產(chǎn)品詳情
簡(jiǎn)單介紹:
重組人泛素偶聯(lián)酶E2 K,His蛋白與其它公司提供的重組蛋白不同,rHuUBE2K, His蛋白產(chǎn)品為采用CFS的無細(xì)胞麥胚蛋白合成系統(tǒng)表達(dá)出來的重組蛋白,可表達(dá)出對(duì)細(xì)胞有毒性、易被蛋白酶降解的蛋白;并獲得具有良好的可溶性,并有翻譯后修飾、從而部分具有功能的蛋白.同時(shí)獨(dú)有的全自動(dòng)蛋白純化技術(shù)則簡(jiǎn)便高效,將蛋白純化過程中對(duì)蛋白的損傷降低到*小程度.重組人泛素偶聯(lián)酶E2 K,His蛋白(全長(zhǎng)序列)產(chǎn)品可用于Western Blot驗(yàn)證、抗體制備、蛋白檢測(cè)、ELISA等試驗(yàn)中.
詳情介紹:
重組人泛素偶聯(lián)酶E2 K,His蛋白
Synonyms | HIP-2, Ubiquitin Carrier Protein, Ubiquitin-protein Ligase |
Species | Human |
Accession | P61086 |
GeneID | 3093 |
Source | Escherichia coli. |
Molecular Weight | 重組人泛素偶聯(lián)酶E2 K,His蛋白Approximately 23.4 kDa, a single non-glycosylated polypeptide chain containing 200 amino acids (a.a.) of human UBE2K and 8 a.a. vector sequence including 6 × His tag at N-terminus. |
Quantity | 10μg/50μg/1000μg |
AA Sequence | 重組人泛素偶聯(lián)酶E2 K,His蛋白MHHHHHHAMA NIAVQRIKRE FKEVLKSEET SKNQIKVDLV DENFTELRGE IAGPPDTPYE GGRYQLEIKI PETYPFNPPK VRFITKIWHP NISSVTGAIC LDILKDQWAA AMTLRTVLLS LQALLAAAEP DDPQDAVVAN QYKQNPEMFK QTARLWAHVY AGAPVSSPEY TKKIENLCAM GFDRNAVIVA LSSKSWDVET ATELLLSN |
Concentration | See label. |
Purity | > 95 % by SDS-PAGE and HPLC analyses. |
Biological Activity | Data is not available. |
Physical Appearance | 重組人泛素偶聯(lián)酶E2 K,His蛋白Sterile Colorless liquid. |
Formulation | A 0.2 μm filtered concentrated solution in 50 mM HEPES, pH 8.0, with 100 mM NaCl, 10 % Glycerol, 5 % Trehalose, 1 mM DTT. |
Endotoxin | Less than 1 EU/μg of rHuUBE2K, His as determined by LAL method. |
Storage | Store at -20 °C. |
重組人泛素偶聯(lián)酶E2 K,His蛋白 | |
SDS-PAGE | |
Reference |
1. Song S, Lee H, Kam TI, et al. 2008. J Cell Biol, 182: 675-84. 2. Lee SJ, Choi JY, Sung YM, et al. 2001. FEBS Lett, 503: 61-4. 3. Song S, Kim SY, Hong YM, et al. 2003. Mol Cell, 12: 553-63. |
Background | Ubiquitin-conjugating enzyme E2 K belongs to the ubiquitin-conjugating enzyme family and is encoded by the UBE2K gene in humans. The ubiquitin-conjugating enzymes, also known as E2 enzymes and more rarely as ubiquitin-carrier enzymes, take part in the second step in the ubiquitination reaction. In this reaction, E1 activates the ubiquitin by covalently attaching the molecule to its active site cysteine residue. The activated ubiquitin is then transferred to an E2 cysteine and then the E2 molecule binds E3 via a structurally conserved binding region. The ubiquitination reaction can modify proteins and regulate protein degradation. The UBE2K has been shown to interact with Huntingtin and RNF2. Additionally, it has been implicated in the degradation of huntingtin and suppression of apoptosis. |