Anti-CaV3.2 mAb: ATTO 488 [S55-10]-抗體-抗體-生物在線

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StressMarq
Anti-CaV3.2 mAb: ATTO 488 [S55-10]

Anti-CaV3.2 mAb: ATTO 488 [S55-10]

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產(chǎn)品名稱: Anti-CaV3.2 mAb: ATTO 488 [S55-10]

英文名稱: CaV3.2 Monoclonal Antibody: ATTO 488 [S55-10]

產(chǎn)品編號: SMC-303D-A488

產(chǎn)品價格: null

產(chǎn)品產(chǎn)地: 加拿大

品牌商標(biāo): StressMarq

更新時間: null

使用范圍: WB, IP, ICC, IF

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Ion channels are integral membrane proteins that help establish and control the small voltage gradient across the plasma membrane of living cells by allowing the flow of ions down their electrochemical gradient (1). They are present in the membranes that surround all biological cells because their main function is to regulate the flow of ions across this membrane. Whereas some ion channels permit the passage of ions based on charge, others conduct based on a ionic species, such as sodium or potassium. Furthermore, in some ion channels, the passage is governed by a gate which is controlled by chemical or electrical signals, temperature, or mechanical forces. There are a few main classifications of gated ion channels. There are voltage- gated ion channels, ligand-gated, other gating systems and finally those that are classified differently, having more exotic characteristics. The first are voltage- gated ion channels which open and close in response to membrane potential. These are then separated into sodium, calcium, potassium, proton, transient receptor, and cyclic nucleotide-gated channels; each of which is responsible for a unique role. Ligand-gated ion channels are also known as ionotropic receptors, and they open in response to specific ligand molecules binding to the extracellular domain of the receptor protein. The other gated classifications include activation and inactivation by second messengers, inward-rectifier potassium channels, calcium-activated potassium channels, two-pore-domain potassium channels, light-gated channels, mechano-sensitive ion channels and cyclic nucleotide-gated channels. Finally, the other classifications are based on less normal characteristics such as two-pore channels, and transient receptor potential channels (2). Specifically, CaV3.2 is a protein which in humans is encoded by the CACNA1H gene. Studies suggest certain mutations in this gene lead to childhood absence epilepsy (3, 4). Studies also suggest that the up-regulations of CaV3.2 may participate in the progression of prostate cancer toward an androgen-independent stage (5).