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Enzyme Microb Technol. 2011 Oct 10;49(5):429-40. doi: 10.1016/j.enzmictec.2011.07.002. Epub 2011 Jul 18.

Structural and evolutionary aspects of two families of non-catalytic domains present in starch and glycogen binding proteins from microbes, plants and animals.

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1
Laboratory of Protein Evolution, Institute of Molecular Biology, Slovak Academy of Sciences, Dúbravská cesta 21, SK-84551 Bratislava, Slovakia. Stefan.Janecek@savba.sk

Abstract

Starch-binding domains (SBDs) comprise distinct protein modules that bind starch, glycogen or related carbohydrates and have been classified into different families of carbohydrate-binding modules (CBMs). The present review focuses on SBDs of CBM20 and CBM48 found in amylolytic enzymes from several glycoside hydrolase (GH) families GH13, GH14, GH15, GH31, GH57 and GH77, as well as in a number of regulatory enzymes, e.g., phosphoglucan, water dikinase-3, genethonin-1, laforin, starch-excess protein-4, the β-subunit of AMP-activated protein kinase and its homologues from sucrose non-fermenting-1 protein kinase SNF1 complex, and an adaptor-regulator related to the SNF1/AMPK family, AKINβγ. CBM20s and CBM48s of amylolytic enzymes occur predominantly in the microbial world, whereas the non-amylolytic proteins containing these modules are mostly of plant and animal origin. Comparison of amino acid sequences and tertiary structures of CBM20 and CBM48 reveals the close relatedness of these SBDs and, in some cases, glycogen-binding domains (GBDs). The families CBM20 and CBM48 share both an ancestral form and the mode of starch/glycogen binding at one or two binding sites. Phylogenetic analyses demonstrate that they exhibit independent behaviour, i.e. each family forms its own part in an evolutionary tree, with enzyme specificity (protein function) being well represented within each family. The distinction between CBM20 and CBM48 families is not sharp since there are representatives in both CBM families that possess an intermediate character. These are, for example, CBM20s from hypothetical GH57 amylopullulanase (probably lacking the starch-binding site 2) and CBM48s from the GH13 pullulanase subfamily (probably lacking the starch/glycogen-binding site 1). The knowledge gained concerning the occurrence of these SBDs and GBDs through the range of taxonomy will support future experimental research.

PMID:
22112614
DOI:
10.1016/j.enzmictec.2011.07.002
[Indexed for MEDLINE]
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