Caspase 8 Substrate 1 - 成都凯捷生物医药科技发展有限公司

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ADP-Ribosylation Factors (ARF)

Adrenomedullin Peptides

Agouti Related Peptides

Amylin Peptides

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Annexin

Anti-Inflammatory Peptides

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CART (Cocaine- and Amphetamine-Regulated Transcript) Peptides

Casomorphin Peptides

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Cell Adhesion Peptides

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Cholecystokinin-Pancreozymin Peptides

ClearPoint™-Heavy Isotope Labeled and Related Peptides

Corticotropin Related Peptides

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Fibronectin Fragments

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MAPS Peptides

Matrix Metalloproteinases (MMPs)

Melan-A and Mucin Related Peptides

Melanocyte Stimulating Hormones and Analogs

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Myelin Oligodendrocyte Glycoprotein (MOG)/Myelin Basic Proteins (MBP)

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NF-kB/Transcription Factors Related Peptides

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p53 Peptides

Pancreatic Polypeptides

Parathyroid Hormones and Related Peptides

Peptide Aminoluciferin Custom Synthesis For Bioluminescent Assays

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Phagocytosis

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QA-GSH

Renin

Retinoid Binding Protein

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Saposin Related Peptides

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Tau Peptides

Temporins

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Urotensin related peptides

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Product	Caspase 8 Substrate 1 chromogenicAc - IETD - pNA
CAS	CMV pp65 (495 - 503)NLVPMVATV
Size	5 mg
Catalog #	25258-5
US$	105
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Description	pNA (4-nitroaniline)-derived caspase substrates are widely used for the colorimetric detection of various caspase activities. Cleavage of pNA peptides by caspases generates pNA that is monitored colorimetrically at ~405 nm. pNA has maximum absorption around 408 nm. Caspase-8 substrate with Km = 66 uM; Substrate for granzyme B
Detailed Information	Datasheet
Storage	-20°C desiccated and protected from light
References	Grutter MG (2000). Caspases: key players in programmed cell death. Curr Opin Struct Biol 10, 649-55; Gastman BR (2001). Apoptosis and its clinical impact. Head Neck 23, 409-25; Grutter MG (2000). Caspases: key players in programmed cell death. Curr Opin Struct Biol 10, 649-55; Stennicke HR and Salvesen GS (1999). Catalytic properties of the caspases. Cell Death Differ 6, 1054-9; Stennicke HR and Salvesen GS (1998). Properties of the caspases. Biochim Biophys Acta 1387, 17-31; Thornberry NA and Lazebnik Y (1998). Caspases: enemies within. Science 281, 1312-6; Talanian RV, et al. (1997). Substrate specificities of caspase family proteases. J Biol Chem 272, 9677-82; Fassy F, et al. (1998). Enzymatic activity of two caspases related to interleukin-1beta-converting enzyme. Eur J Biochem 253, 76-83; Datta R, et al. (1996). Activation of the CPP32 protease in apoptosis induced by 1-?-D-arabinofuranosylcytosine and other DNA-damaging agents. Blood 88, 1936-43; Koeplinger KA, et al. (2000). Caspase 8: an efficient method for large-scale autoactivation of recombinant procaspase 8 by matrix adsorption and characterization of the active enzyme. Protein Expr Purif 18, 378-87.
Molecular Weight	638.6
Product Citations	Rocha, R. et al. (2011). Arsenic and fluoride induce neural progenitor cell apoptosis. Toxicol Lett10.1016/j.toxlet.2011.03.023. Shao, R. et al. (2005). E1A sensitizes cancer cells to TRAIL-induced apoptosis through enhancement of caspase activation. Mol Cancer Res 3, 219. Tang, C-HA. et al. (2005). Synergism of Rana catesbeiana ribonuclease and IFN-γ triggers distinct death machineries in different human cancer cells. FEBS Lett 579, 265.