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Literature DB >> 27900575

Glycosaminoglycanomics: where we are.

Sylvie Ricard-Blum¹, Frédérique Lisacek^2,3.

Abstract

Glycosaminoglycans regulate numerous physiopathological processes such as development, angiogenesis, innate immunity, cancer and neurodegenerative diseases. Cell surface GAGs are involved in cell-cell and cell-matrix interactions, cell adhesion and signaling, and host-pathogen interactions. GAGs contribute to the assembly of the extracellular matrix and heparan sulfate chains are able to sequester growth factors in the ECM. Their biological activities are regulated by their interactions with proteins. The structural heterogeneity of GAGs, mostly due to chemical modifications occurring during and after their synthesis, makes the development of analytical techniques for their profiling in cells, tissues, and biological fluids, and of computational tools for mining GAG-protein interaction data very challenging. We give here an overview of the experimental approaches used in glycosaminoglycomics, of the major GAG-protein interactomes characterized so far, and of the computational tools and databases available to analyze and store GAG structures and interactions.

Entities: Chemical Disease

Keywords: Bioinformatics; Databases; Glycosaminoglycan-protein interaction; Glycosaminoglycomics; Heparanome; Interaction networks

Mesh：

Substances：

Year: 2016 PMID： 27900575 DOI： 10.1007/s10719-016-9747-2

Source DB: PubMed Journal: Glycoconj J ISSN： 0282-0080 Impact factor: 2.916

141 in total

1. Anharmonic simulations of the vibrational spectrum of sulfated compounds: application to the glycosaminoglycan fragment glucosamine 6-sulfate.

Authors: Loïc Barnes; Baptiste Schindler; Abdul-Rahman Allouche; Daniel Simon; Stéphane Chambert; Jos Oomens; Isabelle Compagnon
Journal: Phys Chem Chem Phys Date: 2015-10-21 Impact factor: 3.676

2. A straightforward, quantitative ultra-performance liquid chromatography-tandem mass spectrometric method for heparan sulfate, dermatan sulfate and chondroitin sulfate in urine: an improved clinical screening test for the mucopolysaccharidoses.

Authors: Haoyue Zhang; Tim Wood; Sarah P Young; David S Millington
Journal: Mol Genet Metab Date: 2014-10-05 Impact factor: 4.797

3. Elucidating glycosaminoglycan-protein-protein interactions using carbohydrate microarray and computational approaches.

Authors: Claude J Rogers; Peter M Clark; Sarah E Tully; Ravinder Abrol; K Christopher Garcia; William A Goddard; Linda C Hsieh-Wilson
Journal: Proc Natl Acad Sci U S A Date: 2011-05-31 Impact factor: 11.205

Review 4. Heparan sulfate and heparin interactions with proteins.

Authors: Maria C Z Meneghetti; Ashley J Hughes; Timothy R Rudd; Helena B Nader; Andrew K Powell; Edwin A Yates; Marcelo A Lima
Journal: J R Soc Interface Date: 2015-09-06 Impact factor: 4.118

Review 5. Structure and physicochemical characterisation of heparin.

Authors: Barbara Mulloy
Journal: Handb Exp Pharmacol Date: 2012

6. Glycomics analysis of mammalian heparan sulfates modified by the human extracellular sulfatase HSulf2.

Authors: Gregory O Staples; Xiaofeng Shi; Joseph Zaia
Journal: PLoS One Date: 2011-02-08 Impact factor: 3.240

7. InChI, the IUPAC International Chemical Identifier.

Authors: Stephen R Heller; Alan McNaught; Igor Pletnev; Stephen Stein; Dmitrii Tchekhovskoi
Journal: J Cheminform Date: 2015-05-30 Impact factor: 5.514

8. Glycomics approaches for the bioassay and structural analysis of heparin/heparan sulphates.

Authors: Tania M Puvirajesinghe; Jeremy E Turnbull
Journal: Metabolites Date: 2012-11-28

Review 9. Glycoarray Technologies: Deciphering Interactions from Proteins to Live Cell Responses.

Authors: Tania M Puvirajesinghe; Jeremy E Turnbull
Journal: Microarrays (Basel) Date: 2016-01-04

10. On-line sheathless capillary electrophoresis/nanoelectrospray ionization-tandem mass spectrometry for the analysis of glycosaminoglycan oligosaccharides.

Authors: Alina Zamfir; Daniela G Seidler; Elke Schönherr; Hans Kresse; Jasna Peter-Katalinic
Journal: Electrophoresis Date: 2004-07 Impact factor: 3.595

14 in total

1. Structural similarities in the CPC clip motif explain peptide-binding promiscuity between glycosaminoglycans and lipopolysaccharides.

Authors: David Pulido; Rocío Rebollido-Rios; Javier Valle; David Andreu; Ester Boix; Marc Torrent
Journal: J R Soc Interface Date: 2017-11 Impact factor: 4.118

Review 2. Using structurally defined oligosaccharides to understand the interactions between proteins and heparan sulfate.

Authors: Ding Xu; Katelyn Arnold; Jian Liu
Journal: Curr Opin Struct Biol Date: 2018-04-21 Impact factor: 6.809

3. Perspective on computational simulations of glycosaminoglycans.

Authors: Balaji Nagarajan; Nehru Viji Sankaranarayanan; Umesh R Desai
Journal: Wiley Interdiscip Rev Comput Mol Sci Date: 2018-09-10

4. Computerized Molecular Modeling for Discovering Promising Glycosaminoglycan Oligosaccharides that Modulate Protein Function.

Authors: Nehru Viji Sankaranarayanan; Umesh Desai
Journal: Methods Mol Biol Date: 2022

Review 5. Glycosaminoglycan Interactions with Chemokines Add Complexity to a Complex System.

Authors: Amanda E I Proudfoot; Zoë Johnson; Pauline Bonvin; Tracy M Handel
Journal: Pharmaceuticals (Basel) Date: 2017-08-09

6. Bioprospecting for Exopolysaccharides from Deep-Sea Hydrothermal Vent Bacteria: Relationship between Bacterial Diversity and Chemical Diversity.

Authors: Christine Delbarre-Ladrat; Marcia Leyva Salas; Corinne Sinquin; Agata Zykwinska; Sylvia Colliec-Jouault
Journal: Microorganisms Date: 2017-09-20