|Product Name||Cat #||Size|
|APC-119||1 x 0.2 ml|
|APC-023||1 x 0.2 ml|
|APC-017||1 x 0.2 ml|
Guinea pig Anti-KV4.2 Antibody
|AGP-038||1 x 0.2 ml|
|D-175||1 x 50 mg|
|F-155||1 x 250 mg|
|RTS-500||1 x 50 µg|
- Lyophilized Powder Lyophilized Powder
This product is freeze dried. All water molecules have been removed.
- Antigen Incl. Control Antigen Included
This antibody is shipped with its antigen FREE of charge!
- Bioassay Tested Bioassay Tested
This antibody has undergone quality control and has been approved by our professional team.
- QC Tested QC Tested
The activity of this product has been verified and approved by our professional team.
- Shipped at Room Temp. Shipped at Room Temp.
This lyophilized product is shipped at room temperature. Please see its certificate of analysis for further storage instructions.
- Immuno-Colocalization Immuno-Colocalization
This product is ideal for immuno-colocalization experiments. Secondary antibodies are not needed for conjugated antibodies!
- 100% Net Peptide 100% Net Peptide
This vial contains 100% net peptide content.
Alomone Labs is pleased to offer the KV4 Channel Premium Research Pack (#ESP-502). The Research Pack contains all you need for KV4 research: Antibodies for each KV4 channels and specific KV4 blockers, all in one economical package!
KV4.2 is a voltage-dependent K+ channel that belongs to the Shal channel subfamily and includes two other members: KV4.1 and KV4.3.1
KV4.2 possesses the signature structure of the voltage-dependent K+ channels: six membrane-spanning domains with intracellular N- and C- termini. As with other members of the voltage-gated K+ channel superfamily, the functional channel is a tetramer that can be composed of more than one member of the Shal subfamily, i.e. heterotetramers of KV4.1 and KV4.3.
The KV4 channels are characterized by activation at subthreshold membrane potentials, inactivate rapidly and recover from inactivation quickly compared with other voltage-dependent K+ channels. This type of current is known as transient A-type K+ currents. For example, depolarization-activated K+ currents in rat neostriatal cholinergic interneurons are predominantly of the A-type and attributable to coexpression of KV4.2 and KV4.1 subunits.2
The biophysical properties of the Kv4.2 subunit can be modified by its association with auxiliary β subunits such as the KChIP family that increase KV4.2 current densities and accelerates both the inactivation and the recovery time.
KV4.2 is also highly expressed in the heart where together with Kv4.3 underlie the fast inactivating and recovering cardiac transient outward current Ito.3
Several toxins from spider venoms are potent blockers (affecting the channels in the nanomolar range) of KV4.2 channels. Among these the most potent and selective are Stromatoxin-1 (#STS-350), (1.2 nM), Phrixotoxin-1 (#STP-700), (5 nM), Phrixotoxin-2 (#STP-710), (34 nM) and Heteropodatoxin-2 (#STH-340), (100 nM).4