甘露六糖, Mannohexaose, 货号:O-MHE
中文品名:甘露六糖
品名:Mannohexaose
CASN:70281-36-6
纯度: >90%
包装: 20 mg
来源:控制甘露多糖的酶法水解制得。
用途:高纯度甘露六糖用于研究、酶生化分析和体外诊断分析。
参考文献:
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.
Promiscuity in ligand-binding: the three-dimensional structure of a Piromyces carbohydrate-binding module, CBM29-2, in complex with cello-and mannohexaose. Charnock, S. J., Bolam, D. N., Nurizzo, D., Szabó, L., McKie, V. A., Gilbert, H. J. & Davies, G. J. (2002). Proceedings of the National Academy of Sciences, 99(22), 14077-14082.
Functional characterization and target discovery of glycoside hydrolases from the digestome of the lower termite Coptotermes gestroi. Cairo, J. P. L. F., Leonardo, F. C., Alvarez, T. M., Ribeiro, D. A., Büchli, F., Costa-Leonardo, A. M., Carazzolle, M. F., Costa, F. F., Paes Leme, A. F., Pereira, G. A. G. & Squina, F. M. (2011). Biotechnology for Biofuels, 4(1), 50.
Influence of a mannan binding family 32 carbohydrate binding module on the activity of the appended mannanase. Mizutani, K., Fernandes, V. O., Karita, S., Luís, A. S., Sakka, M., Kimura, T., Jackson, A., Zhang, X., Fontes, C. M. G. A., Gilbert, H. J. & Sakka, K. (2012). Applied and Environmental Microbiology, 78(14), 4781-4787.
Isolation and purification of thermostable β-mannanase from Paenibacillus illinoisensis ZY-08. Lee, Y. S., Zhou, Y., Park, I. H., Chandra, M. R. G. S., Ahn, S. C. & Choi, Y. L. (2010). Journal of the Korean Society for Applied Biological Chemistry, 53(1), 1-7.
Model for random hydrolysis and end degradation of linear polysaccharides: Application to the thermal treatment of mannan in solution. Nattorp, A., Graf, M., Spühler, C. & Renken, A. (1999). Industrial & Engineering Chemistry Research, 38(8), 2919-2926.
Molecular and biochemical characterization of endo-β-mannanases from germinating coffee (Coffea Arabica) grains. Marraccini, P., Rogers, J. W., Allard, C., André, M. L., Caillet, V., Lacoste, N., Lausamme, F. & Michaux, S. (2001). Planta, 213(2), 296-308.
Hydrolysis of (1,4)- β-D-mannans in barley (Hordeum vulgare L.) is mediated by the concerted action of (1,4)-β-D-mannan endohydrolase and β-D-mannosidase. Hrmova, M., Burton, R. A., Biely, P., Lahnstein, J. & Fincher, G. (2006). Biochem. J, 399, 77-90.
Molecular insights into substrate specificity and thermal stability of a bacterial GH5-CBM27 endo-1,4-β-D-mannanase. dos Santos, C. R., Paiva, J. H., Meza, A. N., Cota, J., Alvarez, T. M., Ruller, R., Prade, R. A., Squina, F. M. & Murakami, M. T. (2012). Journal of Structural Biology, 177(2), 469-476.
Structural characterization of neutral oligosaccharides by laser-enhanced in-source decay of MALDI-FTICR MS. Yang, H., Yu, Y., Song, F. & Liu, S. (2011). Journal of The American Society for Mass Spectrometry, 22(5), 845-855.
Family 34 glycosyltransferase (GT34) genes and proteins in Pinus radiata (radiata pine) and Pinus taeda (loblolly pine). Ade, C. P., Bemm, F., Dickson, J. M. J., Walter, C. & Harris, P. J. (2014). The Plant Journal, 78(2), 305-318.
The modular architecture of Cellvibrio japonicus mannanases in glycoside hydrolase families 5 and 26 points to differences in their role in mannan degradation. Hogg, D., Pell, G., Dupree, P., Goubet, F., Martin-Orue, S., Armand, S. & Gilbert, H. (2003). Biochem. J, 371(3), 1027-1043.
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