Analysis of the SIP3 protein identified in a two-hybrid screen for interaction with the SNF1 protein kinase

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Nucleic Acids Research, 1994, Vol. 22, No. 4 597-603
© 1994

MOLECULAR BIOLOGY

Analysis of the SIP3 protein identified in a two-hybrid screen for interaction with the SNF1 protein kinase

Pascale Lesage, Xiaolu Yang and Marian Carlson^*

Department of Genetics and Development and Institute of Cancer Research, Columbia University College of Physicians and Surgeons, New York, NY 10032, USA

^*To whom correspondence should be addressed

Received November 12, 1993. Accepted January 20, 1994.

The Saccharomyces cerevlslae SIP3 gene was identified in a two-hybridscreen for proteins that interact In vivo with the SNF1 proteinkinase, which Is necessary for release of glucose repression.We showed that the C-termlnal part of SIP3, recovered throughits ability to Interact with SNF1, strongly activates transcriptionwhen tethered to DNA. We have cloned and sequenced the entireSIP3 gene. The predicted 142-kD SIP3 protein contains a putativeleuclne zipper motif located in its C terminus. The native SIP3protein also Interacts with DNA-bound SNF1 and activates transcriptionof a target gene. A complete deletion of the SIP3 gene did notconfer phenotypes characteristic of snf1 mutants. However, ina mutant deficient for the SNF1 kinase activity due to lossof the SNF4 stimulatory function, increased dosage of SIP3 partiallyrestored expression of the glucose-repressible SUC2 gene. Overexpressionof the C terminus of SIP3 caused defects in growth and SUC2expression which were remedied by overex-presslng SNF1. Takentogether, these genetic data suggest that SIP3 is functionallyrelated to the SNF1 protein kinase pathway.

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