Cdk9-flox Mouse
Common Name
Cdk9-flox
제품 ID
S-CKO-17524
Backgroud
C57BL/6JCya
품종 계통계통 ID
CKOCMP-107951-Cdk9-B6J-VB
상태
이 마우스 계통을 논문에서 사용할 경우, “Cdk9-flox Mouse (카탈로그 번호 S-CKO-17524)은 Cyagen에서 구입하였습니다.”라고 명시해 주시기 바랍니다.
구매 가능한 제품 종류
연령
Genotype
성별
수량
표준 제공 조건은 최소 3마리의 이형접합(heterozygous) 보균자를 보장합니다. 동형접합(homozygous) 보균자 및/또는 특정 성별에 대한 브리딩 서비스도 제공됩니다.
기본 정보
품종 계통
Cdk9-flox
품종 계통계통 ID
CKOCMP-107951-Cdk9-B6J-VB
유전자명
제품 ID
S-CKO-17524
유전자 별칭
PITALRE
배경
C57BL/6JCya
NCBI ID
변형 내용
Conditional knockout
염색체
Chr 2
Phenotype
Datasheet
적용 분야
--
품종 계통 설명
Ensembl 전사체 ID
ENSMUST00000009699
NCBI 전사체 ID
NM_130860
타겟 영역
Exon 3~6
유효 영역 크기
~2.0 kb
유전자 연구 개요
CDK9, or cyclin dependent kinase 9, is a serine/threonine kinase and a key component of the P-TEFb complex. It phosphorylates RNA polymerase (RNAP) II and other transcription factors, regulating gene transcription elongation in numerous physiological processes such as development, differentiation, and cell fate responses [6,7]. Aberrations in its activity have been linked to various cancers, making it an attractive therapeutic target [2].
In hepatocellular carcinoma (HCC), inhibition of CDK9 blocks PINK1-PRKN-mediated mitophagy by regulating the SIRT1-FOXO3-BNIP3 axis, leading to mitochondrial dysfunction and cell death. A novel CDK9 inhibitor, oroxylin A (OA), shows strong therapeutic potential against HCC and can overcome drug resistance [1]. In cancer research in general, there is intensive development of small-molecule CDK9 inhibitors and new strategies like PROTACs [2]. Pharmacological perturbation using selective CDK9 inhibition or degradation reveals that kinase degradation can have distinct effects compared to inhibition [3]. The PP2A-Integrator-CDK9 axis fine-tunes transcription, and targeting this axis can be a therapeutic strategy in cancer [4]. In solid tumors, CDK9 overexpression correlates with cancer development, and many solid cancers depend on its activity for oncogenic signaling [5]. In multiple myeloma, CDK9 inhibitors can overcome resistance and prolong survival, and in acute myeloid leukemia, targeting the CDK9 pathway is an attractive approach [8,9].
In conclusion, CDK9 is essential for regulating transcriptional elongation in key biological processes. Its dysregulation is associated with multiple cancers. Studies using inhibitors and other functional perturbation methods in various cancer models, including in vivo-like patient-derived tumor xenograft (PDX) models in HCC [1], have shown its potential as a therapeutic target in cancer treatment. These findings provide insights into the biological functions of CDK9 and open up new avenues for developing effective cancer therapies.
References:
1. Yao, Jingyue, Wang, Jubo, Xu, Ye, Guo, Yongjian, Wei, Libin. 2021. CDK9 inhibition blocks the initiation of PINK1-PRKN-mediated mitophagy by regulating the SIRT1-FOXO3-BNIP3 axis and enhances the therapeutic effects involving mitochondrial dysfunction in hepatocellular carcinoma. In Autophagy, 18, 1879-1897. doi:10.1080/15548627.2021.2007027. https://pubmed.ncbi.nlm.nih.gov/34890308/
2. Huang, Zhi, Wang, Tianqi, Wang, Cheng, Fan, Yan. 2022. CDK9 inhibitors in cancer research. In RSC medicinal chemistry, 13, 688-710. doi:10.1039/d2md00040g. https://pubmed.ncbi.nlm.nih.gov/35814933/
3. Olson, Calla M, Jiang, Baishan, Erb, Michael A, Winter, Georg E, Gray, Nathanael S. 2017. Pharmacological perturbation of CDK9 using selective CDK9 inhibition or degradation. In Nature chemical biology, 14, 163-170. doi:10.1038/nchembio.2538. https://pubmed.ncbi.nlm.nih.gov/29251720/
4. Vervoort, Stephin J, Welsh, Sarah A, Devlin, Jennifer R, Gardini, Alessandro, Johnstone, Ricky W. 2021. The PP2A-Integrator-CDK9 axis fine-tunes transcription and can be targeted therapeutically in cancer. In Cell, 184, 3143-3162.e32. doi:10.1016/j.cell.2021.04.022. https://pubmed.ncbi.nlm.nih.gov/34004147/
5. Mo, Christiana, Wei, Ning, Li, Terence, Mohammadi, Mahshid, Kuang, Chaoyuan. 2024. CDK9 inhibitors for the treatment of solid tumors. In Biochemical pharmacology, 229, 116470. doi:10.1016/j.bcp.2024.116470. https://pubmed.ncbi.nlm.nih.gov/39127153/
6. Eyvazi, Shirin, Hejazi, Mohammad Saeid, Kahroba, Homan, Zamiri, Reza Eghdam, Tarhriz, Vahideh. . CDK9 as an Appealing Target for Therapeutic Interventions. In Current drug targets, 20, 453-464. doi:10.2174/1389450119666181026152221. https://pubmed.ncbi.nlm.nih.gov/30362418/
7. Bacon, Curtis W, D'Orso, Iván. 2018. CDK9: a signaling hub for transcriptional control. In Transcription, 10, 57-75. doi:10.1080/21541264.2018.1523668. https://pubmed.ncbi.nlm.nih.gov/30227759/
8. Borowczak, Jędrzej, Szczerbowski, Krzysztof, Ahmadi, Navid, Szylberg, Łukasz. 2022. CDK9 inhibitors in multiple myeloma: a review of progress and perspectives. In Medical oncology (Northwood, London, England), 39, 39. doi:10.1007/s12032-021-01636-1. https://pubmed.ncbi.nlm.nih.gov/35092513/
9. Boffo, Silvia, Damato, Angela, Alfano, Luigi, Giordano, Antonio. 2018. CDK9 inhibitors in acute myeloid leukemia. In Journal of experimental & clinical cancer research : CR, 37, 36. doi:10.1186/s13046-018-0704-8. https://pubmed.ncbi.nlm.nih.gov/29471852/
품질 관리 기준
정자 검사
동결 보존 전: 정자 농도 측정 및 정자 생존율 평가.
동결 보존 후: 각 배치에서 동결 보존된 정자 바이알 1개를 선택하여 체외수정(in vitro fertilization)에 사용합니다.
Environmental Standards:
SPFAvailable Region:
GlobalSource:
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