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ZFP36 Knockout HEK293T Cell Pool

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LM01700128016

产品编号: LM01700128016

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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: ZFP36 Knockout HEK293T Cell Pool
    • 商品编号: LM01700128016
    • Gene Symbol: ZFP36 G0S24 NUP475 RNF162A TIS11A TTP
    • Ensembl ID: ENSG00000128016
    • Uniprot ID: P26651
    • 宿主细胞 / 类型: HEK293T/人胚肾细胞
    • NCBI Gene ID: 7538
    • 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: ~24-36 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) Negatively regulates HTLV-1 TAX-dependent transactivation of viral long terminal repeat (LTR) promoter.||Zinc-finger RNA-binding protein that destabilizes several cytoplasmic AU-rich element (ARE)-containing mRNA transcripts by promoting their poly(A) tail removal or deadenylation, and hence provide a mechanism for attenuating protein synthesis (PubMed:9703499, PubMed:10330172, PubMed:10751406, PubMed:11279239, PubMed:12115244, PubMed:12748283, PubMed:15187101, PubMed:15634918, PubMed:17030620, PubMed:16702957, PubMed:20702587, PubMed:20221403, PubMed:21775632, PubMed:27193233, PubMed:23644599, PubMed:25815583). Acts as an 3'-untranslated region (UTR) ARE mRNA-binding adapter protein to communicate signaling events to the mRNA decay machinery (PubMed:15687258, PubMed:23644599). Recruits deadenylase CNOT7 (and probably the CCR4-NOT complex) via association with CNOT1, and hence promotes ARE-mediated mRNA deadenylation (PubMed:23644599). Functions also by recruiting components of the cytoplasmic RNA decay machinery to the bound ARE-containing mRNAs (PubMed:11719186, PubMed:12748283, PubMed:15687258, PubMed:16364915). Self regulates by destabilizing its own mRNA (PubMed:15187101). Binds to 3'-UTR ARE of numerous mRNAs and of its own mRNA (PubMed:10330172, PubMed:10751406, PubMed:12115244, PubMed:15187101, PubMed:15634918, PubMed:17030620, PubMed:16702957, PubMed:19188452, PubMed:20702587, PubMed:20221403, PubMed:21775632, PubMed:25815583). Plays a role in anti-inflammatory responses; suppresses tumor necrosis factor (TNF)-alpha production by stimulating ARE-mediated TNF-alpha mRNA decay and several other inflammatory ARE-containing mRNAs in interferon (IFN)- and/or lipopolysaccharide (LPS)-induced macrophages (By similarity). Plays also a role in the regulation of dendritic cell maturation at the post-transcriptional level, and hence operates as part of a negative feedback loop to limit the inflammatory response (PubMed:18367721). Promotes ARE-mediated mRNA decay of hypoxia-inducible factor HIF1A mRNA during the response of endothelial cells to hypoxia (PubMed:21775632). Positively regulates early adipogenesis of preadipocytes by promoting ARE-mediated mRNA decay of immediate early genes (IEGs) (By similarity). Negatively regulates hematopoietic/erythroid cell differentiation by promoting ARE-mediated mRNA decay of the transcription factor STAT5B mRNA (PubMed:20702587). Plays a role in maintaining skeletal muscle satellite cell quiescence by promoting ARE-mediated mRNA decay of the myogenic determination factor MYOD1 mRNA (By similarity). Associates also with and regulates the expression of non-ARE-containing target mRNAs at the post-transcriptional level, such as MHC class I mRNAs (PubMed:18367721). Participates in association with argonaute RISC catalytic components in the ARE-mediated mRNA decay mechanism; assists microRNA (miRNA) targeting ARE-containing mRNAs (PubMed:15766526). May also play a role in the regulation of cytoplasmic mRNA decapping; enhances decapping of ARE-containing RNAs, in vitro (PubMed:16364915). Involved in the delivery of target ARE-mRNAs to processing bodies (PBs) (PubMed:17369404). In addition to its cytosolic mRNA-decay function, affects nuclear pre-mRNA processing (By similarity). Negatively regulates nuclear poly(A)-binding protein PABPN1-stimulated polyadenylation activity on ARE-containing pre-mRNA during LPS-stimulated macrophages (By similarity). Also involved in the regulation of stress granule (SG) and P-body (PB) formation and fusion (By similarity). Plays a role in the regulation of keratinocyte proliferation, differentiation and apoptosis (PubMed:27182009). Plays a role as a tumor suppressor by inhibiting cell proliferation in breast cancer cells (PubMed:26926077).
    • 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:
    • ZFP36 G0S24 NUP475 RNF162A TIS11A TTP

  • 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(相分离相关靶点)

细胞系信息

Gene Symbol

ZFP36 G0S24 NUP475 RNF162A TIS11A TTP

NCBI Gene ID

7538

Ensembl ID

ENSG00000128016

Uniprot ID

P26651

筛选标记

N/A

宿主细胞 / 类型

HEK293T/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

~24-36 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) Negatively regulates HTLV-1 TAX-dependent transactivation of viral long terminal repeat (LTR) promoter.||Zinc-finger RNA-binding protein that destabilizes several cytoplasmic AU-rich element (ARE)-containing mRNA transcripts by promoting their poly(A) tail removal or deadenylation, and hence provide a mechanism for attenuating protein synthesis (PubMed:9703499, PubMed:10330172, PubMed:10751406, PubMed:11279239, PubMed:12115244, PubMed:12748283, PubMed:15187101, PubMed:15634918, PubMed:17030620, PubMed:16702957, PubMed:20702587, PubMed:20221403, PubMed:21775632, PubMed:27193233, PubMed:23644599, PubMed:25815583). Acts as an 3'-untranslated region (UTR) ARE mRNA-binding adapter protein to communicate signaling events to the mRNA decay machinery (PubMed:15687258, PubMed:23644599). Recruits deadenylase CNOT7 (and probably the CCR4-NOT complex) via association with CNOT1, and hence promotes ARE-mediated mRNA deadenylation (PubMed:23644599). Functions also by recruiting components of the cytoplasmic RNA decay machinery to the bound ARE-containing mRNAs (PubMed:11719186, PubMed:12748283, PubMed:15687258, PubMed:16364915). Self regulates by destabilizing its own mRNA (PubMed:15187101). Binds to 3'-UTR ARE of numerous mRNAs and of its own mRNA (PubMed:10330172, PubMed:10751406, PubMed:12115244, PubMed:15187101, PubMed:15634918, PubMed:17030620, PubMed:16702957, PubMed:19188452, PubMed:20702587, PubMed:20221403, PubMed:21775632, PubMed:25815583). Plays a role in anti-inflammatory responses; suppresses tumor necrosis factor (TNF)-alpha production by stimulating ARE-mediated TNF-alpha mRNA decay and several other inflammatory ARE-containing mRNAs in interferon (IFN)- and/or lipopolysaccharide (LPS)-induced macrophages (By similarity). Plays also a role in the regulation of dendritic cell maturation at the post-transcriptional level, and hence operates as part of a negative feedback loop to limit the inflammatory response (PubMed:18367721). Promotes ARE-mediated mRNA decay of hypoxia-inducible factor HIF1A mRNA during the response of endothelial cells to hypoxia (PubMed:21775632). Positively regulates early adipogenesis of preadipocytes by promoting ARE-mediated mRNA decay of immediate early genes (IEGs) (By similarity). Negatively regulates hematopoietic/erythroid cell differentiation by promoting ARE-mediated mRNA decay of the transcription factor STAT5B mRNA (PubMed:20702587). Plays a role in maintaining skeletal muscle satellite cell quiescence by promoting ARE-mediated mRNA decay of the myogenic determination factor MYOD1 mRNA (By similarity). Associates also with and regulates the expression of non-ARE-containing target mRNAs at the post-transcriptional level, such as MHC class I mRNAs (PubMed:18367721). Participates in association with argonaute RISC catalytic components in the ARE-mediated mRNA decay mechanism; assists microRNA (miRNA) targeting ARE-containing mRNAs (PubMed:15766526). May also play a role in the regulation of cytoplasmic mRNA decapping; enhances decapping of ARE-containing RNAs, in vitro (PubMed:16364915). Involved in the delivery of target ARE-mRNAs to processing bodies (PBs) (PubMed:17369404). In addition to its cytosolic mRNA-decay function, affects nuclear pre-mRNA processing (By similarity). Negatively regulates nuclear poly(A)-binding protein PABPN1-stimulated polyadenylation activity on ARE-containing pre-mRNA during LPS-stimulated macrophages (By similarity). Also involved in the regulation of stress granule (SG) and P-body (PB) formation and fusion (By similarity). Plays a role in the regulation of keratinocyte proliferation, differentiation and apoptosis (PubMed:27182009). Plays a role as a tumor suppressor by inhibiting cell proliferation in breast cancer cells (PubMed:26926077).

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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