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@proceedings{1514997, author = {Chirackal Manavalan, Anil Paul and Pilařová, Květa and Kluge, M. and Bartholomeeusen, Koen and Oppelt, Jan and Khirsariya, PrashantKumar and Paruch, Kamil and Krejčí, Lumír and Friedel, C. and Blažek, Dalibor}, booktitle = {2018 ASCB | EMBO Annual Meeting}, keywords = {CDK12kinase; DNA replication genes}, language = {eng}, title = {CDK12 kinase activity controls G1/S progression by regulating optimal transcription of core DNA replication genes}, year = {2018} }
TY - CONF ID - 1514997 AU - Chirackal Manavalan, Anil Paul - Pilařová, Květa - Kluge, M. - Bartholomeeusen, Koen - Oppelt, Jan - Khirsariya, PrashantKumar - Paruch, Kamil - Krejčí, Lumír - Friedel, C. - Blažek, Dalibor PY - 2018 TI - CDK12 kinase activity controls G1/S progression by regulating optimal transcription of core DNA replication genes KW - CDK12kinase KW - DNA replication genes N2 - Cyclin dependent kinase 12 (CDK12) is involved in RNA Polymerase II (RNAPII) mediated transcription and its kinase domain is frequently mutated in ovarian, breast and prostate cancers. CDK12 depletion leads to a reduction of phosphorylation of serine 2 (P Ser2) in the C terminal domain (CTD) of RNAPII. We have previously reported that CDK12 regulates the transcription of homologous recombination (HR) DNA repair genes. However, comprehensive insight into its target genes and cellular processes remains largely obscure mainly because of the lack of tools to specifically inhibit CDK12. Therefore we generated cells carrying analog sensitive alleles of CDK12 and studied CDK12 catalytic activity in dynamic processes of transcription and cell cycle progression. We show that CDK12 is mostly expressed in G1 phase and its kinase activity is required for optimal G1/S progression. Moreover, the expression of many DNA replication and repair genes are affected upon CDK12 inhibition. To investigate further, we carried out nuclear RNA seq coupled with ChIP seq for RNAPII, P Ser2 RNAPII and P Ser5 RNAPII and revealed that CDK12 inhibition triggered an RNAPII processivity defect, predominantly at relatively long, poly(A) signal rich genes. Thus, CDK12 kinase activity represents a novel link between regulation of transcription and cell cycle progression. We propose that DNA replication and HR DNA repair defects underlie the CDK12 specific genome instability phenotype observed in many cancers. ER -
CHIRACKAL MANAVALAN, Anil Paul, Květa PILAŘOVÁ, M. KLUGE, Koen BARTHOLOMEEUSEN, Jan OPPELT, PrashantKumar KHIRSARIYA, Kamil PARUCH, Lumír KREJČÍ, C. FRIEDEL a Dalibor BLAŽEK. CDK12 kinase activity controls G1/S progression by regulating optimal transcription of core DNA replication genes. In \textit{2018 ASCB $|$ EMBO Annual Meeting}. 2018.
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