Difference between revisions of "CDC28/YBR160W Week 3"
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=== Database Summaries === | === Database Summaries === | ||
| − | ==== [https://uswest.ensembl.org/Saccharomyces_cerevisiae/Gene/Summary?db=core;g=YBR160W;r=II:560078-560974;t=YBR160W_mRNA Ensembl | + | ==== [https://uswest.ensembl.org/Saccharomyces_cerevisiae/Gene/Summary?db=core;g=YBR160W;r=II:560078-560974;t=YBR160W_mRNA Ensembl] ==== |
Known as cyclin-dependent kinase, or CDK, and is the master regulator of mitotic and meiotic cell cycles. CDK is associated with regulation of the G1, S, and G2/M phase cyclins, metabolism regulation, DNA to mRNA transcription regulation, chromosome changes/movement, and cellular morphogenesis. CDK also plays a role in osmostress by initiating transcription as a response. | Known as cyclin-dependent kinase, or CDK, and is the master regulator of mitotic and meiotic cell cycles. CDK is associated with regulation of the G1, S, and G2/M phase cyclins, metabolism regulation, DNA to mRNA transcription regulation, chromosome changes/movement, and cellular morphogenesis. CDK also plays a role in osmostress by initiating transcription as a response. | ||
| − | ==== [https://www.uniprot.org/uniprot/P00546 UniProt | + | ==== [https://www.uniprot.org/uniprot/P00546 UniProt] ==== |
The CDC28 gene is translated into cyclin-dependent kinase 1 of Saccharomyces Cerivisiae. CDK1 is needed for initiation and controlling events in the cell cycle. It is also involved in various biological processes including, but not limited to, 7-methylguanosine mRNA capping, DNA double-strand break processing & repair via nonhomologous end joining, G1/S transition of the mitotic cell cycle, mitotic sister chromatid biorientation, mitotic spindle assembly, and negative regulation of meiotic & mitotic cell cycle. CDK1 interacts with CKS1 protein and with cyclin by forming a stable non-covalent complex. | The CDC28 gene is translated into cyclin-dependent kinase 1 of Saccharomyces Cerivisiae. CDK1 is needed for initiation and controlling events in the cell cycle. It is also involved in various biological processes including, but not limited to, 7-methylguanosine mRNA capping, DNA double-strand break processing & repair via nonhomologous end joining, G1/S transition of the mitotic cell cycle, mitotic sister chromatid biorientation, mitotic spindle assembly, and negative regulation of meiotic & mitotic cell cycle. CDK1 interacts with CKS1 protein and with cyclin by forming a stable non-covalent complex. | ||
Revision as of 13:22, 18 September 2019
Contents
Database Summaries
Ensembl
Known as cyclin-dependent kinase, or CDK, and is the master regulator of mitotic and meiotic cell cycles. CDK is associated with regulation of the G1, S, and G2/M phase cyclins, metabolism regulation, DNA to mRNA transcription regulation, chromosome changes/movement, and cellular morphogenesis. CDK also plays a role in osmostress by initiating transcription as a response.
UniProt
The CDC28 gene is translated into cyclin-dependent kinase 1 of Saccharomyces Cerivisiae. CDK1 is needed for initiation and controlling events in the cell cycle. It is also involved in various biological processes including, but not limited to, 7-methylguanosine mRNA capping, DNA double-strand break processing & repair via nonhomologous end joining, G1/S transition of the mitotic cell cycle, mitotic sister chromatid biorientation, mitotic spindle assembly, and negative regulation of meiotic & mitotic cell cycle. CDK1 interacts with CKS1 protein and with cyclin by forming a stable non-covalent complex.
Additional Information
Standard Name
CDC28
Systematic Name
YBR160W
Name Description
Cell Division Cycle
Gene ID
Sequence
1 ATGAGCGGTG AATTAGCAAA TTACAAAAGA CTTGAGAAAG TCGGTGAAGG TACATACGGT
61 GTTGTTTATA AAGCGTTAGA CTTAAGACCT GGCCAAGGTC AAAGAGTAGT CGCATTGAAG
121 AAAATAAGAC TAGAGAGTGA AGACGAGGGT GTTCCCAGTA CAGCCATCAG AGAAATCTCA
181 TTATTGAAGG AATTAAAAGA CGATAATATT GTCAGATTAT ACGATATTGT TCACTCTGAT
241 GCACACAAGC TATATCTTGT TTTTGAGTTC CTCGATTTGG ACCTGAAAAG ATATATGGAG
301 GGTATTCCAA AGGACCAACC GTTAGGAGCT GATATTGTTA AGAAGTTTAT GATGCAACTT
361 TGTAAGGGTA TTGCATACTG CCACTCACAC CGTATTCTGC ATCGTGATTT AAAACCGCAG
421 AACTTATTGA TTAACAAAGA TGGGAATCTA AAACTAGGTG ATTTTGGCTT AGCGCGTGCT
481 TTTGGTGTTC CGTTGAGAGC TTACACACAT GAAATTGTTA CTCTATGGTA TAGAGCTCCG
541 GAGGTATTAC TGGGTGGAAA ACAATATAGT ACAGGTGTCG ATACATGGTC CATCGGCTGT
601 ATATTTGCCG AAATGTGTAA CAGGAAACCA ATCTTCAGTG GCGATAGTGA GATCGATCAG
661 ATTTTCAAGA TATTCAGAGT ATTGGGAACG CCGAATGAAG CTATATGGCC AGATATTGTC
721 TACTTGCCTG ATTTCAAGCC AAGCTTTCCT CAATGGCGCA GAAAAGACCT ATCACAAGTG
781 GTACCAAGTC TAGATCCACG CGGTATTGAT TTGTTGGACA AACTCCTCGC GTATGACCCT
841 ATTAACCGGA TTAGCGCCAG AAGAGCAGCC ATCCACCCCT ACTTCCAAGA ATCATAA
