Difference between revisions of "Part:BBa K4020002"
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==Usage and Biology== | ==Usage and Biology== | ||
| − | SIC1∆N is a gene encoding a protein that inhibits cyclin-dependent kinase complexes and G1 to S phase progression in cell cycle (Hegde, | + | SIC1∆N is a gene encoding a protein that inhibits cyclin-dependent kinase complexes and G1 to S phase progression in cell cycle (Hegde, 2010a), prevents premature S phase entry, and warrants genome integrity (Hegde, 2010b). It is genomic DNA. The deletion of the first 90 nucleotides encoding the N-terminus, or the regulatory domain of the corresponding protein, results in a non-degradable ''Sic1'' variant. |
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==References== | ==References== | ||
| − | *Hegde, A. N. ( | + | *Hegde, A.N. (2010a). Ubiquitin-Dependent Protein Degradation. Comprehensive Natural Products II: Chemistry and Biology 5, 699–752. |
| − | + | *Hegde, A.N. (2010b). 5.21 - Ubiquitin-Dependent Protein Degradation. In Comprehensive Natural Products II, H.-W. (Ben) Liu, and L. Mander, eds. (Oxford: Elsevier), pp. 699–752. | |
Latest revision as of 04:39, 21 October 2021
Usage and Biology
SIC1∆N is a gene encoding a protein that inhibits cyclin-dependent kinase complexes and G1 to S phase progression in cell cycle (Hegde, 2010a), prevents premature S phase entry, and warrants genome integrity (Hegde, 2010b). It is genomic DNA. The deletion of the first 90 nucleotides encoding the N-terminus, or the regulatory domain of the corresponding protein, results in a non-degradable Sic1 variant.
References
- Hegde, A.N. (2010a). Ubiquitin-Dependent Protein Degradation. Comprehensive Natural Products II: Chemistry and Biology 5, 699–752.
- Hegde, A.N. (2010b). 5.21 - Ubiquitin-Dependent Protein Degradation. In Comprehensive Natural Products II, H.-W. (Ben) Liu, and L. Mander, eds. (Oxford: Elsevier), pp. 699–752.