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CDK1 Knockout HEK293 Cell Pool

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LM01024170312

产品编号: LM01024170312

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隐藏域元素占位

  • 产品描述
  • 细胞复苏
  • 细胞传代
  • 细胞冻存
  • 抗体验证结果
    • 品牌: ELEMok138cn太阳集团529
    • 商品名称: CDK1 Knockout HEK293 Cell Pool
    • 商品编号: LM01024170312
    • Gene Symbol: CDK1 CDC2 CDC28A CDKN1 P34CDC2
    • Ensembl ID: ENSG00000170312
    • Uniprot ID: P06493
    • 宿主细胞 / 类型: HEK293/人胚肾细胞
    • NCBI Gene ID: 983
    • 规格: 1×10^6 cells/ 冻存管
    • 筛选标记: N/A
    • 生长特性: 贴壁细胞,上皮细胞样
    • 培养条件: 37℃,5% CO2 的培养箱,1/3到 1/4 传代
    • 倍增时间: ~24-45 hours
    • 生长培养基: DMEM+10% FBS+1% P,S
    • 参考换液频率: 2~3次/周
    • 支原体检测结果: 阴性
    • 敲除效率(Sanger测序): >70%
    • 蛋白质组验证结果: N/A
    • 抗体货号: 添加中
    • 目标基因介绍: (Microbial infection) Acts as a receptor for hepatitis C virus (HCV) in hepatocytes and facilitates its cell entry.||Plays a key role in the control of the eukaryotic cell cycle by modulating the centrosome cycle as well as mitotic onset; promotes G2-M transition, and regulates G1 progress and G1-S transition via association with multiple interphase cyclins. Required in higher cells for entry into S-phase and mitosis. Phosphorylates PARVA/actopaxin, APC, AMPH, APC, BARD1, Bcl-xL/BCL2L1, BRCA2, CALD1, CASP8, CDC7, CDC20, CDC25A, CDC25C, CC2D1A, CENPA, CSNK2 proteins/CKII, FZR1/CDH1, CDK7, CEBPB, CHAMP1, DMD/dystrophin, EEF1 proteins/EF-1, EZH2, KIF11/EG5, EGFR, FANCG, FOS, GFAP, GOLGA2/GM130, GRASP1, UBE2A/hHR6A, HIST1H1 proteins/histone H1, HMGA1, HIVEP3/KRC, LMNA, LMNB, LMNC, LBR, LATS1, MAP1B, MAP4, MARCKS, MCM2, MCM4, MKLP1, MYB, NEFH, NFIC, NPC/nuclear pore complex, PITPNM1/NIR2, NPM1, NCL, NUCKS1, NPM1/numatrin, ORC1, PRKAR2A, EEF1E1/p18, EIF3F/p47, p53/TP53, NONO/p54NRB, PAPOLA, PLEC/plectin, RB1, TPPP, UL40/R2, RAB4A, RAP1GAP, RCC1, RPS6KB1/S6K1, KHDRBS1/SAM68, ESPL1, SKI, BIRC5/survivin, STIP1, TEX14, beta-tubulins, MAPT/TAU, NEDD1, VIM/vimentin, TK1, FOXO1, RUNX1/AML1, SAMHD1, SIRT2 and RUNX2. CDK1/CDC2-cyclin-B controls pronuclear union in interphase fertilized eggs. Essential for early stages of embryonic development. During G2 and early mitosis, CDC25A/B/C-mediated dephosphorylation activates CDK1/cyclin complexes which phosphorylate several substrates that trigger at least centrosome separation, Golgi dynamics, nuclear envelope breakdown and chromosome condensation. Once chromosomes are condensed and aligned at the metaphase plate, CDK1 activity is switched off by WEE1- and PKMYT1-mediated phosphorylation to allow sister chromatid separation, chromosome decondensation, reformation of the nuclear envelope and cytokinesis. Inactivated by PKR/EIF2AK2- and WEE1-mediated phosphorylation upon DNA damage to stop cell cycle and genome replication at the G2 checkpoint thus facilitating DNA repair. Reactivated after successful DNA repair through WIP1-dependent signaling leading to CDC25A/B/C-mediated dephosphorylation and restoring cell cycle progression. In proliferating cells, CDK1-mediated FOXO1 phosphorylation at the G2-M phase represses FOXO1 interaction with 14-3-3 proteins and thereby promotes FOXO1 nuclear accumulation and transcription factor activity, leading to cell death of postmitotic neurons. The phosphorylation of beta-tubulins regulates microtubule dynamics during mitosis. NEDD1 phosphorylation promotes PLK1-mediated NEDD1 phosphorylation and subsequent targeting of the gamma-tubulin ring complex (gTuRC) to the centrosome, an important step for spindle formation. In addition, CC2D1A phosphorylation regulates CC2D1A spindle pole localization and association with SCC1/RAD21 and centriole cohesion during mitosis. The phosphorylation of Bcl-xL/BCL2L1 after prolongated G2 arrest upon DNA damage triggers apoptosis. In contrast, CASP8 phosphorylation during mitosis prevents its activation by proteolysis and subsequent apoptosis. This phosphorylation occurs in cancer cell lines, as well as in primary breast tissues and lymphocytes. EZH2 phosphorylation promotes H3K27me3 maintenance and epigenetic gene silencing. CALD1 phosphorylation promotes Schwann cell migration during peripheral nerve regeneration. CDK1-cyclin-B complex phosphorylates NCKAP5L and mediates its dissociation from centrosomes during mitosis (PubMed:26549230). Regulates the amplitude of the cyclic expression of the core clock gene ARNTL/BMAL1 by phosphorylating its transcriptional repressor NR1D1, and this phosphorylation is necessary for SCF(FBXW7)-mediated ubiquitination and proteasomal degradation of NR1D1 (PubMed:27238018). Phosphorylates EML3 at 'Thr-881' which is essential for its interaction with HAUS augmin-like complex and TUBG1 (PubMed:30723163).
    • 细胞开发路径: 采用CRISPR-RNP方法生成稳定KO Cell Pool;Sanger 测序结果显示KO Cell Pool敲除效率>70%。
    • 应用: 高敲除效率的基因敲除细胞池(KO Cell Pool),特别适用于初步功能分析、复杂疾病模型的开发、精准药物筛选以及广泛的基因发现研究。KO pool能够无需繁琐的单克隆挑选过程,直接应用于多种类型的测定和分析,大幅提升实验效率。
    关键词:
    • CDK1 CDC2 CDC28A CDKN1 P34CDC2

  • 01.  在 37℃水浴中预热完全培养基。
    02.  将冻存管在 37℃水浴中解冻 1-2 分钟。
    03.  将冻存管转移到生物安全柜中,并用 70% 乙醇擦拭表面。
    04.  拧开冻存管管盖,将细胞悬液轻轻转移到含有 9mL 完全培养基的无菌离心管中。
    05.  在室温下以 125g 离心 5-7 分钟,弃上清。
    06.  用 5mL 的完整培养基重悬细胞沉淀,将细胞悬液转移到 T25 培养瓶中。
    07.  将细胞转移到 37℃,5% CO2 的培养箱中培养。
    08.  参考传代比例:1/3 到 1/4 传代,2-3 天长满。

  • 01.  待培养瓶中细胞汇合度至 80%-90% 以上,可进行细胞传代。
    02.  将培养基、PBS、胰酶(0.25%Trypsin_EDTA Gibco 25200-056) 等从 4℃冰箱中拿出, 置于 37℃水浴中温度接近 37℃时取出并在瓶子表面喷洒 75% 酒精后置于生物安全柜中。

    03.  从培养箱中取出待传代的培养瓶,瓶身喷洒 75% 酒精后置于生物安全柜中。
    04.  为避免冲散细胞,沿培养瓶上壁 PBS 润洗细胞,清洗细胞后弃去,T25 加 2mL。
    05.  加入对应体积的胰酶(T75 加 1.5mL, T25 加 0.5mL)  ,并轻轻晃动瓶身使胰酶平铺满细胞 底部。可根据实际情况适当增加或减少用量。约 1-2min 后大部分细胞脱落时,加入对应体积的完全培养基终止消化,并用 5mL 移液管轻轻吹打至细胞全部脱落。
    06.  将细胞悬液转移至 15mL 离心管,悬液 300g 离心 5min,弃上清。
    07.  移取 5mL 完全培养基重悬细胞,按需求调整接种比例,并补充培养瓶中完全培养基,T75 加至 13-15mL,T25 加至 5mL,加 1% 双抗。
    08.  盖上瓶盖拧紧后轻轻晃动瓶身,使细胞混合均匀后置于 37℃,5% CO2 培养箱中。

  • 01.  准备冻存液,并提前预冷。
    02.  确保待冻存的细胞满足冻存要求,用显微镜检查以下状态:健康的外观及形态特征、所处生 长周期(对数晚期)、无污染或衰退迹象。
    03.  对细胞进行消化及离心处理(具体步骤参考传代培养流程)
    04.  按照每管 1mL 的量添加冻存液重悬细胞,吹打均匀后分装至冻存管。
    05.  将细胞放在程序降温盒中,在 -80℃冰箱中冷冻。
    06.  后续将细胞转移到液氮罐中,以便长期储存。

  • 抗体验证中

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产品类型: 基因敲除细胞池(蛋白降解药物相关靶点)

细胞系信息

Gene Symbol

CDK1 CDC2 CDC28A CDKN1 P34CDC2

NCBI Gene ID

983

Ensembl ID

ENSG00000170312

Uniprot ID

P06493

筛选标记

N/A

宿主细胞 / 类型

HEK293/人胚肾细胞

规格

1×10^6 cells/ 冻存管

生长培养基

DMEM+10% FBS+1% P,S

生长特性

贴壁细胞,上皮细胞样

培养条件

37℃,5% CO2 的培养箱,1/3到 1/4 传代

倍增时间

~24-45 hours

参考换液频率

2~3次/周

支原体检测结果

阴性

敲除验证

敲除效率(Sanger测序)

>70%

蛋白质组验证结果

N/A

抗体货号

添加中

抗体验证结果

抗体验证中

细胞系说明

目标基因介绍

(Microbial infection) Acts as a receptor for hepatitis C virus (HCV) in hepatocytes and facilitates its cell entry.||Plays a key role in the control of the eukaryotic cell cycle by modulating the centrosome cycle as well as mitotic onset; promotes G2-M transition, and regulates G1 progress and G1-S transition via association with multiple interphase cyclins. Required in higher cells for entry into S-phase and mitosis. Phosphorylates PARVA/actopaxin, APC, AMPH, APC, BARD1, Bcl-xL/BCL2L1, BRCA2, CALD1, CASP8, CDC7, CDC20, CDC25A, CDC25C, CC2D1A, CENPA, CSNK2 proteins/CKII, FZR1/CDH1, CDK7, CEBPB, CHAMP1, DMD/dystrophin, EEF1 proteins/EF-1, EZH2, KIF11/EG5, EGFR, FANCG, FOS, GFAP, GOLGA2/GM130, GRASP1, UBE2A/hHR6A, HIST1H1 proteins/histone H1, HMGA1, HIVEP3/KRC, LMNA, LMNB, LMNC, LBR, LATS1, MAP1B, MAP4, MARCKS, MCM2, MCM4, MKLP1, MYB, NEFH, NFIC, NPC/nuclear pore complex, PITPNM1/NIR2, NPM1, NCL, NUCKS1, NPM1/numatrin, ORC1, PRKAR2A, EEF1E1/p18, EIF3F/p47, p53/TP53, NONO/p54NRB, PAPOLA, PLEC/plectin, RB1, TPPP, UL40/R2, RAB4A, RAP1GAP, RCC1, RPS6KB1/S6K1, KHDRBS1/SAM68, ESPL1, SKI, BIRC5/survivin, STIP1, TEX14, beta-tubulins, MAPT/TAU, NEDD1, VIM/vimentin, TK1, FOXO1, RUNX1/AML1, SAMHD1, SIRT2 and RUNX2. CDK1/CDC2-cyclin-B controls pronuclear union in interphase fertilized eggs. Essential for early stages of embryonic development. During G2 and early mitosis, CDC25A/B/C-mediated dephosphorylation activates CDK1/cyclin complexes which phosphorylate several substrates that trigger at least centrosome separation, Golgi dynamics, nuclear envelope breakdown and chromosome condensation. Once chromosomes are condensed and aligned at the metaphase plate, CDK1 activity is switched off by WEE1- and PKMYT1-mediated phosphorylation to allow sister chromatid separation, chromosome decondensation, reformation of the nuclear envelope and cytokinesis. Inactivated by PKR/EIF2AK2- and WEE1-mediated phosphorylation upon DNA damage to stop cell cycle and genome replication at the G2 checkpoint thus facilitating DNA repair. Reactivated after successful DNA repair through WIP1-dependent signaling leading to CDC25A/B/C-mediated dephosphorylation and restoring cell cycle progression. In proliferating cells, CDK1-mediated FOXO1 phosphorylation at the G2-M phase represses FOXO1 interaction with 14-3-3 proteins and thereby promotes FOXO1 nuclear accumulation and transcription factor activity, leading to cell death of postmitotic neurons. The phosphorylation of beta-tubulins regulates microtubule dynamics during mitosis. NEDD1 phosphorylation promotes PLK1-mediated NEDD1 phosphorylation and subsequent targeting of the gamma-tubulin ring complex (gTuRC) to the centrosome, an important step for spindle formation. In addition, CC2D1A phosphorylation regulates CC2D1A spindle pole localization and association with SCC1/RAD21 and centriole cohesion during mitosis. The phosphorylation of Bcl-xL/BCL2L1 after prolongated G2 arrest upon DNA damage triggers apoptosis. In contrast, CASP8 phosphorylation during mitosis prevents its activation by proteolysis and subsequent apoptosis. This phosphorylation occurs in cancer cell lines, as well as in primary breast tissues and lymphocytes. EZH2 phosphorylation promotes H3K27me3 maintenance and epigenetic gene silencing. CALD1 phosphorylation promotes Schwann cell migration during peripheral nerve regeneration. CDK1-cyclin-B complex phosphorylates NCKAP5L and mediates its dissociation from centrosomes during mitosis (PubMed:26549230). Regulates the amplitude of the cyclic expression of the core clock gene ARNTL/BMAL1 by phosphorylating its transcriptional repressor NR1D1, and this phosphorylation is necessary for SCF(FBXW7)-mediated ubiquitination and proteasomal degradation of NR1D1 (PubMed:27238018). Phosphorylates EML3 at 'Thr-881' which is essential for its interaction with HAUS augmin-like complex and TUBG1 (PubMed:30723163).

细胞开发路径

采用CRISPR-RNP方法生成稳定KO Cell Pool;Sanger 测序结果显示KO Cell Pool敲除效率>70%。

应用

高敲除效率的基因敲除细胞池(KO Cell Pool),特别适用于初步功能分析、复杂疾病模型的开发、精准药物筛选以及广泛的基因发现研究。KO pool能够无需繁琐的单克隆挑选过程,直接应用于多种类型的测定和分析,大幅提升实验效率。

细胞培养说明

细胞复苏

01.  在 37℃水浴中预热完全培养基。
02.  将冻存管在 37℃水浴中解冻 1-2 分钟。
03.  将冻存管转移到生物安全柜中,并用 70% 乙醇擦拭表面。
04.  拧开冻存管管盖,将细胞悬液轻轻转移到含有 9mL 完全培养基的无菌离心管中。
05.  在室温下以 125g 离心 5-7 分钟,弃上清。
06.  用 5mL 的完整培养基重悬细胞沉淀,将细胞悬液转移到 T25 培养瓶中。
07.  将细胞转移到 37℃,5% CO2 的培养箱中培养。
08.  参考传代比例:1/3 到 1/4 传代,2-3 天长满。

细胞传代

01.  待培养瓶中细胞汇合度至 80%-90% 以上,可进行细胞传代。
02.  将培养基、PBS、胰酶(0.25%Trypsin_EDTA Gibco 25200-056) 等从 4℃冰箱中拿出, 置于 37℃水浴中温度接近 37℃时取出并在瓶子表面喷洒 75% 酒精后置于生物安全柜中。

03.  从培养箱中取出待传代的培养瓶,瓶身喷洒 75% 酒精后置于生物安全柜中。
04.  为避免冲散细胞,沿培养瓶上壁 PBS 润洗细胞,清洗细胞后弃去,T25 加 2mL。
05.  加入对应体积的胰酶(T75 加 1.5mL, T25 加 0.5mL)  ,并轻轻晃动瓶身使胰酶平铺满细胞 底部。可根据实际情况适当增加或减少用量。约 1-2min 后大部分细胞脱落时,加入对应体积的完全培养基终止消化,并用 5mL 移液管轻轻吹打至细胞全部脱落。
06.  将细胞悬液转移至 15mL 离心管,悬液 300g 离心 5min,弃上清。
07.  移取 5mL 完全培养基重悬细胞,按需求调整接种比例,并补充培养瓶中完全培养基,T75 加至 13-15mL,T25 加至 5mL,加 1% 双抗。
08.  盖上瓶盖拧紧后轻轻晃动瓶身,使细胞混合均匀后置于 37℃,5% CO2 培养箱中。

细胞冻存

01.  准备冻存液,并提前预冷。
02.  确保待冻存的细胞满足冻存要求,用显微镜检查以下状态:健康的外观及形态特征、所处生 长周期(对数晚期)、无污染或衰退迹象。
03.  对细胞进行消化及离心处理(具体步骤参考传代培养流程)
04.  按照每管 1mL 的量添加冻存液重悬细胞,吹打均匀后分装至冻存管。
05.  将细胞放在程序降温盒中,在 -80℃冰箱中冷冻。
06.  后续将细胞转移到液氮罐中,以便长期储存。

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