Docking glycosaminoglycans to proteins: analysis of solvent inclusion

Samsonov, Sergey A.; Teyra, Joan; Pisabarro, M. Teresa

doi:10.1007/s10822-011-9433-1

Cited by 70 publications

(77 citation statements)

References 47 publications

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“…The charge of the ring oxygen of L-fucose is −0.68. Thus L-fucose can interact electrostatically with the positively charged side chain of Lys 5 and in this way contributing to its strongest binding affinity (Samsonov et al 2011) The docking of L-fucose to 2 and 3 showed similar docking poses, however slightly more different but in a similar region to the pose of L-fucose to 1 (Online Resource Fig. 14 ) .…”

Section: Resultsmentioning

confidence: 99%

Targeting cancer-specific glycans by cyclic peptide lectinomimics

et al. 2017

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The transformation from normal to malignant phenotype in human cancers is associated with aberrant cell-surface glycosylation. Thus, targeting glycosylation changes in cancer is likely to provide not only better insight into the roles of carbohydrates in biological systems, but also facilitate the development of new molecular probes for bioanalytical and biomedical applications. In the reported study, we have synthesized lectinomimics based on odorranalectin 1; the smallest lectin-like cyclic peptide isolated from the frog Odorrana grahami skin, and assessed the ability of these peptides to bind specific carbohydrates on molecular and cellular levels. In addition, we have shown that the disulfide bond found in 1 can be replaced with a lactam bridge. However, the orientation of the lactam bridge, peptides 2 and 3, influenced cyclic peptide‘s conformation and thus these peptides ability to bind carbohydrates. Naturally occurring 1 and its analog 3 that adopt similar conformation in water bind preferentially L-fucose, and to a lesser degree D-galactose and N-acetyl-D-galactosamine, typically found within the mucin O-glycan core structures. In cell-based assays, peptides 1 and 3 showed a similar binding profile to Aleuria aurantia lectin and these two peptides inhibited the migration of metastatic breast cancer cell lines in a Transwell assay. Altogether, the reported data demonstrate the feasibility of designing lectinomimics based on cyclic peptides.

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Section: Resultsmentioning

confidence: 99%

Targeting cancer-specific glycans by cyclic peptide lectinomimics

et al. 2017

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“…Where the main interest lies in identifying a heparin binding site, the calculations need not provide a full simulation of the protein-ligand complex in solution and cannot be relied on for the exact orientation of the ligand at the binding site (Forster and Mulloy, 2006). However, where detailed analysis of the interaction is required, greater care must be taken to accommodate complexities such as the conformational plasticity of the iduronate residue and the role of solvent in the interaction (Samsonov et al, 2011). A strategy for high-throughput screening of heparin/HS sequences has also been developed using docking calculations (Raghuraman et al, 2006).…”

Section: Pharmacology Of Heparin and Related Drugsmentioning

confidence: 99%

Pharmacology of Heparin and Related Drugs

et al. 2015

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“…Nevertheless, the relative lack of experimental structural data for these systems, combined with a growing awareness of their biological significance, has led to a number of innovative approaches to GAG docking. Recent examples include advances in the prediction of GAG binding sites [38,39], improvement in pose prediction via inclusion of specific bound waters [40], co-complex generation via threading and superimposition [41], mimetic discovery [42], as well as combining spectroscopic data with GAG modelling [43,44]. Very recently, an online utility for the automatic generation of 3D structures for GAGs has appeared (www.glycam.org/gag, [25]) that should find application in GAG modelling.…”

Section: Recent Advances In Computational Carbohydrate Dockingmentioning

confidence: 99%

Recent advances in employing molecular modelling to determine the specificity of glycan-binding proteins

Grant

Woods

2014

Current Opinion in Structural Biology

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Impressive improvements in docking performance can be achieved by applying energy bonuses to poses in which glycan hydroxyl groups occupy positions otherwise preferred by bound waters. In addition, inclusion of glycosidic conformational energies allows unlikely glycan conformations to be appropriately penalized. A method for predicting the binding specificity of glycan-binding proteins has been developed, which is based on grafting glycan branches onto a minimal binding determinant in the binding site. Grafting can be used either to screen virtual libraries of glycans, such as the known glycome, or to identify docked poses of minimal binding determinants that are consistent with specificity data. The reviewed advances allow accurate modelling of carbohydrate-protein 3D co-complexes, but challenges remain in ranking the affinity of congeners.

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Docking glycosaminoglycans to proteins: analysis of solvent inclusion

Cited by 70 publications

References 47 publications

Targeting cancer-specific glycans by cyclic peptide lectinomimics

Targeting cancer-specific glycans by cyclic peptide lectinomimics

Pharmacology of Heparin and Related Drugs

Recent advances in employing molecular modelling to determine the specificity of glycan-binding proteins

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