Survey
* Your assessment is very important for improving the work of artificial intelligence, which forms the content of this project
Download Supplemental Material
Document related concepts
no text concepts found
Transcript
Table S3. Plasmids used in this study name p297 p487 pAP38 pCT21 pGW069 pILM21 pMB29 pMB50 pMB51 pMB53 pMF567 pMF568 pMF569 pMF570 pMF592 pMF603 pMF604 pMF605 pMF642 pMF643 pMF644 pMF633 pMF645 pMF646 pMF647 pMF705 pMF706 pMF766 pMF767 pMF772 pMF936 pMF937 pMF940 pMF941 pMF942 pMF957 pMF959 pMF960 pMF962 pMF963 pMF973 pMF984 pMM5 pMM6 pRS305 pRS306 pRS315 pRS316 pRS425 pRS426 pTH35 pTH163 pWS1470 pWS3161 pWS-FKS1 YEP13 genotype pRS315-CDC42 pRS315-cdc42-T35A pRS316-GPS1 pRS305-3HA-CDC42 YEp13-STE20 pRS425-RHO1 pRS305-GFP-CDC42 pRS305-GFP-RHO1 pRS305-GFP-RHO2 pRS305-GFP-RHO4 pRS305-GFP-rho1-G19V pRS305-GFP-rho1-Q68H pRS305-GFP-rho1-C25A pRS305-GFP-rho1-F35L pRS305-GFP-cdc42-T35A pRS315-cdc42-T35A-G12V pRS315-cdc42-T35A-D118A pRS315-GPS1 pRS315-ste20-K649R (ste20-kd) pRS315-ste20-H345D-H348D (ste20-crib-m2) pRS315-ste20-337-340A (ste20-crib-m1) pRS315-CLA4-9MYC pRS315-cla4-K594R-9MYC (cla4-kd) pRS315-cla4-H192D-H194D-9MYC (cla4-crib-m2) pRS315-cla4-184-187A-9MYC (cla4-crib-m1) pRS305-GFP-cdc42-T35A-G12V pRS305-GFP-cdc42-T35A-D118A pGEX-5X-1-RHO1 pGEX-5X-1-CDC42 pET28c-gps1-aa1-290 pRS315-cdc42-T35A-D57Y pRS315-cdc42-T35A-Q61A pRS305-GFP-cdc42-T35A-D57Y pRS305-GFP-cdc42-T35A-Q61A pGEX-5X-1-cdc42-D57Y pRS315-cdc42-T35A-Q61L pRS305-GFP-cdc42-T35A-Q61L pGEX-5X-1-cdc42-Q61L pGEX-5X-1-rho1-G19V pGEX-5X-1-rho1-G22A pRS315-RHO1 pRS425-GFP-RHO1 pRS423-Gal1-LexA-MYC pRS425-Gal1-Gal4-HA integration, LEU2 integration, URA3 CEN, LEU2 CEN, URA3 2µ, LEU2 2µ, URA3 pRS315-STE20 pRS425-CLA4 pRS316-pTEF2-myc3-GPS1-tCYC1 pRS306-pFKS1-GFP-FKS1-∆C-tCYC1 pRS426-FKS1 2µ, LEU2 source [1] [1] this study gift from T. Höfken gift from E. Schiebel this study gift from T. Höfken gift from T. Höfken gift from T. Höfken gift from T. Höfken this study this study this study this study this study this study this study this study this study this study this study this study this study this study this study this study this study this study this study this study this study this study this study this study this study this study this study this study this study this study this study this study [2] [2] [3] [3] [3] [3] [4] [4] [5] gift from E. Schiebel this study this study this study [6] Literature 1. Ziman M, O'Brien JM, Ouellette LA, Church WR, Johnson DI (1991) Mutational analysis of CDC42Sc, a Saccharomyces cerevisiae gene that encodes a putative GTP-binding protein involved in the control of cell polarity. Mol Cell Biol 11: 3537-3544. 1 2. Geissler S, Pereira G, Spang A, Knop M, Soues S, et al. (1996) The spindle pole body component Spc98p interacts with the gamma-tubulin-like Tub4p of Saccharomyces cerevisiae at the sites of microtubule attachment. Embo J 15: 3899-3911. 3. Sikorski RS, Hieter P (1989) A system of shuttle vectors and yeast host strains designed for efficient manipulation of DNA in Saccharomyces cerevisiae. Genetics 122: 19-27. 4. Christianson TW, Sikorski RS, Dante M, Shero JH, Hieter P (1992) Multifunctional yeast high-copynumber shuttle vectors. Gene 110: 119-122. 5. Hofken T, Schiebel E (2002) A role for cell polarity proteins in mitotic exit. Embo J 21: 4851-4862. 6. Rose AB, Broach JR (1990) Propagation and expression of cloned genes in yeast: 2-microns circle-based vectors. Methods Enzymol 185: 234-279. 2
Related documents