KCNJ10 Protein (AA 276-379) (GST tag)
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- 抗原 See all KCNJ10 蛋白
- KCNJ10 (Potassium Inwardly-Rectifying Channel, Subfamily J, Member 10 (KCNJ10))
- 蛋白类型
- Recombinant
- 产品特性
- AA 276-379
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宿主
- 人
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资源
- 小麦胚
- 标记
- This KCNJ10 protein is labelled with GST tag.
- 应用范围
- Western Blotting (WB), ELISA, Affinity Purification (AP), Antibody Array (AA)
- 原理
- KCNJ10 (Human) Recombinant Protein (Q01)
- 序列
- DFELVLILSG TVESTSATCQ VRTSYLPEEI LWGYEFTPAI SLSASGKYIA DFSLFDQVVK VASPSGLRDS TVRYGDPEKL KLEESLREQA EKEGSALSVR ISNV
- 产品特性
- Human KCNJ10 partial ORF ( NP_002232, 276 a.a. - 379 a.a.) recombinant protein with GST-tag at N-terminal.
- 纯化方法
- in vitro wheat germ expression system
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- 应用备注
- Optimal working dilution should be determined by the investigator.
- 说明
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Preparation method: in vitro, wheat germ expression system
Product Quality tested by: 12.5% SDS-PAGE Stained with Coomassie Blue. - 限制
- 仅限研究用
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- 缓冲液
- 50 mM Tris-HCI, 10 mM reduced Glutathione, pH =8.0 in the elution buffer.
- 注意事项
- Aliquot to avoid repeated freezing and thawing.
- 储存条件
- -80 °C
- 储存方法
- Best use within three months from the date of receipt of this protein.
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- 抗原
- KCNJ10 (Potassium Inwardly-Rectifying Channel, Subfamily J, Member 10 (KCNJ10))
- 别名
- KCNJ10 (KCNJ10 产品)
- 别名
- kir1.2 Protein, kir4.1 Protein, birk-10 Protein, MGC145926 Protein, BIR10 Protein, BIRK-1 Protein, Kir1.2 Protein, Kir4.1 Protein, BIRK-10 Protein, KCNJ13-PEN Protein, KIR1.2 Protein, KIR4.1 Protein, SESAME Protein, potassium channel, inwardly rectifying subfamily J, member 10 L homeolog Protein, potassium voltage-gated channel subfamily J member 10 Protein, potassium channel, inwardly rectifying subfamily J, member 10 Protein, potassium inwardly-rectifying channel, subfamily J, member 10 Protein, kcnj10.L Protein, KCNJ10 Protein, kcnj10 Protein, Kcnj10 Protein
- 背景
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Full Gene Name: potassium inwardly-rectifying channel, subfamily J, member 10
Synonyms: BIRK-10,KCNJ13-PEN,KIR1.2,KIR4.1 - 基因ID
- 3766
- NCBI登录号
- NM_002241
- 途径
- Dicarboxylic Acid Transport, Regulation of long-term Neuronal Synaptic Plasticity
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