- Cln Mutants
- cln1∆ cln2∆
- cln1∆ cln2∆ sic1∆
- cln1∆ cln2∆ cdh1∆
- cln1∆ cln2∆ bck2∆
- cln1∆ cln2∆ clb5∆ clb6∆
- cln1∆ cln2∆ cln3∆
- cln1∆ cln2∆ cln3∆ GAL-CLN2
- cln1∆ cln2∆ cln3∆ GAL-CLN3
- cln1∆ cln2∆ cln3∆ sic1∆
- cln1∆ cln2∆ cln3∆ cdh1∆
- cln1∆ cln2∆ cln3∆ multi-copy CLB5
- cln1∆ cln2∆ cln3∆ GAL-CLB5
- cln1∆ cln2∆ cln3∆ multicopy BCK2
- cln1∆ cln2∆ cln3∆ GAL-CLB2
- cln1∆ cln2∆ cln3∆ apc-ts
- GAL-SIC1 cln1∆ cln2∆
- GAL-SIC1 GAL-CLN2 cln1∆ cln2∆
- GAL-SIC1 cln1∆ cln2∆ cdh1∆
- GAL-SIC1 GAL-CLN2 cln1∆ cln2∆ cdh1∆
- GAL-CLN2 cln1∆ cln2∆ cdh1∆
- GAL-CLN2 cln1∆ cln2∆
- cdc14-ts GAL-CLN2
- cln3∆
- cln3∆ bck2∆
- cln3∆ bck2∆ GAL-CLN2 cln1∆ cln2∆
- cln3∆ bck2∆ multi-copy CLN2
- cln3∆ bck2∆ sic1∆
- GAL-CLN3
cln3∆ bck2∆
debug: ,
test user =
test db =
Simulation:
Change of parameters: B0=0, Dn3=0.
Arrest: G1 arrest
Experiments:
Epstein, C.B. and Cross, F.R. (1994). Genes that can bypass the CLN requirement for Saccharomyces cerevisiae cell cycle START. Mol. Cell. Biol.14:2041-2047.
[Abstract] [Article]
[Abstract] [Article]
Di Como, C.J., Chang, H. and Arndt, K.T. (1995). Activation of CLN1 and CLN2 G1 cyclin gene expression by BCK2. Mol. Cell. Biol. 15:1835-1846.
[Abstract] [Article]
[Abstract] [Article]
Wijnen, H., and Futcher, B. (1999) Genetic analysis of the shared role of CLN3 and BCK2 at the G1-S transition in Saccharomyces cerevisiae. Genetics 153:1131-1143.
[Abstract] [Article]
[Abstract] [Article]
Experimental results: G1 arrest.
Comments: