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Gene	CDK12
Variant	K756R
Impact List	missense
Protein Effect	loss of function
Gene Variant Descriptions	CDK12 K756R lies within the protein kinase domain of the Cdk12 protein (UniProt.org). K756R results in a kinase dead Cdk12 protein (PMID: 24554720).
Associated Drug Resistance
Category Variants Paths	CDK12 mutant CDK12 inact mut CDK12 K756R

Variant Reference Transcript
All Transcripts

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Transcript	NM_016507.4
gDNA	chr17:g.39494542A>G
cDNA	c.2267A>G
Protein	p.K756R
Source Database	RefSeq
Genome Build	GRCh38/hg38

Transcript	gDNA	cDNA	Protein	Source Database	Genome Build
XM_011524900	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436272.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
NM_015083.4	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_017024748	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
NM_015083.2	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524897.2	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436289.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524895	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524906.3	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524906.2	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436278.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436274.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524907.2	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524895.2	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524896.2	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436253.1	chr17:g.39494545A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436287.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436261.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
NM_016507.4	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524901.2	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524892.2	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436275.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_017024749.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_017024751.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_017024745	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436279.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_017024747.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524898.3	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524903.2	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436281.1	chr17:g.39494545A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436256.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_017024752.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524907.3	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436291.1	chr17:g.39494545A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524897.3	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_005257458	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_017024747	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436262.1	chr17:g.39494545A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524896	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524893.3	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_017024746	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436293.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_017024750.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524895.3	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_005257456.5	chr17:g.39494545A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436270.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524906	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524898	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436276.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524897	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524894	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
NM_015083	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_017024749	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524907	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436265.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
NM_016507	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_017024744	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436263.1	chr17:g.39494545A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524902	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524893.2	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_017024751	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524898.2	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524903	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_017024753.2	chr17:g.39494545A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436283.1	chr17:g.39494545A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_024450801.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436260.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524905.2	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436273.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524894.2	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436277.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436269.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436255.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436266.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436257.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524902.2	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436258.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524894.3	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_005257456.4	chr17:g.39494545A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_017024753.3	chr17:g.39494545A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
NM_016507.3	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_005257456	chr17:g.39494545A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524905	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436267.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436286.1	chr17:g.39494545A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436284.1	chr17:g.39494545A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_017024748.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436288.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436264.1	chr17:g.39494545A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524901	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524899.2	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436259.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_017024753	chr17:g.39494545A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_017024752	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436268.1	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524899	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524900.2	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524893	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_011524892	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436280.1	chr17:g.39494545A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436292.1	chr17:g.39494545A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436285.1	chr17:g.39494545A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_005257458.4	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436290.1	chr17:g.39494545A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_017024750	chr17:g.39494542A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38
XM_047436282.1	chr17:g.39494545A>G	c.2267A>G	p.K756R	RefSeq	GRCh38/hg38

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Use simple literal full or partial string matches
Separate multiple filter terms with a space. Any order may be used (i. e. a b c and c b a are equivalent )
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Use quotes to match on a longer phrase with spaces (i.e. "mtor c1483f")

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Molecular Profile	Indication/Tumor Type	Response Type	Therapy Name	Approval Status	Evidence Type	Efficacy Evidence	References
CDK12 inact mut	Advanced Solid Tumor	predicted - sensitive	RP-3500	Case Reports/Case Series	Actionable	In a Phase I/II trial (TRESR), RP-3500 treatment resulted in a response rate of 12% (13/113), clinical benefit rate (CBR) of 42% (47/113), and median progression-free survival (mPFS) of 15 weeks in solid tumor patients with inactivating mutations in DNA damage repair genes, including CDK12 with a CBR of 28.6% (2/7), and with a CBR of 75% and mPFS of 35 weeks in 20 ovarian cancer patients (PMID: 37277454; NCT04497116).	37277454
CDK12 inact mut	prostate cancer	sensitive	Olaparib	Phase II	Actionable	In a Phase II trial (TOPARP-B), Lynparza (olaparib) treatment resulted in a composite overall response rate of 25.0% (5/20) and a RECIST objective response rate of 0% (0/18) in patients with castration-resistant prostate cancer harboring deleterious CDK12 mutations (PMID: 31806540; NCT01682772).	31806540
CDK12 inact mut	prostate cancer	sensitive	Olaparib	Guideline	Actionable	Lynparza (olaparib) is included in guidelines as second-line therapy post androgen receptor-directed therapy for patients with metastatic castration-resistant prostate cancer harboring pathogenic mutations in CDK12 (NCCN.org).	detail...
CDK12 inact mut	prostate cancer	sensitive	Olaparib	FDA approved - On Companion Diagnostic	Actionable	In a Phase III trial (PROfound) that supported FDA approval, Lynparza (olaparib) improved median imaging-based progression-free survival (5.8 vs 3.5 mo, HR 0.49, p<0.001) compared to control in metastatic castration-resistant prostate cancer patients harboring deleterious or suspected deleterious mutations in homologous recombination repair genes who progressed on hormone therapy, HR for progression or death was 0.74 in CDK12-mutant patients (PMID: 32343890; NCT02987543).	detail... 32343890 detail...
CDK12 inact mut	prostate cancer	no benefit	Rucaparib	Phase II	Actionable	In a Phase II trial (TRITON2), activity of Rubraca (rucaparib) was limited in the cohort of patients with metastatic castrate-resistant prostate cancer harboring a CDK12 mutation presumed to be inactivating, with no confirmed radiographic responses in 10 evaluable patients and a PSA response in 1 patient with biallelic CDK12 alterations in the overall population of 15 patients, and a clinical benefit rate of 20% (3/15) at 6 months and 7.1% (1/14) at 12 months (PMID: 32086346; NCT02952534).	32086346
CDK12 inact mut	prostate cancer	sensitive	Enzalutamide + Talazoparib	Guideline	Actionable	Talzenna (talazoparib) plus Xtandi (enzalutamide) is included in guidelines as systemic therapy for patients with metastatic castration-resistant prostate cancer harboring a pathogenic germline or somatic CDK12 mutation who have not been treated in the setting of castration-resistant prostate cancer (NCCN.org).	detail...
CDK12 inact mut	prostate cancer	sensitive	Enzalutamide + Talazoparib	FDA approved	Actionable	In a Phase III trial (TALAPRO-2) that supported FDA approval, Talzenna (talazoparib) plus Xtandi (enzalutamide) improved median radiographic progression-free survival compared to enzalutamide plus placebo (27.9 vs 16.4 mo, HR 0.46, p=0.0003) in patients with metastatic castration-resistant prostate cancer harboring deficient homologous recombination repair genes including CDK12, with an HR of 0.66 (p=0.12) in patients with non-BRCA mutations treated with Talzenna (talazoparib) (PMID: 37285865; NCT03395197).	detail... 37285865
CDK12 mutant	prostate cancer	predicted - sensitive	unspecified PD-1 antibody	Case Reports/Case Series	Actionable	In a clinical study, 50% (2/4) of prostate cancer patients with mutant CDK12 responded to an unspecified checkpoint inhibitor immunotherapy and had a corresponding decrease in prostate specific antigen (PMID: 29906450).	29906450