Glycobiology
Defined in the narrowest sense, glycobiology is the study of the structure, biosynthesis, and biology of
Sugars or saccharides are essential components of all living things and aspects of the various roles they play in biology are researched in various medical, biochemical and biotechnological fields.History
According to
Glycoconjugates
Sugars may be linked to other types of biological molecule to form glycoconjugates. The enzymatic process of glycosylation creates sugars/saccharides linked to themselves and to other molecules by the glycosidic bond, thereby producing glycans.
Glycomics
"Glycomics, analogous to genomics and proteomics, is the systematic study of all glycan structures of a given cell type or organism" and is a subset of glycobiology.[8][9]
Challenges in the study of sugar structures
Part of the variability seen in saccharide structures is because monosaccharide units may be coupled to each other in many different ways, as opposed to the amino acids of proteins or the nucleotides in DNA, which are always coupled together in a standard fashion.[10] The study of glycan structures is also complicated by the lack of a direct template for their biosynthesis, contrary to the case with proteins where their amino acid sequence is determined by their corresponding gene.[11]
Glycans are secondary gene products and therefore are generated by the coordinated action of many enzymes in the subcellular compartments of a cell. Since the structure of a glycan may depend on the expression, activity and accessibility of the different biosynthetic enzymes, it is not possible to use recombinant DNA technology in order to produce large quantities of glycans for structural and functional studies as it is for proteins.
Modern tools and techniques for glycan structure prediction
Advanced analytical instruments and software programs, when used in combination, can unlock the mystery of glycan structures. Current techniques for structural annotation and analysis of glycans include
One of the most widely used techniques is mass spectrometry which uses three principal units: the ionizer, analyzer and detector.
Glycan arrays, like that offered by the Consortium for Functional Glycomics and Z Biotech LLC, contain carbohydrate compounds that can be screened with lectins or antibodies to define carbohydrate specificity and identify ligands.
Multiple reaction monitoring (MRM)
MRM is a mass spectrometry-based technique that has recently been used for site-specific glycosylation profiling. Although MRM has been used extensively in metabolomics and proteomics, its high sensitivity and linear response over a wide dynamic range make it especially suited for glycan biomarker research and discovery. MRM is performed on a triple quadrupole (QqQ) instrument, which is set to detect a predetermined precursor ion in the first quadrupole, a fragmented in the collision quadrupole, and a predetermined fragment ion in the third quadrupole. It is a non-scanning technique, wherein each transition is detected individually and the detection of multiple transitions occurs concurrently in duty cycles.[7] This technique is being used to characterize the immune glycome.[7]
Medicine
Drugs already on the market, such as
Skin
Glycobiology, in which recent developments have been made possible by the latest technological advances, helps provide a more specific and precise understanding of skin aging. It has now been clearly established that glycans are major constituents of the skin and play a decisive role in skin homeostasis.
- They play a crucial role in the recognition of molecules and cells, they act, most notably, at the surface of cells to deliver biological messages.[14]
- They are instrumental in the metabolism of cells: synthesis, proliferation and differentiation
- They have a role to play in the structure and architecture of tissue.
Vital to the proper functioning of skin, glycans undergo both qualitative and quantitative changes in the course of aging.[15] The functions of communication and metabolism are impaired and the skin's architecture is degraded.
See also
References
- )
- ISBN 0-87969-560-9.
- PMID 3052290.
- ^ "Rosalind Kornfeld Award". www.glycobiology.org. Retrieved 2021-11-05.
- PMID 15047148.
- S2CID 1110879.
- ^ PMID 25578468.
- ^ Cold Spring Harbor Laboratory Press Essentials of Glycobiology, Second Edition
- PMID 27004978.
- ^ Kreuger, J (2001). "Decoding heparan sulfate". Retrieved 2008-01-11.
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(help) - PMID 18758488.
- ISSN 0165-9936.
- ^ Olden K, Bernard BA, Humphries M, et al. (1985). Function of glycoprotein glycans T.I.B.S. pp. 78–82.
- PMID 18708125.
- S2CID 34434784.
External links
- Vendor Glycoconjugates, Glycan Recognizing Proteins
- The Functional Glycomics Gateway. monthly updated web resource, a collaboration of Nature and the Consortium for Functional Glycomics.
- Carolyn Bertozzi's Seminar: "Chemical Glycobiology"
- Emanual Maverakis; et al. "Glycans in the immune system and The Altered Glycan Theory of Autoimmunity" (PDF).
- http://www.healthcanal.com/medical-breakthroughs/22037-UGA-scientists-team-define-first-ever-sequence-biologically-important-carbohydrate.html