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DAz-2
本产品不向个人销售,仅用作科学研究,不用于任何人体实验及非科研性质的动物实验。
DAz-2图片
CAS NO:1176905-54-6
包装与价格:
包装价格(元)
1mg电议
5mg电议
10mg电议

产品介绍
Cas No.1176905-54-6
别名DCP-N3
化学名4-(3-azidopropyl)cyclohexane-1,3-dione
Canonical SMILESO=C(C1)C(CCCN=[N+]=[N-])CCC1=O
分子式C9H13N3O2
分子量195.2
溶解度14 mg/ml in DMSO, 20 mg/ml in DMF, 25 mg/ml in Ethanol
储存条件Store at -20°C
General tipsFor obtaining a higher solubility , please warm the tube at 37 ℃ and shake it in the ultrasonic bath for a while.
Shipping ConditionEvaluation sample solution : ship with blue ice
All other available size: ship with RT , or blue ice upon request
产品描述

DAz-2 is a cell-permeable chemical probe used to detect cysteine oxidation in proteins. Redox-sensitive cysteine residues in proteins may function as sensors of reactive oxygen species (ROS) and also serve as molecular switches, activating or deactivating proteins, following a change in oxidation state. Modification of protein function through the reversible oxidation of cysteine is emerging as a biologically relevant signal transduction mechanism. Sulfenic acid is the initial oxidation product of cysteine by relatively mild oxidizing agents such as hydrogen peroxide. Sulfenic acid can be reduced back to the free thiol or be further oxidized to sulfinic and sulfonic acids.[1] DAz-2 is a cell-permeable chemical probe that reacts specifically with sulfenic acid-modified proteins.[2] The azido group of DAz-2 provides a method for selective conjugation to phosphine- or alkynyl- derivatized reagents, such as biotin or various fluorophores, for subsequent analysis of the labeled proteins. Use of DAz-2 in HeLa cells followed by Staudinger ligation to biotin and subsequent LC-MS/MS analysis, led to the identification of 193 sulfenic acid-modified proteins having a diverse range of functions.[2]

Reference:
[1]. Reddie, K.G., and Carroll, K.S. Expanding the functional diversity of proteins through cysteine oxidation. Current Opinion in Chemical Biology 12(6), 746-754 (2008).
[2]. Leonard, S.E., Reddie, K.G., and Carroll, K.S. Mining the thiol proteome for sulfenic acid modifications reveals new targets for oxidation in cells. ACS Chem. Biol. 4(9), 783-799 (2009).