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降解纤维素的“超分子机器”研究进展 被引量:10

Research Advances on The Assembly Mode of Cellulosomal Macromolecular Complexes
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摘要 综述了目前关于纤维小体组装模式、纤维小体结构多样性及人工设计纤维小体等方面的研究进展.纤维小体是某些厌氧菌产生的由多个亚基共同组装而成的大分子机器,是致力于组织、协调多种酶组分协同高效催化降解木质纤维素的胞外蛋白质复合体.纤维小体是厌氧微生物水解纤维素的主体,具有非常高效的打破结晶纤维素的结晶结构和降解纤维素链的作用.纤维小体对木质纤维素降解的高效性来自于其自发组装而成的复杂的高级结构,其结构的复杂性因不同的厌氧微生物而有所不同. Cellulosomes produced by certain anaerobic microbes are commonly assembled from multiple subunits to macromolecular machines,and are extracellular protein complexes,which could organize and coordinate a variety of enzymic components to synergistically and effectively degrade lignocelluloses.Cellulosomes are the main forces of anaerobic hydrolytic celluloses,and play a vital role in breaking and using crystalline celluloses.The highly-efficient degradation on lignocelluloses of cellulosomes come from their self-assembled complex high-level structures,and the complex structures of the different anaerobic microorganisms have the astonishing diversity.The research advances on the diversity of assembly mode,structure,and the artificial design of cellulosomes were introduced.
作者 王金兰 王禄山 刘巍峰 陈冠军 高培基
机构地区 山东大学微生物技术国家重点实验室 山东大学威海分校
出处 《生物化学与生物物理进展》 SCIE CAS CSCD 北大核心 2011年第1期28-35,共8页 Progress In Biochemistry and Biophysics
基金 国家自然科学基金(30970092) 山东省自然科学基金(Y2008D10)资助项目~~
关键词 纤维小体 粘连模块 对接模块 脚手架蛋白 超分子复合体 cellulosome cohesin dockerin scaffoldin macromolecular complexes
分类号 Q936 [生物学—微生物学]
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参考文献48

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  • 2Lynd L R, van Zyl W H, McBride J E, et al. Consolidated bioprocessing of cellulosic biomass: an update. Curt Opin Biotechnol, 2005, 16(5): 577-583.
  • 3Bayer E A, Belaich J P, Shoham Y, et al. The cellulosomes: multienzyme machines for degradation of plant cell wall polysaccharides. Annu Rev Microbiol, 2004, 58:521-554.
  • 4Doi R H, Kosugi A. Cellulosomes: plant-cell-wall-degrading enzyme complexes. Nat Rev Microbiol, 2004, 2(7): 541-551.
  • 5Ding S Y, Rincon M T, Lamed R, et al. Cellulosomal scaffoldin- like proteins from Ruminococcus flavefaciens. J Bacteriol, 2001, 183(6): 1945-1953.
  • 6Rincon M T, Ding S Y, McCrae S I, et al. Novel organization and divergent dockerin specificities in the cellulosome system of Ruminoeoceus flavefaeiens. J Bacteriol, 2003, 185(3): 703-713.
  • 7Shimon L J, Bayer E A, Morag E, et al. A cohesin domain from Clostridium thermocellum: the crystal structure provides new insights into cellulosome assembly. Structure, 1997, 5(3): 381-390.
  • 8Noach I, Frolow F, Jakoby H, et al. Crystal structure of a type- Ⅱ cohesin module from the Bacteroides cellulosolvens cellulosome reveals novel and distinctive secondary structural elements. J Mol Biol, 2005, 348(1): 1-12.
  • 9Lytle B L, Volkman B F, Westler W M, et al. Solution structure of a type I dockerin domain, a novel prokaryotic, extracellular calcium- binding domain. J Mol Biol, 2001, 307(3): 745 753.
  • 10Adams J J, Webb B A, Spencer H L, et al. Structural characterization of type Ⅱ dockerin module from the cellulosome of Clostridium therrtmcellum: calcium-induced effects on conformation and target recognition. Biochemistry, 2005, 44(6): 2173-2182.

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生物化学与生物物理进展
2011年 第1期

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