TP53基因敲除HeLa细胞

TP53基因敲除HeLa细胞
货号:

EDJ-KQ18086

物种:

细胞名称:

HeLa

基因名称:

TP53

基因ID:

7157

规格:

1×10⁶cells

TP53基因敲除细胞HeLa是由EVO视讯 EVO真人生命基因优化的CRISPR/Cas9编辑而成,采用Sanger测序法验证敲除,保证单克隆,活性良好。
货号 EDJ-KQ18086
产品名称 TP53 Knockout HeLa Cell Line
细胞 HeLa
Cellosaurus ID CVCL_0030
细胞别名 HELA, Hela, He La, He-La, HeLa-CCL2, Henrietta Lacks cells, Helacyton gartleri
基因 TP53
基因ID
7157
基因别名 BCC7|BMFS5|LFS1|P53|TRP53
摘要
This gene encodes a tumor suppressor protein containing transcriptional activation, DNA binding, and oligomerization domains. The encoded protein responds to diverse cellular stresses to regulate expression of target genes, thereby inducing cell cycle arrest, apoptosis, senescence, DNA repair, or changes in metabolism. Mutations in this gene are associated with a variety of human cancers, including hereditary cancers such as Li-Fraumeni syndrome. Alternative splicing of this gene and the use of alternate promoters result in multiple transcript variants and isoforms. Additional isoforms have also been shown to result from the use of alternate translation initiation codons from identical transcript variants (PMIDs: 12032546, 20937277). [provided by RefSeq, Dec 2016]
癌症类型 Cervical Carcinoma
细胞形态 Adherent
传代比率 1/5, 2days
完全培养基 MEM + 10% FBS
冻存培养基 70%完全培养基+ 20% FBS+ 10% DMSO
* 仅供科研使用,不适用于人体或动物,包括临床、治疗或诊断用途。
Loci送检细胞STR信息
送检细胞名: HeLa
细胞库细胞STR信息
细胞库细胞名: HeLa
Allele1Allele2Allele1 Allele2
AmelogeninXX
CSF1PO910910
D1S165612151215
D2S13381717
D3S135815181518
D5S81811121112
D6S10431818
D7S820812812
D8S117912131213
D12S39120252025
D13S31712141214
D16S539910910
D18S511616
D19S43313141314
D21S1127282728
FGA18211821
Penta D815815
Penta E717717
TPOX812812
VWA16181618
* 该细胞系与收录于ATCC, DSMZ, JCRB 和 RIKEN数据库的细胞系STR数据匹配。
结论:该细胞 STR 鉴定正确。
* 研究用途免责声明:本内容基于公开的研究数据、生物信息学资源及计算分析生成,仅供研究参考。

相关文献

IF=3.7
Molecular and cellular biochemistry
Pleckstrin homeolike domain, family A, member 1 (PHLDA1) is a multifunctional protein that plays diverse roles in A variety of biological processes, including cell death, and hence its altered expression has been found in different types of cancer. Although studies have shown a regulatory relationship between p53 and PHLDA1, the molecular mechanism is still unclear. Especially, the role of PHLDA1 in the process of apoptosis is still controversial. In this study, we found that the expression of PHLDA1 in human cervical cancer cell lines was correlated with the up-expression of p53 after treatment with apoptosis-inducing factors. Subsequently, the binding site and the binding effect of p53 on the promoter region of PHLDA1 were verified by our bioinformatics data analysis and luciferase reporter assay. Indeed, we used CRISPR-Cas9 to knockout the p53 gene in HeLa cells and further confirmed that p53 can bind to the promoter region of PHLDA1 gene, and then directly regulate the expression of PHLDA1 by recruiting P300 and CBP to change the acetylation and methylation levels in the promoter region. Finally, a series of gain-of-function experiments further confirmed that p53 re-expression in HeLa cell can up-regulate the reduction of PHLDA1 caused by p53 knockout, and affect cell apoptosis and proliferation. Our study is the first to explore the regulatory mechanism of p53 on PHLDA1 by using the p53 gene knockout cell model, which further proves that PHLDA1 is a target-gene in p53-mediated apoptosis, and reveals the important role of PHLDA1 in cell fate determination.
IF=2.5
Molecular biotechnology
p53 is a tumor suppressor gene activated in response to cellular stressors that inhibits cell cycle progression and induces pro-apoptotic signaling. The protein level of p53 is well balanced by the action of several E3 ligases and deubiquitinating enzymes (DUBs). Several DUBs have been reported to negatively regulate and promote p53 degradation in tumors. In this study, we identified USP19 as a negative regulator of p53 protein level. We demonstrate a direct interaction between USP19 and p53 by pull down assay. The overexpression of USP19 promoted ubiquitination of p53 and reduced its protein half-life. We also demonstrate that CRISPR/Cas9-mediated knockout of USP19 in cervical cancer cells elevates p53 protein levels, resulting in reduced colony formation, cell migration, and cell invasion. Overall, our results indicate that USP19 negatively regulates p53 protein levels in cervical cancer progression.
IF=2.4
Virology
Human papillomaviruses (HPVs) such as HPV16 and HPV18 can cause cancers of the cervix, anogenital and oropharyngeal sites. Continuous expression of the HPV oncoproteins E6 and E7 are essential for transformation and maintenance of cancer cells. Therefore, therapeutic targeting of E6 or E7 genes can potentially treat HPV-related cancers. Here we report that CRISPR/Cas9-based knockout of E6 or E7 can trigger cellular senescence in HPV18 immortalized HeLa cells. Specifically, E6 or E7-inactivated HeLa cells exhibited characteristic senescence markers like enlarged cell surface area, increased β-galactosidase expression and loss of lamin B1. Since E6 and E7 are bicistronic transcripts, inactivation of HPV18 E6 resulted in knockout of both E6 and E7 and increasing levels of p53/p21 and pRb/p21, respectively. Knockout of HPV18 E7 resulted in decreased E6 expression with activation of pRb/p21 pathway. Taken together, our study demonstrates cellular senescence as an alternative outcome of HPV oncogene inactivation by CRISPR/Cas9.
该敲除模型可用于: - 研究p53介导的凋亡及其下游靶基因。 - 研究p53的负调节因子在宫颈癌进展中的作用。 - 评估p53在HPV癌基因诱导衰老中的作用。 - 在药物筛选和癌症生物学中验证p53依赖性通路的功能。 - 宫颈癌模型中p53失活和再激活的机制研究。

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