Automated docking of α‐(1→4)‐ and α‐(1→6)‐linked glucosyl trisaccharides and maltopentaose into the soybean β‐amylase active site

William M Rockey; Alain Laederach; Peter J Reilly

doi:10.1002/(SICI)1097-0134(20000801)40:2<299::AID-PROT100>3.0.CO;2-G

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Automated docking of α‐(1→4)‐ and α‐(1→6)‐linked glucosyl trisaccharides and maltopentaose into the soybean β‐amylase active site

Journal article

Peer reviewed

Automated docking of α‐(1→4)‐ and α‐(1→6)‐linked glucosyl trisaccharides and maltopentaose into the soybean β‐amylase active site

William M Rockey, Alain Laederach and Peter J Reilly

Proteins, structure, function, and bioinformatics, Vol.40(2), pp.299-309

08/01/2000

DOI: 10.1002/(SICI)1097-0134(20000801)40:2<299::AID-PROT100>3.0.CO;2-G

PMID: 10842343

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Abstract

The Lamarckian genetic algorithm of AutoDock 3.0 was used to dock α‐maltotriose, methyl α‐panoside, methyl α‐isopanoside, methyl α‐isomaltotrioside, methyl α‐(61‐α‐glucopyranosyl)‐maltoside, and α‐maltopentaose into the closed and, except for α‐maltopentaose, into the open conformation of the soybean β‐amylase active site. In the closed conformation, the hinged flap at the mouth of the active site closes over the substrate. The nonreducing end of α‐maltotriose docks preferentially to subsites −2 or +1, the latter yielding nonproductive binding. Some ligands dock into less optimal conformations with the nonreducing end at subsite −1. The reducing‐end glucosyl residue of nonproductively‐bound α‐maltotriose is close to residue Gln194, which likely contributes to binding to subsite +3. In the open conformation, the substrate hydrogen‐bonds with several residues of the open flap. When the flap closes, the substrate productively docks if the nonreducing end is near subsites −2 or −1. Trisaccharides with α‐(1→6) bonds do not successfully dock except for methyl α‐isopanoside, whose first and second glucosyl rings dock exceptionally well into subsites −2 and −1. The α‐(1→6) bond between the second and third glucosyl units causes the latter to be improperly positioned into subsite +1; the fact that isopanose is not a substrate of β‐amylase indicates that binding to this subsite is critical for hydrolysis. Proteins 2000;40:299–309. © 2000 Wiley‐Liss, Inc.

genetic algorithm

maltotriose

AutoDock

maltopentaose

pentasaccharide

active site

automated docking

β‐amylase

trisaccharide

Details

Title: Subtitle: Automated docking of α‐(1→4)‐ and α‐(1→6)‐linked glucosyl trisaccharides and maltopentaose into the soybean β‐amylase active site
Creators: William M Rockey
Alain Laederach
Peter J Reilly
Resource Type: Journal article
Publication Details: Proteins, structure, function, and bioinformatics, Vol.40(2), pp.299-309
Publisher: John Wiley & Sons, Inc; New York
DOI: 10.1002/(SICI)1097-0134(20000801)40:2<299::AID-PROT100>3.0.CO;2-G
PMID: 10842343
ISSN: 0887-3585
eISSN: 1097-0134
Number of pages: 11
Language: English
Date published: 08/01/2000
Academic Unit: Radiation Oncology
Record Identifier: 9984046919002771

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