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    CDK9 cyclin dependent kinase 9 [ Homo sapiens (human) ]

    Gene ID: 1025, updated on 2-Nov-2024

    Summary

    Official Symbol
    CDK9provided by HGNC
    Official Full Name
    cyclin dependent kinase 9provided by HGNC
    Primary source
    HGNC:HGNC:1780
    See related
    Ensembl:ENSG00000136807 MIM:603251; AllianceGenome:HGNC:1780
    Gene type
    protein coding
    RefSeq status
    REVIEWED
    Organism
    Homo sapiens
    Lineage
    Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Mammalia; Eutheria; Euarchontoglires; Primates; Haplorrhini; Catarrhini; Hominidae; Homo
    Also known as
    TAK; C-2k; CTK1; CDC2L4; PITALRE
    Summary
    The protein encoded by this gene is a member of the cyclin-dependent protein kinase (CDK) family. CDK family members are highly similar to the gene products of S. cerevisiae cdc28, and S. pombe cdc2, and known as important cell cycle regulators. This kinase was found to be a component of the multiprotein complex TAK/P-TEFb, which is an elongation factor for RNA polymerase II-directed transcription and functions by phosphorylating the C-terminal domain of the largest subunit of RNA polymerase II. This protein forms a complex with and is regulated by its regulatory subunit cyclin T or cyclin K. HIV-1 Tat protein was found to interact with this protein and cyclin T, which suggested a possible involvement of this protein in AIDS. [provided by RefSeq, Jul 2008]
    Expression
    Ubiquitous expression in ovary (RPKM 32.0), spleen (RPKM 23.0) and 25 other tissues See more
    Orthologs
    NEW
    Try the new Gene table
    Try the new Transcript table

    Genomic context

    See CDK9 in Genome Data Viewer
    Location:
    9q34.11
    Exon count:
    7
    Annotation release Status Assembly Chr Location
    RS_2024_08 current GRCh38.p14 (GCF_000001405.40) 9 NC_000009.12 (127786034..127790792)
    RS_2024_08 current T2T-CHM13v2.0 (GCF_009914755.1) 9 NC_060933.1 (139993485..139998243)
    RS_2024_09 previous assembly GRCh37.p13 (GCF_000001405.25) 9 NC_000009.11 (130548313..130553071)

    Chromosome 9 - NC_000009.12Genomic Context describing neighboring genes Neighboring gene SH2 domain containing 3C Neighboring gene uncharacterized LOC107987132 Neighboring gene ReSE screen-validated silencer GRCh37_chr9:130539526-130539796 Neighboring gene ATAC-STARR-seq lymphoblastoid active region 29049 Neighboring gene ATAC-STARR-seq lymphoblastoid active region 29050 Neighboring gene ReSE screen-validated silencer GRCh37_chr9:130545551-130545741 Neighboring gene ATAC-STARR-seq lymphoblastoid active region 29052 Neighboring gene ATAC-STARR-seq lymphoblastoid silent region 20310 Neighboring gene Sharpr-MPRA regulatory region 7866 Neighboring gene Sharpr-MPRA regulatory region 2041 Neighboring gene microRNA 2861 Neighboring gene microRNA 3960 Neighboring gene ATAC-STARR-seq lymphoblastoid active region 29053 Neighboring gene ATAC-STARR-seq lymphoblastoid silent region 20313 Neighboring gene H3K4me1 hESC enhancer GRCh37_chr9:130571111-130571753 Neighboring gene H3K4me1 hESC enhancer GRCh37_chr9:130571754-130572397 Neighboring gene H3K4me1 hESC enhancer GRCh37_chr9:130572398-130573040 Neighboring gene folylpolyglutamate synthase Neighboring gene uncharacterized LOC102723566 Neighboring gene endoglin

    Genomic regions, transcripts, and products

    Expression

    • Project title: HPA RNA-seq normal tissues HPA RNA-seq normal tissues
    • Description: RNA-seq was performed of tissue samples from 95 human individuals representing 27 different tissues in order to determine tissue-specificity of all protein-coding genes
    • BioProject: PRJEB4337
    • Publication: PMID 24309898
    • Analysis date: Wed Apr 4 07:08:55 2018

    Bibliography

    GeneRIFs: Gene References Into Functions

    What's a GeneRIF?

    HIV-1 interactions

    Replication interactions

    Interaction Pubs
    HIV transcription is restricted by the dissociation of a functional P-TEFb complex (CCNT1-CDK9) caused by PPP1R10 (PNUTS) PubMed
    HIV-1 NL4-3 replication requires CDK9 as replication is inhibited when CDK9 is deleted through CRISPR/Cas9 genome editing PubMed

    Protein interactions

    Protein Gene Interaction Pubs
    Nef nef HIV-1 Nef induces cyclin K interaction with CDK9, which contributes to the inhibition of CDK9 nuclear translocation PubMed
    nef CDK9 mRNA and kinase activity are upregulated in HIV-1 Nef-expressing human T cell lines PubMed
    nef HIV-1 Nef interacts with Hsp40, leading to increased Hsp40 translocation to the nucleus of infected cells and facilitation of viral gene expression by complex formation of Hsp40 with the cdk9-associated transcription complex PubMed
    Tat tat HIV-1 Tat binds to CDK9 and CCNT1 (CycT1) in an additive manner as shown through Fluoppi (fluorescent-based technology detecting protein-protein interactions) PubMed
    tat The N-terminus (amino acids 1-48, including activation domain) of HIV-1 Tat binds to P-TEFb through a direct interaction with the N-terminus (amino acids 1-290) of cyclin T1 during Tat-mediated transactivation of the HIV-1 LTR promoter PubMed
    tat Binding of HIV-1 Tat to CDK9 stabilizes hydrogen bonds between ATP and residues Lys48, Asp104, and Cys106 and facilitates the salt bridge network pertaining to the phosphorylated Thr186 at the activation loop PubMed
    tat HIV-1 Tat competes with HEXIM1 for binding to 7SK RNA and inhibits the formation of the P-TEFb-HEXIM1-7SK complex. Tat binds to nucleotides 10-48 of 7SK RNA PubMed
    tat A La-related protein, LARP7, is associated with P-TEFb, HEXIM1/2, MEPCE, and 7SK RNA in a large stable complex form. Knockdown of LARP7 decreases the steady-state level of 7SK, but increases free P-TEFb and enhances Tat-mediated transcription PubMed
    tat HIV-1 Tat forms at least two distinct P-TEFb-containing complexes. Tatcom1 is composed of P-TEFb, AF9, ENL, ELL, AFF1, AFF4, and PAF1, presenting strong CTD-kinase activity, while Tatcom2 consists of 7SK, LARP7, and MEPCE with two molecules of Tat/P-TEFb PubMed
    tat HIV-1 Tat recruits P-TEFb to the HIV-1 Transcription Activation Response (TAR) RNA during Tat-mediated transactivation of the HIV-1 LTR promoter PubMed
    tat P-TEFb interacts with HIV-1 Tat as part of both the HIV-1 transcription preinitiation and elongation complexes PubMed
    tat Cyclin-dependent kinase 9 (CDK9, CDC2-related kinase) is identified to interact with HIV-1 Tat mutant Nullbasic in HeLa cells by LC MS/MS PubMed
    tat A homogeneous assay in AlphaLISA indicates that the affinity between HIV-1 Tat and pTEFb is determined to be approximately 20pM, and only 7% of purified Tat is found to be active in forming tertiary complex with pTEFb PubMed
    tat AFF1 enhances the affinity of HIV-1 Tat for CycT1, which competitively dissociates HEXIM1 and is responsible for AFF1's promotion of Tat's extraction of CDK9/CycT1 from 7SK snRNP PubMed
    tat HIV-1 Tat increases the amount of ELL2 bound to P-TEFb without affecting the AFF4-P-TEFb binding. CDK9 is required for the Tat-induced ELL2 accumulation and Tat interaction with ELL2 PubMed
    tat The interaction of HIV-1 Tat with HIV-1 Transcription Activation Response (TAR) RNA is enhanced by the interaction of Tat with P-TEFb, and TAR RNA also enhances the interaction between Tat and cyclin T1 PubMed
    tat P-TEFb is required for HIV-1 Tat-mediated transcriptional activation PubMed
    tat During HIV-1 Tat mediated transactivation of the HIV-1 LTR promoter, Tat stimulates the phosphorylation of the C-terminal domain (CTD) of RNA polymerase II by P-TEFb, leading to transcription elongation PubMed
    tat ZASC1, a cellular transcription factor, interacts with HIV-1 Tat and cellular proteins CDK9/Cyclin T1 (P-TEFb) in a TAR-independent manner, suggesting that the Tat/P-TEFb complex in the transcriptional elongation site is promoted by ZASC1 PubMed
    tat Small molecule ligands disrupt the CDK9/Cyclin T1/Tat complex and dissociate CDK9 away from the HIV-1 transcription complex PubMed
    tat The Tat-AFF4-P-TEFb complex containing HIV-1 Tat (residues 1-48), human Cyclin T1 (residues 1-266), human Cdk9 (residues 7-332), and human AFF4 (residues 27-69) is determined by the crystal structure analysis PubMed
    tat HIV-1 Tat recruits PPM1G phosphatase protein to dephosphorylate the T loop of CDK9 and release P-TEFb from the 7SK snRNP complex PubMed
    tat Binding of isolated AFF1(1-308) CBS to CDK9/CycT1 prevents HIV-1 Tat from activating HIV transcription and assembling complete SECs (AFF1, AFF4, ELL2, and ENL). The AFF1(1-308) M60A/L61A mutant shows no suppression of Tat transactivation PubMed
    tat The interaction of HIV-1 Tat with cellular transcription factors CDK9 and Sp1 is required for Tat activation of MAP2K3-, MAP2K6-, and IRF7-mediated luciferase transcription PubMed
    tat The interaction of Tip110 with HIV-1 Tat and the RNAPII C-terminal domain leads to the recruitment of increased CDK9/CycT1 to the transcription complex PubMed
    tat CDK9-CycT1-AFF1 is stimulated by HIV-1 Tat and transferred as a single complex unit to BRD4 upon stress-induced disruption of AFF1-containing 7SK snRNP (HEXIM1, MEPCE, LARP7, 7SK RNA, CDK9, CycT1, and AFF1) PubMed
    tat Phosphorylation of CDK9 at position Ser175 regulates the competition between HIV-1 Tat and BRD4 for P-TEFb binding PubMed
    tat JQ1, a small molecule inhibitor of Brd4, increases CDK9 T-loop phosphorylation in Tat-dependent manner and partially dissociates P-TEFb from 7SK snRNP in Jurkat cells PubMed
    tat Brd4 inhibits HIV-1 Tat-human super elongation complex (components AFF4, ELL2, CycT1, and CDK9) by competing with HIV-1 Tat for binding to P-TEFb on HIV-1 promoter PubMed
    tat CDK2 regulates HIV-1 Tat-mediated transcription by phosphorylation of CDK9 at position Ser90 and decreases 7SK RNA levels PubMed
    tat HIV-1 Tat mutations at positions Y26 and K28 show the most defect in the Tat:TAR:P-TEFb complex formation, but Tat:P-TEFb assembly is not abolished PubMed
    tat HIV-1 Tat mutations at positions P3, P6, W11, K12, T20, T23, V36, I39, T40, and Y47 show decreased Tat activity and P-TEFb assembly/Cdk9 activation, with three residues P3, P6, and W11 possibly involved in Cdk9 interactions PubMed
    tat Coexpression of RNA-binding domain deficient Tat (T-RS) and two fusion proteins CycT1N-Rev and Cdk9-Rev synergistically stimulates transcription when P-TEFb is tethered to RNA through Rev, and thus T-RS is no longer as an inhibitor PubMed
    tat An RNA-binding domain deficient Tat excludes wild-type Tat from the promoter by preferentially assembling with P-TEFb through the Tat activation domain, but can not facilitate transfer of P-TEFb to TAR, thus blocking transition to elongation PubMed
    tat HIV-1 Tat-mediated release of P-TEFb from the 7SK sn RNP results in a conformational change in 7SK RNA and release of HEXIM1 from the complex PubMed
    tat TAR binds Tat and P-TEFb as it emerges on the nascent transcript, competitively displacing the inhibitory 7SK snRNP (HEXIM1 and LARP7) and activating the P-TEFb kinase PubMed
    tat HIV-1 Tat stimulates the phosphorylation of SPT5 by P-TEFb during transactivation of the HIV-1 LTR promoter PubMed
    tat HIV-1 Tat-mediated stimulation of RNA polymerase II C-terminal domain phosphorylation by P-TEFb leads to stimulation of co-transcriptional capping of HIV-1 mRNA PubMed
    tat Inhibition of Ca(2+) signaling leads to dephosphorylation of Thr186 on CDK9, which results in the decreased transactivation of the HIV-1 LTR by HIV-1 Tat PubMed
    tat ATP analogs are effective inhibitors of HIV-1 Tat-mediated activated transcription with a decreased loading of CDK9 onto the HIV-1 DNA PubMed
    tat HIV-1 Q35L mutant fails to efficiently bind either CDK9 or CycT1 resulting in the defective gene expression. However, the I39Q mutation rescues the Q35L mutant's loss of function PubMed
    tat SKIP is required for Tat transactivation in vivo and stimulates HIV-1 transcription elongation by associating with CycT1:CDK9 (P-TEFb) and Tat:P-TEFb complexes both in nuclear extracts and in recombinant Tat:P-TEFb:TAR RNA complexes in vitro PubMed
    tat HIV-1 Tat and P-TEFb undergo constant association and dissociation cycles with TAR and the elongating polymerase in living cells PubMed
    tat Tat-C/EBPbeta association is mediated through cdk9, which phosphorylates C/EBPbeta. C/EBPbeta-cyclin T1 association requires the presence of cdk9 PubMed
    tat HIV-1 infection leads to activation of P-TEFb due to HIV-1 Tat-mediated release of P-TEFb from the large form PubMed
    tat The P-TEFb binding region (amino acids 1209-1362) of BRD4 is required for HIV-1 Tat-mediated release of P-TEFb from the 7SK snRNP PubMed
    tat CDK11 depletion reduces protein expression of CDK9 and HEXIM1 and Tat transactivation of HIV-1 provirus PubMed
    tat Acetylation of HIV-1 Tat by cellular histone acetyltransferases regulates the binding of Tat to P-TEFb PubMed
    tat Mutant CycT1 protein containing triple T-to-A mutations in the N-terminal region (amino acids T143, T149, and T155) associates with CDK9 and HIV-1 Tat as a kinase-negative complex and blocks HIV transactivation PubMed
    tat The human I-mfa domain-containing protein (HIC) interacts with both P-TEFb and HIV-1 Tat, and modulates Tat transactivation of the HIV-1 LTR promoter PubMed
    tat Cyclin T1 is capable of recruiting CDK9 and HIV-1 Tat to splicing factor-rich nuclear speckle regions, suggesting nuclear speckles are a site of P-TEFb and Tat function PubMed
    tat The up and downregulation of expression of CDK9 and cyclin T1 or sequestration of cyclin T1 in infected cells may regulate HIV-1 latency by up or downregulating HIV-1 Tat transcriptional activation PubMed
    tat Amino acids 260-263 of cyclin T1 are critical for HIV-1 Tat-mediated transcriptional activation, and mediate the species specificity of cyclin T1 and P-TEFb binding to Tat PubMed
    tat P-TEFb regulates HIV-1 Tat-mediated activation of transcription through two built-in auto inhibitory mechanisms, autophosphorylation of CDK9 and cyclin T1 binding to the transcription elongation factor Tat-SF1 PubMed
    tat Undetectable CycT1 protein and un-phosphorylation of CDK9 in undifferentiated monocytes result in the lack of Tat transactivation of the LTR promoter in early viral life cycle PubMed
    tat Interaction of P-TEFb with histone H1 results in its phosphorylation at position Ser-183 in a Tat-dependent manner, which is necessary for transcription from the HIV-1 LTR PubMed
    tat CDK9 is involved in Tat-induced MCP-1/CCL2 gene expression in human astrocytes PubMed
    tat PARP1 negatively regulates HIV-1 transcription by directly competing with Tat-P-TEFb complex for binding to TAR RNA PubMed
    tat HIV-1 Tat-induced kinase activity of P-TEFb is highly sensitive to flavopiridol, a CDK inhibitor. P-TEFb-mediated phosphorylation of RNAP II CTD, SPT5, and Tat-SF1 during HIV-1 transcription elongation is also highly sensitive to flavopiridol PubMed
    tat The p160 nuclear receptor co-activator GRIP1 binds to the N-terminal region of HIV-1 Tat, bridging HIV-1 LTR promoter-bound factors to the Tat-P-TEFb complex and enhancing the transactivating activity of Tat PubMed
    tat Cdk9, the catalytic subunit of P-TEFb, is ubiquitinated by Skp1/Cul1/F-box protein E3 ubiquitin ligase Skp2, which facilitates the formation of the RNA-protein complex between P-TEFb, Tat, and TAR, thereby enhancing Tat transactivation PubMed
    tat The growth factor granulin and the promyelocytic leukemia (PML) protein regulate HIV-1 Tat-mediated transcriptional activation by competing with the Tat interaction with cyclin T1/P-TEFb PubMed
    tat TFIIH inhibits the phosphorylation of CDK9 in the HIV-1 transcription preinitiation complex, while HIV-1 Tat stimulates CDK9 autophosphorylation to activate transcription elongation PubMed
    tat Overexpression of CDK9 or CDK9 mutants inhibits HIV-1 Tat transcriptional activation PubMed
    tat Tat-SF1 is a required cofactor for HIV-1 Tat activity that complexes with P-TEFb and Tat, and stimulates Tat-mediated activation of the HIV-1 LTR promoter PubMed
    tat P-TEFb, Puralpha and HIV-1 Tat cooperate to activate the TNFalpha promoter PubMed
    tat Hsp70 and Hsp90/Cdc37 stabilize CDK9 as well as the assembly of an active P-TEFb complex which is stimulated by HIV-1 Tat during HIV-1 transcriptional activation PubMed
    tat HIV-1 Tat competes with CIITA for the binding to P-TEFb, leading to the downregulation of MHC class II gene expression PubMed
    tat MAQ1 and 7SK RNA interact with P-TEFb and compete with the binding of HIV-1 Tat to cyclin T1, suggesting the TAR RNA/Tat lentivirus system evolved to subvert the cellular 7SK RNA/MAQ1 system PubMed
    Vif vif HIV-1 Vif interacts with CDK9 to regulate Vif-mediated G1-to-S transition and siRNA against CDK9 counteracts the transition PubMed
    Vpr vpr HIV-1 Vpr interacts with CDK9 through binding to HIV-1 Tat and cyclin T1 in a ternary complex, Tat-Vpr-Cyclin T1-CDK9, and enhances Tat transactivation of the viral LTR promoter PubMed

    Go to the HIV-1, Human Interaction Database

    Pathways from PubChem

    Interactions

    Products Interactant Other Gene Complex Source Pubs Description

    General gene information

    Markers

    Gene Ontology Provided by GOA

    Function Evidence Code Pubs
    enables 7SK snRNA binding IDA
    Inferred from Direct Assay
    more info
    PubMed 
    enables ATP binding IEA
    Inferred from Electronic Annotation
    more info
     
    enables DNA binding IDA
    Inferred from Direct Assay
    more info
    PubMed 
    enables RNA polymerase II CTD heptapeptide repeat kinase activity IBA
    Inferred from Biological aspect of Ancestor
    more info
     
    enables RNA polymerase II CTD heptapeptide repeat kinase activity IDA
    Inferred from Direct Assay
    more info
    PubMed 
    enables RNA polymerase II cis-regulatory region sequence-specific DNA binding IEA
    Inferred from Electronic Annotation
    more info
     
    enables chromatin binding ISS
    Inferred from Sequence or Structural Similarity
    more info
     
    enables cyclin-dependent protein serine/threonine kinase activity IBA
    Inferred from Biological aspect of Ancestor
    more info
     
    enables cyclin-dependent protein serine/threonine kinase activity IDA
    Inferred from Direct Assay
    more info
    PubMed 
    enables kinase activity IDA
    Inferred from Direct Assay
    more info
    PubMed 
    enables protein binding IPI
    Inferred from Physical Interaction
    more info
    PubMed 
    enables protein kinase activity TAS
    Traceable Author Statement
    more info
    PubMed 
    enables protein kinase binding IEA
    Inferred from Electronic Annotation
    more info
     
    enables protein serine kinase activity IEA
    Inferred from Electronic Annotation
    more info
     
    enables protein serine/threonine kinase activity IDA
    Inferred from Direct Assay
    more info
    PubMed 
    enables protein serine/threonine kinase activity TAS
    Traceable Author Statement
    more info
     
    enables transcription coactivator binding IPI
    Inferred from Physical Interaction
    more info
    PubMed 
    enables transcription elongation factor activity IDA
    Inferred from Direct Assay
    more info
    PubMed 
    Process Evidence Code Pubs
    involved_in DNA repair IEA
    Inferred from Electronic Annotation
    more info
     
    involved_in cell population proliferation TAS
    Traceable Author Statement
    more info
    PubMed 
    involved_in cellular response to cytokine stimulus IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in negative regulation of protein localization to chromatin IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in nucleus localization IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in positive regulation by host of viral transcription IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in positive regulation by host of viral transcription ISS
    Inferred from Sequence or Structural Similarity
    more info
     
    involved_in positive regulation of protein localization to chromatin IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in positive regulation of transcription by RNA polymerase II IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in positive regulation of transcription elongation by RNA polymerase II IBA
    Inferred from Biological aspect of Ancestor
    more info
     
    involved_in positive regulation of transcription elongation by RNA polymerase II IDA
    Inferred from Direct Assay
    more info
    PubMed 
    acts_upstream_of_or_within protein phosphorylation IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in regulation of DNA repair IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in regulation of cell cycle IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in regulation of mRNA 3'-end processing IMP
    Inferred from Mutant Phenotype
    more info
    PubMed 
    NOT involved_in regulation of mitotic cell cycle IMP
    Inferred from Mutant Phenotype
    more info
    PubMed 
    involved_in regulation of muscle cell differentiation IMP
    Inferred from Mutant Phenotype
    more info
    PubMed 
    involved_in replication fork processing IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in transcription by RNA polymerase II IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in transcription elongation by RNA polymerase II IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in transcription elongation by RNA polymerase II TAS
    Traceable Author Statement
    more info
     
    involved_in transcription elongation-coupled chromatin remodeling IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in transcription initiation at RNA polymerase II promoter TAS
    Traceable Author Statement
    more info
    PubMed 
    Component Evidence Code Pubs
    part_of P-TEFb complex IDA
    Inferred from Direct Assay
    more info
    PubMed 
    located_in PML body IDA
    Inferred from Direct Assay
    more info
    PubMed 
    part_of cyclin/CDK positive transcription elongation factor complex IDA
    Inferred from Direct Assay
    more info
    PubMed 
    part_of cyclin/CDK positive transcription elongation factor complex IPI
    Inferred from Physical Interaction
    more info
    PubMed 
    located_in cytoplasmic ribonucleoprotein granule IDA
    Inferred from Direct Assay
    more info
     
    located_in membrane HDA PubMed 
    located_in nucleoplasm IDA
    Inferred from Direct Assay
    more info
     
    located_in nucleoplasm TAS
    Traceable Author Statement
    more info
     
    is_active_in nucleus IBA
    Inferred from Biological aspect of Ancestor
    more info
     
    is_active_in nucleus IDA
    Inferred from Direct Assay
    more info
    PubMed 
    located_in nucleus IDA
    Inferred from Direct Assay
    more info
    PubMed 
    part_of transcription elongation factor complex IDA
    Inferred from Direct Assay
    more info
    PubMed 

    General protein information

    Preferred Names
    cyclin-dependent kinase 9
    Names
    CDC2-related kinase
    cell division cycle 2-like protein kinase 4
    cell division protein kinase 9
    serine/threonine protein kinase PITALRE
    tat-associated kinase complex catalytic subunit
    NP_001252.1

    NCBI Reference Sequences (RefSeq)

    NEW Try the new Transcript table

    RefSeqs maintained independently of Annotated Genomes

    These reference sequences exist independently of genome builds. Explain

    These reference sequences are curated independently of the genome annotation cycle, so their versions may not match the RefSeq versions in the current genome build. Identify version mismatches by comparing the version of the RefSeq in this section to the one reported in Genomic regions, transcripts, and products above.

    Genomic

    1. NG_033942.1 RefSeqGene

      Range
      5009..9767
      Download
      GenBank, FASTA, Sequence Viewer (Graphics)

    mRNA and Protein(s)

    1. NM_001261.4NP_001252.1  cyclin-dependent kinase 9

      See identical proteins and their annotated locations for NP_001252.1

      Status: REVIEWED

      Source sequence(s)
      AL162586, BC001968, BE549667, BX091973, DB120461
      Consensus CDS
      CCDS6879.1
      UniProtKB/Swiss-Prot
      P50750, Q5JU24, Q5JU25, Q5U006, Q96TF1
      UniProtKB/TrEMBL
      B2R9L6, B5BU53
      Related
      ENSP00000362361.4, ENST00000373264.5
      Conserved Domains (1) summary
      cd07865
      Location:6315
      STKc_CDK9; Catalytic domain of the Serine/Threonine Kinase, Cyclin-Dependent protein Kinase 9

    RefSeqs of Annotated Genomes: GCF_000001405.40-RS_2024_08

    The following sections contain reference sequences that belong to a specific genome build. Explain

    Reference GRCh38.p14 Primary Assembly

    Genomic

    1. NC_000009.12 Reference GRCh38.p14 Primary Assembly

      Range
      127786034..127790792
      Download
      GenBank, FASTA, Sequence Viewer (Graphics)

    Alternate T2T-CHM13v2.0

    Genomic

    1. NC_060933.1 Alternate T2T-CHM13v2.0

      Range
      139993485..139998243
      Download
      GenBank, FASTA, Sequence Viewer (Graphics)