木五糖, Xylopentaose, 货号:O-XPE
品牌:Megazyme
货号:O-XPE
中文品名:木五糖
品名:Xylopentaose
CASN:49694-20-4
纯度: >95%
包装: 10 mg
来源:控制阿拉伯木聚糖的酶法水解制得。
用途:高纯度木五糖用于研究、酶生化分析和体外诊断分析。
参考文献:
A Comparison of Polysaccharide Substrates and Reducing Sugar Methods for the Measurement of endo-1,4-β-Xylanase McCleary, B. V. & McGeough, P. (2015). Appl. Biochem. Biotechnol., 177(5), 1152-1163.
Versatile high resolution oligosaccharide microarrays for plant glycobiology and cell wall research. Pedersen, H. L., Fangel, J. U., McCleary, B., Ruzanski, C., Rydahl, M. G., Ralet, M. C., Farkas, V., Von Schantz, L., Marcus, S. E., Andersen, M.C. F., Field, R., Ohlin, M., Knox, J. P., Clausen, M. H. & Willats, W. G. T. (2012). Journal of Biological Chemistry, 287(47), 39429-39438.
Novel surface-based methodologies for investigating GH11 xylanase–lignin derivative interactions. Zeder-Lutz, G., Renau-Ferrer, S., Aguié-Béghin, V., Rakotoarivonina, H., Chabbert, B., Altschuh, D. & Rémond, C. (2013). Analyst, 138(22), 6889-6899.
Mode of action of glycoside hydrolase family 5 glucuronoxylan xylanohydrolase from Erwinia chrysanthemi. Vr?anská, M., Kolenová, K., Puchart, V. & Biely, P. (2007). FEBS Journal, 274(7), 1666-1677.
Substrate specificity in glycoside hydrolase family 10. Tyrosine 87 and leucine 314 play a pivotal role in discriminating between glucose and xylose binding in the proximal active site of pseudomonas cellulosa xylanase 10A. Andrews, S. R., Charnock, S. J., Lakey, J. H., Davies, G. J., Claeyssens, M., Nerinckx, W., Underwood, M., Sinnott, M. L., Warren, R. A. J. & Gilbert, H. J. (2000). Journal of Biological Chemistry, 275(30), 23027-23033.
In vitro fermentation of cereal dietary fibre carbohydrates by probiotic and intestinal bacteria. Crittenden, R., Karppinen, S., Ojanen, S., Tenkanen, M., Fagerström, R., Mättö, J., Saarela, M., Mattila-Sandholm, T. & Poutanen, K. (2002). Journal of the Science of Food and Agriculture, 82(8), 781-789.
Purification and characterization of a thermophilic xylanase from the brown-rot fungus Gloeophyllum trabeum. Ritschkoff, A. C., Buchert, J. & Viikari, L. (1994). Journal of Biotechnology, 32(1), 67-74.
Novel bifunctional α-L-arabinofuranosidase/xylobiohydrolase (ABF3) from Penicillium purpurogenum. Ravanal, M. C., Callegari, E. & Eyzaguirre, J. (2010). Applied and Environmental Microbiology, 76(15), 5247-5253.
Novel xylan-binding properties of an engineered family 4 carbohydrate-binding module. Gunnarsson, L. C., Montanier, C., Tunnicliffe, R. B., Williamson, M. P., Gilbert, H. J., Nordberg, K. E. & Ohlin, M. (2007). Biochem. J, 406(2), 209-214.
The xynC gene from Fibrobacter succinogenes S85 codes for a xylanase with two similar catalytic domains. Paradis, F. W., Zhu, H., Krell, P. J., Phillips, J. P. & Forsberg, C. W. (1993). Journal of Bacteriology, 175(23), 7666-7672.
Identification of two acidic residues involved in the catalysis of xylanase A from Streptomyces lividans. Moreau, A., Roberge, M., Manin, C., Shareck, F., Kluepfel, D. & Morosoli, R. (1994). Biochem. J, 302, 291-295.
Penicillium purpurogenum produces two GH family 43 enzymes with β-xylosidase activity, one monofunctional and the other bifunctional: Biochemical and structural analyses explain the difference. Ravanal, M. C., Alegría-Arcos, M., Gonzalez-Nilo, F. D. & Eyzaguirre, J. (2013). Archives of Biochemistry and Biophysics, 540(1), 117-124.
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