- Cdh1 Mutants
- cdh1∆
- sic1∆ cdh1∆
- sic1∆ cdh1∆ GALL-CDC20
- sic1∆ cdc6∆2-49 cdh1∆
- sic1∆ cdc6∆2-49 cdh1∆ GALL-CDC20
- cdh1∆ cdc6∆2-49
- swi5∆ cdh1∆
- swi5∆ cdh1∆ GAL-SIC1
- cln1∆ cln2∆ cdh1∆
- GAL-CLN2 cln1∆ cln2∆ cdh1∆
- cln1∆ cln2∆ cln3∆ cdh1∆
- GAL-SIC1 cln1∆ cln2∆ cdh1∆
- GAL-SIC1 GAL-CLN2 cln1∆ cln2∆ cdh1∆
- CLB1 clb2∆ cdh1∆
- GAL-CLB2 cdh1∆
- GAL-CLB5 cdh1∆
- cdc14-ts cdh1∆
- cdc15∆ net1-ts cdh1∆
- APC-A cdh1∆
- APC-A cdh1∆ in galactose
- APC-A cdh1∆ GAL-SIC1
- APC-A cdh1∆ GAL-CDC6
- APC-A cdh1∆ multi-copy SIC1
- APC-A cdh1∆ multicopy CDC6
- APC-A cdh1∆ multicopy CDC20
- Cdh1 constitutively active
APC-A cdh1∆ in galactose
debug: ,
test user =
test db =
Simulation:
Change of parameters: ka20"=0, kscdh=0, init CDH1T=CDH1=0, MDT=150.
Length of G1 phase: 34.5 min.
Arrest: Telophase arrest.
Experiments:
Cross, F.R. (2003). Two redundant oscillatory mechanisms in the yeast cell cycle. Dev. Cell 4:741-752.
[Abstract] [Article]
[Abstract] [Article]
Experimental results: APC-A cdh1∆ can be partially rescued in poor galactose medium (Cross, 2003, Table 1), with 8% viability of spores (compared with 0% for APC-A cdh1∆ in glucose, and with 78% for APC-A cdh1∆ GAL-SIC1 in galactose).
Comments: In simulation, with MDT=150 min, the mutant cells arrest in telophase. However, if the growth rate is slowed down to MDT=160 min, they can exit mitosis at t=144.8 min, and become viable. We argue that the majority of the mutants APC-A cdh1∆ in galactose would have a MDT=150 and be inviable; a small fraction of the mutants would have a slightly lower growth rate with MDT=160, and those cells would be viable.