A key component of gene functional analysis and drug target discovery is an understanding of how proteins interact within the cell. The ProQuest™ Two-Hybrid System with Gateway® Technology is a tested, robust, in vivo yeast-based system for identifying protein-protein interactions. It provides specially engineered components for bait and prey expression, and enables the rapid movement of sequences between the ProQuest™ system and other expression and analysis tools using simple recombinant cloning.
The ProQuest™ System vectors include the following features:
pDEST™ 32 bait vector
- ARS-CEN sequence for low-copy number maintenance in yeast
- attR sites for Gateway® cloning
- LEU2 for selection of recombinants on medium lacking leucine
pDEST™22 prey vector
- For the expression of a known gene of interest to generate a prey fusion protein
- ARS-CEN sequence for low-copy number maintenance in yeast
- attR sites for Gateway® cloning
- TRP1 for selection of recombinants on medium lacking tryptophan
pEXP-AD502 prey vector
- For the construction of a cDNA or genomic library for the identification of prey proteins
- ARS-CEN sequence for low-copy number maintenance in yeast
- attR sites for Gateway® cloning
- LEU2 for selection of recombinants on medium lacking leucine
pEXP32/Krev1
- A control bait vector, expressing Krev-1 (a member of the Ras family of GTP binding proteins) fused to the GAL4 DNA binding domain
pEXP22/RalGDS-wt
- A strong positive interaction control prey vector, expressing wild-type RalGDS fused to the GAL4 DNA activation domain
pEXP22/RalGDS-m1
- A second control prey vector, serving as a weak positive interaction control
pEXP22/RalGDS-m2
- A negative interaction control prey vector
References
- Poon Ellen; Howman Emily V; Newey Sarah E; Davies Kay E; Association of syncoilin and desmin: linking intermediate filament proteins to the dystrophin-associated protein complex. J Biol Chem 2002 Feb 1;277(5):3433-9
- Richards MC, Heron SE, Spendlove HE, Scheffer IE, Grinton B, Berkovic SF, Mulley JC, Davy A, Novel mutations in the KCNQ2 gene link epilepsy to a dysfunction of the KCNQ2-calmodulin interaction. J Med Genet 2004 41(3):e35-e35
- Ueki N, Hayman MJ, Signal-dependent N-CoR requirement for repression by the Ski oncoprotein. J Biol Chem 2003 278(27)24858-24864
- Missero C; Pirro M T; Simeone S; Pischetola M; Di Lauro R; The DNA glycosylase T:G mismatch-specific thymine DNA glycosylase represses thyroid transcription factor-1-activated transcription. J Biol Chem 2001 276(36)33569-75
- Lu Q, Hope LW, Brasch M, Reinhard C, Cohen SN, TSG101 interaction with HRS mediates endosomal trafficking and receptor down-regulation. Proc Natl Acad Sci U S A 2003; 100(13):7626-31
For Research Use Only. Not for use in diagnostic procedures.