CLC4, Rat (Clcn4, Chloride Channel) Control Peptide
Catalogue Number: C5837-22-USB
| Manufacturer: | United States Biological |
| Shelf Life: | 12 months |
| Physical state: | Liquid |
| Type: | Control peptide |
| Host Cell: | Rat synthetic peptide |
| Shipping Condition: | Blue Ice |
| Unit(s): | 100 ug |
| Application: | ELISA, WB |
Additional Text
Caution
FOR RESEARCH USE ONLY
Specificity
A 13 AA Peptide sequence near the C-terminus of rat CLC-4. Chloride is a critical component of all living cells. Voltage-gated chloride channels regulate cellular traffic of chloride ion. The chloride channels (CIC or CLC) performs several functions including the regulation of cell volume, membrane potential stabilization, signal transduction and transepithelial transport. Mutations in CIC genes have been linked with several human diseases including myotonias (Thomsen's disease), cystic fibrosis, Bartters syndrome type III, Dent's disease and X-linked recessive nephrolithiasis. In mammals, CLC proteins form a superfamily of at least 9 different genes (CLC1-7 also known as CLCN1-7 and CLK1-2 or CLCKa and CLCKb). Additional forms of these proteins are obtained by alternative splicing. All CLC proteins (~700-1000 aa) are predicted to contain 10 (possibly 12) transmembrane domains.Except CLC-1 and CLC-K1/K2 that are specific for kidney, most other CLC are widely distributed in various tissues. rat CLC-4 is 747 aa membrane protein (human CLC-4 760; mouse CLC-4 747 aa) (1). CLC-4 is abundant in liver, brain moderate levels are found in the heart, muscle, kidney and spleen
Purification
Purified
C5837-22 Datasheet
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