Affiliation:
1. Department of Biological Chemistry, The Weizmann Institute of Science, Rehovot,1
2. Department of Molecular Microbiology and Biotechnology, Tel-Aviv University, Ramat Aviv,2 and
3. Department of Food Engineering and Biotechnology and Institute of Catalysis Science and Technology, Technion—Israel Institute of Technology, Haifa,3 Israel
Abstract
ABSTRACT
A cellulosomal scaffoldin gene, termed
cipBc
, was identified and sequenced from the mesophilic cellulolytic anaerobe
Bacteroides cellulosolvens
. The gene encodes a 2,292-residue polypeptide (excluding the signal sequence) with a calculated molecular weight of 242,437. CipBc contains an N-terminal signal peptide, 11 type II cohesin domains, an internal family III cellulose-binding domain (CBD), and a C-terminal dockerin domain. Its CBD belongs to family IIIb, like that of CipV from
Acetivibrio cellulolyticus
but unlike the family IIIa CBDs of other clostridial scaffoldins. In contrast to all other scaffoldins thus far described, CipBc lacks a hydrophilic domain or domain X of unknown function. The singularity of CipBc, however, lies in its numerous type II cohesin domains, all of which are very similar in sequence. One of the latter cohesin domains was expressed, and the expressed protein interacted selectively with cellulosomal enzymes, one of which was identified as a family 48 glycosyl hydrolase on the basis of partial sequence alignment. By definition, the dockerins, carried by the cellulosomal enzymes of this species, would be considered to be type II. This is the first example of authentic type II cohesins that are confirmed components of a cellulosomal scaffoldin subunit rather than a cell surface anchoring component. The results attest to the emerging diversity of cellulosomes and their component sequences in nature.
Publisher
American Society for Microbiology
Subject
Molecular Biology,Microbiology
Reference40 articles.
1. Cellulose, cellulases and cellulosomes;Bayer E. A.;Curr. Opin. Struct. Biol.,1998
2. Bayer
E. A.
Ding
S.-Y.
Mechaly
A.
Shoham
Y.
Lamed
R.
Emerging phylogenetics of cellulosome structure
Recent advances in carbohydrate bioengineering.
Gilbert
H. J.
Davies
G. J.
Henrissat
B.
Svensson
B.
1999
189
201
The Royal Society of Chemistry
Cambridge England
3. Bayer
E. A.
Ding
S. Y.
Shoham
Y.
Lamed
R.
New perspectives in the structure of cellulosome-related domains from different species
Genetics biochemistry and ecology of cellulose degradation.
Ohmiya
K.
Hayashi
K.
Sakka
K.
Kobayashi
Y.
Karita
S.
Kimura
T.
1999
428
436
Uni Publishers Co. Ltd.
Tokyo Japan
4. Bayer
E. A.
Morag
E.
Shoham
Y.
Tormo
J.
Lamed
R.
The cellulosome: a cell-surface organelle for the adhesion to and degradation of cellulose
Bacterial adhesion: molecular and ecological diversity.
Fletcher
M.
1996
155
182
Wiley-Liss Inc.
New York N.Y
5. Cellulosomes: structure and ultrastructure;Bayer E. A.;J. Struct. Biol.,1998
Cited by
66 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献