5m2o
From Proteopedia
R. flavefaciens' third ScaB cohesin in complex with a group 1 dockerin
Structural highlights
FunctionPublication Abstract from PubMedABTRACT: Cellulosomes are sophisticated multi-enzymatic nanomachines produced by anaerobes to effectively deconstruct plant structural carbohydrates. Cellulosome assembly involves the binding of enzyme-borne dockerins (Doc) to repeated cohesin (Coh) modules located in a non-catalytic scaffoldin. Docs appended to cellulosomal enzymes generally present two similar Coh-binding interfaces supporting a dual-binding mode, which may confer increased positional adjustment of the different complex components. Ruminococcus flavefaciens' cellulosome is assembled from a repertoire of 223 Doc-containing proteins classified into 6 groups. Recent studies revealed that Docs of groups 3 and 6 are recruited to the cellulosome via a single-binding mode mechanism with an adaptor scaffoldin. To investigate the extent to which the single-binding mode contributes to the assembly of R. flavefaciens cellulosome, the structures of two group 1 Docs bound to Cohs of primary (ScaA) and adaptor (ScaB) scaffoldins were solved. The data revealed that group 1 Docs display a conserved mechanism of Coh recognition involving a single-binding mode. Therefore, in contrast to all cellulosomes described to date, the assembly of R. flavefaciens cellulosome involves single but not dual-binding mode Docs. Thus, this work reveals a novel mechanism of cellulosome assembly and challenges the ubiquitous implication of the dual-binding mode in the acquisition of cellulosome flexibility. Assembly of Ruminococcus flavefaciens cellulosome revealed by structures of two cohesin-dockerin complexes.,Bule P, Alves VD, Israeli-Ruimy V, Carvalho AL, Ferreira LM, Smith SP, Gilbert HJ, Najmudin S, Bayer EA, Fontes CM Sci Rep. 2017 Apr 7;7(1):759. doi: 10.1038/s41598-017-00919-w. PMID:28389644[1] From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine. References
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