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Mouse Anti-CDK1 Recombinant Antibody (CBFYC-1578) (CBMAB-C1637-FY)

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Published Data

Summary

Host Animal
Mouse
Specificity
Human, Mouse, Rat
Clone
CBFYC-1578
Antibody Isotype
IgG1, κ
Application
WB, ELISA, IHC-P, IF, IP

Basic Information

Immunogen
Amino acids 1-297 representing full length Cdc2 p34 of human.
Host Species
Mouse
Specificity
Human, Mouse, Rat
Antibody Isotype
IgG1, κ
Clonality
Monoclonal Antibody
Application Notes
The COA includes recommended starting dilutions, optimal dilutions should be determined by the end user.
ApplicationNote
WB1:100-1:1,000
IP1-2 µg per 100-500 µg of total protein (1 ml of cell lysate)
IF(ICC)1:50-1:500
ELISA1:100-1:1,000
IHC-P1:50-1:500

Formulations & Storage [For reference only, actual COA shall prevail!]

Format
Liquid
Buffer
PBS, 0.1% gelatin
Preservative
< 0.1% sodium azide
Concentration
0.2 mg/ml
Storage
Store at +4°C short term (1-2 weeks). Aliquot and store at-20°C long term. Avoid repeated freeze/thaw cycles.
Epitope
AA 1-297

Target

Full Name
Cyclin Dependent Kinase 1
Introduction
CDK1 (Cyclin Dependent Kinase 1) is a Protein Coding gene. Diseases associated with CDK1 include Breast Cancer and Retinal Cancer. Among its related pathways are Mitotic Prometaphase and Mitotic Prophase. Gene Ontology (GO) annotations related to this gene include transferase activity, transferring phosphorus-containing groups and protein tyrosine kinase activity. An important paralog of this gene is CDK2.
Entrez Gene ID
UniProt ID
Alternative Names
Cyclin Dependent Kinase 1; Cell Division Cycle 2, G1 To S And G2 To M; Cell Division Control Protein 2 Homolog; Cell Division Protein Kinase 1; P34 Protein Kinase; P34CDC2; CDC28A
Function
Plays a key role in the control of the eukaryotic cell cycle by modulating the centrosome cycle as well as mitotic onset; promotes G2-M transition, and regulates G1 progress and G1-S transition via association with multiple interphase cyclins. Required in higher cells for entry into S-phase and mitosis. Phosphorylates PARVA/actopaxin, APC, AMPH, APC, BARD1, Bcl-xL/BCL2L1, BRCA2, CALD1, CASP8, CDC7, CDC20, CDC25A, CDC25C, CC2D1A, CENPA, CSNK2 proteins/CKII, FZR1/CDH1, CDK7, CEBPB, CHAMP1, DMD/dystrophin, EEF1 proteins/EF-1, EZH2, KIF11/EG5, EGFR, FANCG, FOS, GFAP, GOLGA2/GM130, GRASP1, UBE2A/hHR6A, HIST1H1 proteins/histone H1, HMGA1, HIVEP3/KRC, LMNA, LMNB, LMNC, LBR, LATS1, MAP1B, MAP4, MARCKS, MCM2, MCM4, MKLP1, MYB, NEFH, NFIC, NPC/nuclear pore complex, PITPNM1/NIR2, NPM1, NCL, NUCKS1, NPM1/numatrin, ORC1, PRKAR2A, EEF1E1/p18, EIF3F/p47, p53/TP53, NONO/p54NRB, PAPOLA, PLEC/plectin, RB1, TPPP, UL40/R2, RAB4A, RAP1GAP, RCC1, RPS6KB1/S6K1, KHDRBS1/SAM68, ESPL1, SKI, BIRC5/survivin, STIP1, TEX14, beta-tubulins, MAPT/TAU, NEDD1, VIM/vimentin, TK1, FOXO1, RUNX1/AML1, SAMHD1, SIRT2 and RUNX2. CDK1/CDC2-cyclin-B controls pronuclear union in interphase fertilized eggs. Essential for early stages of embryonic development. During G2 and early mitosis, CDC25A/B/C-mediated dephosphorylation activates CDK1/cyclin complexes which phosphorylate several substrates that trigger at least centrosome separation, Golgi dynamics, nuclear envelope breakdown and chromosome condensation. Once chromosomes are condensed and aligned at the metaphase plate, CDK1 activity is switched off by WEE1- and PKMYT1-mediated phosphorylation to allow sister chromatid separation, chromosome decondensation, reformation of the nuclear envelope and cytokinesis. Inactivated by PKR/EIF2AK2- and WEE1-mediated phosphorylation upon DNA damage to stop cell cycle and genome replication at the G2 checkpoint thus facilitating DNA repair. Reactivated after successful DNA repair through WIP1-dependent signaling leading to CDC25A/B/C-mediated dephosphorylation and restoring cell cycle progression. In proliferating cells, CDK1-mediated FOXO1 phosphorylation at the G2-M phase represses FOXO1 interaction with 14-3-3 proteins and thereby promotes FOXO1 nuclear accumulation and transcription factor activity, leading to cell death of postmitotic neurons. The phosphorylation of beta-tubulins regulates microtubule dynamics during mitosis. NEDD1 phosphorylation promotes PLK1-mediated NEDD1 phosphorylation and subsequent targeting of the gamma-tubulin ring complex (gTuRC) to the centrosome, an important step for spindle formation. In addition, CC2D1A phosphorylation regulates CC2D1A spindle pole localization and association with SCC1/RAD21 and centriole cohesion during mitosis. The phosphorylation of Bcl-xL/BCL2L1 after prolongated G2 arrest upon DNA damage triggers apoptosis. In contrast, CASP8 phosphorylation during mitosis prevents its activation by proteolysis and subsequent apoptosis. This phosphorylation occurs in cancer cell lines, as well as in primary breast tissues and lymphocytes. EZH2 phosphorylation promotes H3K27me3 maintenance and epigenetic gene silencing. CALD1 phosphorylation promotes Schwann cell migration during peripheral nerve regeneration. CDK1-cyclin-B complex phosphorylates NCKAP5L and mediates its dissociation from centrosomes during mitosis (PubMed:26549230).
Regulates the amplitude of the cyclic expression of the core clock gene ARNTL/BMAL1 by phosphorylating its transcriptional repressor NR1D1, and this phosphorylation is necessary for SCF(FBXW7)-mediated ubiquitination and proteasomal degradation of NR1D1 (PubMed:27238018).
Phosphorylates EML3 at 'Thr-881' which is essential for its interaction with HAUS augmin-like complex and TUBG1 (PubMed:30723163).
(Microbial infection) Acts as a receptor for hepatitis C virus (HCV) in hepatocytes and facilitates its cell entry.
Biological Process
Anaphase-promoting complex-dependent catabolic process Source: Reactome
Apoptotic process Source: UniProtKB-KW
Cell division Source: UniProtKB-KW
Cell migration Source: UniProtKB
Centrosome cycle Source: UniProtKB
Ciliary basal body-plasma membrane docking Source: Reactome
DNA damage response, signal transduction by p53 class mediator resulting in cell cycle arrest Source: Reactome
DNA repair Source: UniProtKB
DNA replication Source: UniProtKB
Epithelial cell differentiation Source: UniProtKB
ERK1 and ERK2 cascade Source: Reactome
G2/M transition of mitotic cell cycle Source: GO_Central
Golgi disassembly Source: UniProtKB
Microtubule cytoskeleton organization Source: UniProtKB
Mitotic chromosome condensation Source: Reactome
Mitotic G2 DNA damage checkpoint Source: GO_Central
Mitotic nuclear envelope disassembly Source: Reactome
Mitotic nuclear envelope reassembly Source: Reactome
Negative regulation of apoptotic process Source: UniProtKB
Peptidyl-serine phosphorylation Source: ParkinsonsUK-UCL
Peptidyl-threonine phosphorylation Source: ParkinsonsUK-UCL
Positive regulation of G2/M transition of mitotic cell cycle Source: CAFA
Positive regulation of mitochondrial ATP synthesis coupled electron transport Source: CAFA
Positive regulation of protein localization to nucleus Source: UniProtKB
Pronuclear fusion Source: UniProtKB
Protein deubiquitination Source: Reactome
Protein localization to kinetochore Source: BHF-UCL
Protein phosphorylation Source: UniProtKB
Regulation of circadian rhythm Source: UniProtKB
Regulation of embryonic development Source: UniProtKB
Regulation of G2/M transition of mitotic cell cycle Source: Reactome
Regulation of mitotic cell cycle phase transition Source: Reactome
Regulation of Schwann cell differentiation Source: UniProtKB
Regulation of signal transduction by p53 class mediator Source: Reactome
Regulation of transcription initiation from RNA polymerase II promoter Source: Reactome
Rhythmic process Source: UniProtKB-KW
Cellular Location
Mitochondrion; Centrosome; Spindle; Nucleus; Cytoplasm. Cytoplasmic during the interphase. Colocalizes with SIRT2 on centrosome during prophase and on splindle fibers during metaphase of the mitotic cell cycle. Reversibly translocated from cytoplasm to nucleus when phosphorylated before G2-M transition when associated with cyclin-B1. Accumulates in mitochondria in G2-arrested cells upon DNA-damage.
PTM
Phosphorylation at Thr-161 by CAK/CDK7 activates kinase activity. Phosphorylation at Thr-14 and Tyr-15 by PKMYT1 prevents nuclear translocation. Phosphorylation at Tyr-15 by WEE1 and WEE2 inhibits the protein kinase activity and acts as a negative regulator of entry into mitosis (G2 to M transition). Phosphorylation by PKMYT1 and WEE1 takes place during mitosis to keep CDK1-cyclin-B complexes inactive until the end of G2. By the end of G2, PKMYT1 and WEE1 are inactivated, but CDC25A and CDC25B are activated. Dephosphorylation by active CDC25A and CDC25B at Thr-14 and Tyr-15, leads to CDK1 activation at the G2-M transition. Phosphorylation at Tyr-15 by WEE2 during oogenesis is required to maintain meiotic arrest in oocytes during the germinal vesicle (GV) stage, a long period of quiescence at dictyate prophase I, leading to prevent meiotic reentry. Phosphorylation by WEE2 is also required for metaphase II exit during egg activation to ensure exit from meiosis in oocytes and promote pronuclear formation. Phosphorylated at Tyr-4 by PKR/EIF2AK2 upon genotoxic stress. This phosphorylation triggers CDK1 polyubiquitination and subsequent proteolysis, thus leading to G2 arrest. In response to UV irradiation, phosphorylation at Tyr-15 by PRKCD activates the G2/M DNA damage checkpoint.
Polyubiquitinated upon genotoxic stress.
More Infomation

Wijnen, R., Pecoraro, C., Carbone, D., Fiuji, H., Avan, A., Peters, G. J., ... & Diana, P. (2021). Cyclin Dependent Kinase-1 (CDK-1) Inhibition as a Novel Therapeutic Strategy against Pancreatic Ductal Adenocarcinoma (PDAC). Cancers, 13(17), 4389.

Zhang, C., Balbo, B., Ma, M., Zhao, J., Tian, X., Kluger, Y., & Somlo, S. (2021). Cyclin-dependent kinase 1 activity is a driver of cyst growth in polycystic kidney disease. Journal of the American Society of Nephrology, 32(1), 41-51.

Yin, S., Yang, S., Luo, Y., Lu, J., Hu, G., Wang, K., ... & Yu, H. (2021). Cyclin-dependent kinase 1 as a potential target for lycorine against hepatocellular carcinoma. Biochemical Pharmacology, 193, 114806.

Kalous, J., Jansová, D., & Šušor, A. (2020). Role of cyclin-dependent kinase 1 in translational regulation in the M-phase. Cells, 9(7), 1568.

Zeng, R., Wang, Z., Li, X., Chen, Y., Yang, S., & Dong, J. (2020). Cyclin-dependent kinase 1-mediated phosphorylation of protein kinase N1 promotes anchorage-independent growth and migration. Cellular signalling, 69, 109546.

Li, Y., Quan, J., Chen, F., Pan, X., Zhuang, C., Xiong, T., ... & Gui, Y. (2019). MiR-31-5p acts as a tumor suppressor in renal cell carcinoma by targeting cyclin-dependent kinase 1 (CDK1). Biomedicine & Pharmacotherapy, 111, 517-526.

Gao, X., Zhang, Y., Zhang, R., Zhao, Z., Zhang, H., Wu, J., ... & Zhong, M. (2019). Cyclin‑dependent kinase 1 disruption inhibits angiogenesis by inducing cell cycle arrest and apoptosis. Experimental and therapeutic medicine, 18(4), 3062-3070.

Xie, D., Song, H., Wu, T., Li, D., Hua, K., Xu, H., ... & Fang, L. (2018). MicroRNA‑424 serves an anti‑oncogenic role by targeting cyclin‑dependent kinase 1 in breast cancer cells. Oncology reports, 40(6), 3416-3426.

Kim, H. J., Shin, J., Lee, S., Kim, T. W., Jang, H., Suh, M. Y., ... & Youn, H. D. (2018). Cyclin-dependent kinase 1 activity coordinates the chromatin associated state of Oct4 during cell cycle in embryonic stem cells. Nucleic acids research, 46(13), 6544-6560.

Zeng, Y., Stauffer, S., Zhou, J., Chen, X., Chen, Y., & Dong, J. (2017). Cyclin-dependent kinase 1 (CDK1)-mediated mitotic phosphorylation of the transcriptional co-repressor Vgll4 inhibits its tumor-suppressing activity. Journal of Biological Chemistry, 292(36), 15028-15038.

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For research use only. Not intended for any clinical use.

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