CDKL5基因敲除HEK293细胞

CDKL5基因敲除HEK293细胞
货号:

EDJ-KQ1252

物种:

细胞名称:

HEK293

基因名称:

CDKL5

基因ID:

6792

规格:

1×10⁶cells

CDKL5基因敲除细胞HEK293是由艾迪基因优化的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-KQ1252
产品名称 CDKL5 Knockout HEK293 Cell Line
细胞 HEK293
Cellosaurus ID CVCL_0045
细胞别名 Hek293, HEK-293, HEK/293, (HEK)293, HEK 293, HEK,293, 293, 293 HEK, 293 Ad5, Graham 293, Graham-293, Human Embryonic Kidney 293
基因 CDKL5
基因ID
基因别名 CFAP247|DEE2|EIEE2|ISSX|STK9
摘要
This gene is a member of Ser/Thr protein kinase family and encodes a phosphorylated protein with protein kinase activity. Mutations in this gene have been associated with X-linked infantile spasm syndrome (ISSX), also known as X-linked West syndrome, and Rett syndrome (RTT). Alternate transcriptional splice variants have been characterized. [provided by RefSeq, Jul 2008]
癌症类型 Non-tumor
细胞形态 Adherent
传代比率 1/2~1/4
完全培养基 DMEM + 10% FBS
冻存培养基 95%完全培养基+ 5% 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: HEK293
细胞库细胞STR信息
细胞库细胞名: HEK293
Allele1Allele2Allele1 Allele2
AmelogeninXX
CSF1P0121112
D2S13381919
D3S135815171517
D5S818889
D7S82011121112
D8S117912141214
D13S31712141214
D16S539913913
D18S5117181718
D19S43315181518
D21S112830.22830.2
FGA2323
Penta D910910
Penta E715715
TH0179.379.3
TPOX1111
vWA16191619
D6S10431111
D12S39119211115
D2S44111151115
* 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=10.1
Molecular psychiatry
CDKL5 is a brain-enriched serine/threonine kinase, associated with a profound developmental and epileptic encephalopathy called CDKL5 deficiency disorder (CDD). To design targeted therapies for CDD, it is essential to determine where CDKL5 is expressed and is active in the brain and test if compensatory mechanisms exist at cellular level. We generated conditional Cdkl5 knockout mice in excitatory neurons, inhibitory neurons and astrocytes. To assess CDKL5 activity, we utilized a phosphospecific antibody for phosphorylated EB2, a well-known substrate of CDKL5. We found that CDKL5 and EB2 pS222 were prominent in excitatory and inhibitory neurons but were not detected in astrocytes. We observed that approximately 15-20% of EB2 pS222 remained in Cdkl5 knockout brains and primary neurons. Surprisingly, the remaining phosphorylation was modulated by NMDA and PP1/PP2A in neuronal CDKL5 knockout cultures, indicating the presence of a compensating kinase. Using a screen of candidate kinases with highest homology to the CDKL5 kinase domain, we found that CDKL2 and ICK can phosphorylate EB2 S222 in HEK293T cells and in primary neurons. We then generated Cdkl5/Cdkl2 dual knockout mice to directly test if CDKL2 phosphorylates EB2 in vivo and found that CDKL2 phosphorylates CDKL5 substrates in the brain. This study is the first indication that CDKL2 could potentially replace CDKL5 functions in the brain, alluding to novel therapeutic possibilities.
该敲除模型可用于: - 研究代偿性激酶机制,特别是 CDKL2 和 ICK 对 EB2 在 S222 的磷酸化 - 研究调节 CDKL5 缺失背景下残留 EB2 磷酸化的 NMDA 受体和 PP1/PP2A 信号通路 - 验证磷酸化特异性抗体(如 pEB2 S222)作为细胞测定中 CDKL5 活性的读数 - 筛选与 CDKL5 激酶结构域同源的候选激酶以检测底物交叉反应性 - 模拟 CDKL5 缺乏症以测试 CDKL2 激活是否能恢复 CDKL5 底物磷酸化

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