SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2159609564> ?p ?o ?g. }

Showing items 1 to 100 of ±142 with 100 items per page.

W2159609564 endingPage "16803" @default.
W2159609564 startingPage "16791" @default.
W2159609564 abstract "Concerted functioning of lectins and carbohydrate-processing enzymes, mainly glycosidases, is essential in maintaining life. It was commonly assumed that the mechanisms by which each class of protein recognizes their cognate sugar partners are intrinsically different: multivalency is a characteristic feature of carbohydrate–lectin interactions, whereas glycosidases bind to their substrates or substrate-analogue inhibitors in monovalent form. Recent observations on the glycosidase inhibitory potential of multivalent glycomimetics have questioned this paradigm and led to postulate an inhibitory multivalent effect. Here the mechanisms at the origin of this phenomenon have been investigated. A D-gluco-configured sp2-iminosugar glycomimetic motif, namely 1-amino-5N,6O-oxomethylydenenojirimycin (1N-ONJ), behaving, simultaneously, as a ligand of peanut agglutinin (PNA) lectin and as an inhibitor of several glycosidases, has been identified. Both the 1N-ONJ–lectin- and 1N-ONJ–glycosidase-recognition processes have been found to be sensitive to multivalency, which has been exploited in the design of a lectin–glycosidase competitive assay to explore the implication of catalytic and non-glycone sites in enzyme binding. A set of isotropic dodecavalent C60-fullerene–sp2-iminosugar balls incorporating matching or mismatching motifs towards several glycosidases (inhitopes) was synthesized for that purpose, thereby preventing differences in binding modes arising from orientational preferences. The data supports that: 1) multivalency allows modulating the affinity and selectivity of a given inhitope towards glycosidases; 2) multivalent presentation can switch on the inhibitory capacity for some inhitope–glycosidase pairs, and 3) interactions of the multivalent inhibitors with non-glycone sites is critical for glycosidase recognition. The ensemble of results point to a shift in the binding mode on going from monovalent to multivalent systems: in the first case a typical ′′key–lock′′ model involving, essentially, the high-affinity active site can be assumed, whereas in the second, a lectin-like behavior implying low-affinity non-glycone sites probably operates. The differences in responsiveness to multivalency for different glycosidases can then be rationalized in terms of the structure and accessibility of the corresponding carbohydrate-binding regions." @default.
W2159609564 created "2016-06-24" @default.
W2159609564 creator A5052602046 @default.
W2159609564 creator A5059551707 @default.
W2159609564 creator A5061556072 @default.
W2159609564 creator A5071030408 @default.
W2159609564 date "2013-10-22" @default.
W2159609564 modified "2023-09-30" @default.
W2159609564 title "Fullerene‐sp<sup>2</sup>‐Iminosugar Balls as Multimodal Ligands for Lectins and Glycosidases: A Mechanistic Hypothesis for the Inhibitory Multivalent Effect" @default.
W2159609564 cites W12620937 @default.
W2159609564 cites W1508666773 @default.
W2159609564 cites W1512847790 @default.
W2159609564 cites W1573149187 @default.
W2159609564 cites W1894646060 @default.
W2159609564 cites W1965650017 @default.
W2159609564 cites W1967028169 @default.
W2159609564 cites W1967322315 @default.
W2159609564 cites W1968652549 @default.
W2159609564 cites W1968703453 @default.
W2159609564 cites W1971366619 @default.
W2159609564 cites W1974265739 @default.
W2159609564 cites W1978528276 @default.
W2159609564 cites W1988966516 @default.
W2159609564 cites W1993116823 @default.
W2159609564 cites W1993462429 @default.
W2159609564 cites W1993481016 @default.
W2159609564 cites W2003312569 @default.
W2159609564 cites W2003791843 @default.
W2159609564 cites W2006977070 @default.
W2159609564 cites W2008869933 @default.
W2159609564 cites W2010225539 @default.
W2159609564 cites W2012625165 @default.
W2159609564 cites W2015563963 @default.
W2159609564 cites W2016622938 @default.
W2159609564 cites W2020793137 @default.
W2159609564 cites W2022526335 @default.
W2159609564 cites W2022673202 @default.
W2159609564 cites W2025493758 @default.
W2159609564 cites W2026421403 @default.
W2159609564 cites W2027770300 @default.
W2159609564 cites W2043466478 @default.
W2159609564 cites W2048682373 @default.
W2159609564 cites W2054864661 @default.
W2159609564 cites W2056042508 @default.
W2159609564 cites W2059799155 @default.
W2159609564 cites W2062012256 @default.
W2159609564 cites W2067721874 @default.
W2159609564 cites W2068262720 @default.
W2159609564 cites W2073095051 @default.
W2159609564 cites W2074335306 @default.
W2159609564 cites W2075065939 @default.
W2159609564 cites W2078005095 @default.
W2159609564 cites W2079639372 @default.
W2159609564 cites W2081953544 @default.
W2159609564 cites W2083190601 @default.
W2159609564 cites W2091000822 @default.
W2159609564 cites W2091708269 @default.
W2159609564 cites W2091897889 @default.
W2159609564 cites W2093428445 @default.
W2159609564 cites W2108929776 @default.
W2159609564 cites W2109202643 @default.
W2159609564 cites W2112490084 @default.
W2159609564 cites W2113357723 @default.
W2159609564 cites W2115907301 @default.
W2159609564 cites W2116810291 @default.
W2159609564 cites W2123326337 @default.
W2159609564 cites W2124218941 @default.
W2159609564 cites W2125811479 @default.
W2159609564 cites W2126818937 @default.
W2159609564 cites W2128687047 @default.
W2159609564 cites W2129261242 @default.
W2159609564 cites W2132518052 @default.
W2159609564 cites W2139368081 @default.
W2159609564 cites W2141310441 @default.
W2159609564 cites W2145662716 @default.
W2159609564 cites W2146062369 @default.
W2159609564 cites W2146941726 @default.
W2159609564 cites W2151426986 @default.
W2159609564 cites W2153589923 @default.
W2159609564 cites W2155368801 @default.
W2159609564 cites W2317093042 @default.
W2159609564 cites W2799117139 @default.
W2159609564 cites W4231340065 @default.
W2159609564 cites W4243261655 @default.
W2159609564 cites W4248911413 @default.
W2159609564 doi "https://doi.org/10.1002/chem.201303158" @default.
W2159609564 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/24150869" @default.
W2159609564 hasPublicationYear "2013" @default.
W2159609564 type Work @default.
W2159609564 sameAs 2159609564 @default.
W2159609564 citedByCount "89" @default.
W2159609564 countsByYear W21596095642014 @default.
W2159609564 countsByYear W21596095642015 @default.
W2159609564 countsByYear W21596095642016 @default.
W2159609564 countsByYear W21596095642017 @default.
W2159609564 countsByYear W21596095642018 @default.
W2159609564 countsByYear W21596095642019 @default.
W2159609564 countsByYear W21596095642020 @default.