novel Raf interactions.

Original language	English
Pages (from-to)	112-125
Number of pages	14
Journal	Genomics
Volume	81
Issue number	2
DOIs	https://doi.org/10.1016/S0888-7543(02)00008-3
State	Published - Feb 1 2003
Externally published	Yes

Keywords

c-raf
Protein interaction mapping
Protein-serine-threonine kinases
Proto-oncogene proteins
Signal transduction
Two-hybrid analysis

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10.1016/S0888-7543(02)00008-3

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title = "Novel Raf kinase protein-protein interactions found by an exhaustive yeast two-hybrid analysis",

abstract = "We have performed an exhaustive unbiased yeast two-hybrid analysis to identify interaction partners of two human Raf kinase isoforms, A-Raf and C-Raf, using their N-terminal regulatory domain as {"}bait.{"} A total of 20 different human proteins were found to interact with Raf isoforms. Several of these interactions were novel and an extensive bioinformatics evaluation was performed for each. The novel putative interactions include a signalosome component, TOPK/PBK kinase, and two new putative protein phosphatases. The cysteine-rich zinc-binding domain (CRD) of Raf was found to interact with all 20 proteins and to achieve isoform-specific interactions. Since similar putative CRDs are present in a variety of protein serine-threonine kinases, the data suggest that the CRD may function as a major protein-protein interaction domain of these kinases. We propose possible functional consequences of these novel Raf interactions.",

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AU - Yuryev, Anton

AU - Wennogle, Lawrence P.

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N2 - We have performed an exhaustive unbiased yeast two-hybrid analysis to identify interaction partners of two human Raf kinase isoforms, A-Raf and C-Raf, using their N-terminal regulatory domain as "bait." A total of 20 different human proteins were found to interact with Raf isoforms. Several of these interactions were novel and an extensive bioinformatics evaluation was performed for each. The novel putative interactions include a signalosome component, TOPK/PBK kinase, and two new putative protein phosphatases. The cysteine-rich zinc-binding domain (CRD) of Raf was found to interact with all 20 proteins and to achieve isoform-specific interactions. Since similar putative CRDs are present in a variety of protein serine-threonine kinases, the data suggest that the CRD may function as a major protein-protein interaction domain of these kinases. We propose possible functional consequences of these novel Raf interactions.

AB - We have performed an exhaustive unbiased yeast two-hybrid analysis to identify interaction partners of two human Raf kinase isoforms, A-Raf and C-Raf, using their N-terminal regulatory domain as "bait." A total of 20 different human proteins were found to interact with Raf isoforms. Several of these interactions were novel and an extensive bioinformatics evaluation was performed for each. The novel putative interactions include a signalosome component, TOPK/PBK kinase, and two new putative protein phosphatases. The cysteine-rich zinc-binding domain (CRD) of Raf was found to interact with all 20 proteins and to achieve isoform-specific interactions. Since similar putative CRDs are present in a variety of protein serine-threonine kinases, the data suggest that the CRD may function as a major protein-protein interaction domain of these kinases. We propose possible functional consequences of these novel Raf interactions.

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KW - Protein interaction mapping

KW - Protein-serine-threonine kinases

KW - Proto-oncogene proteins

KW - Signal transduction

KW - Two-hybrid analysis

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Novel Raf kinase protein-protein interactions found by an exhaustive yeast two-hybrid analysis

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Keywords

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