Caspase 1 / DyLight 594 / 14F468
Product Details
| Description | The antibody will recognize full-length Caspase-1 and cleaved caspase-1 forms that retain amino acids 371-390 of the Caspase-1 protein. | |
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| Conjugate | DyLight 594 | |
| Clone | 14F468 | |
| Target Species | Human, Mouse, Rat | |
| Applications | IHC-P, WB, IHC | |
| Supplier | Novus Biologicals | |
| Catalog # | Sign in to view product details, citations, and spectra | |
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About Caspase 1
This gene encodes a protein which is a member of the cysteine-aspartic acid protease (caspase) family. Sequential activation of caspases plays a central role in the execution-phase of cell apoptosis. Caspases exist as inactive proenzymes which undergo proteolytic processing at conserved aspartic residues to produce 2 subunits, large and small, that dimerize to form the active enzyme. This gene was identified by its ability to proteolytically cleave and activate the inactive precursor of interleukin-1, a cytokine involved in the processes such as inflammation, septic shock, and wound healing. This gene has been shown to induce cell apoptosis and may function in various developmental stages. Studies of a similar gene in mouse suggest a role in the pathogenesis of Huntington disease. Alternative splicing results in transcript variants encoding distinct isoforms. [provided by RefSeq, Mar 2012]
This gene encodes a protein which is a member of the cysteine-aspartic acid protease (caspase) family. Sequential activation of caspases plays a central role in the execution-phase of cell apoptosis. Caspases exist as inactive proenzymes which undergo proteolytic processing at conserved aspartic residues to produce 2 subunits, large and small, that dimerize to form the active enzyme. This gene was identified by its ability to proteolytically cleave and activate the inactive precursor of interleukin-1, a cytokine involved in the processes such as inflammation, septic shock, and wound healing. This gene has been shown to induce cell apoptosis and may function in various developmental stages. Studies of a similar gene in mouse suggest a role in the pathogenesis of Huntington disease. Alternative splicing results in transcript variants encoding distinct isoforms. [provided by RefSeq, Mar 2012]
About DyLight 594
DyLight™ 594 has an excitation peak at 593 nm and an emission peak at 618 nm and is spectrally similar to Alexa Fluor™ 594 and Texas Red. DyLight™ 594 is most commonly used in flow cytometery and fluorescence microscopy applications.
DyLight™ 594 has an excitation peak at 593 nm and an emission peak at 618 nm and is spectrally similar to Alexa Fluor™ 594 and Texas Red. DyLight™ 594 is most commonly used in flow cytometery and fluorescence microscopy applications.
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