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Glucan

February 15, 2024

Not to be confused with Glycan.

A glucan is a polysaccharide derived from D-glucose,[1] linked by glycosidic bonds. Glucans are noted in two forms: alpha glucans and beta glucans. Many beta-glucans are medically important. They represent a drug target for antifungal medications of the echinocandin class.

Types edit

The following are glucans (The α- and β- and numbers clarify the type of O-glycosidic bond and the specific carbons involved):[2]

Alpha edit

Main article: Alpha glucan

Beta edit

Main article: Beta glucan

Properties edit

Properties of glucans include resistance to oral acids/enzyme and water insolubility. Glucans extracted from grains tend to be both soluble and insoluble.[clarification needed]

Structure edit

Glucans are polysaccharides derived from glucose monomers. The monomers are linked by glycosidic bonds. Four types of glucose-based polysaccharides are possible: 1,6- (starch), 1,4- (cellulose), 1,3- (laminarin), and 1,2-bonded glucans.

 
 

The first representatives of main chain unhydrolysable linear polymers made up of levoglucosan units were synthesized in 1985 by anionic polymerization of 2,3-epoxy derivatives of levoglucosan (1,6;2,3-dianhydro-4-O-alkyl-β-D-mannopyranoses).[3]

 
2,3-Polymer

A wide range of unique monomers with different radical R can be synthesized.[4] There were synthesized polymers with R= -CH3,[3] -CH2CHCH2,[5] and -CH2C6H5.[6] Investigation of the polymerization kinetics of those derivatives, molecular weight and molecular-weight distribution showed that the polymerization has the features of a living polymerization system. The process takes place without termination and transfer of the polymer chain with a degree of polymerization equal to the mole ratio of the monomer to the initiator.[7][8] Accordingly, the upper value molecular weight polymer determines only degree of purification system what determine the presence in the system uncontrollable amount of terminators of polymer chains.

Poly(2-3)-D-glucose was synthesized proceeds by transformation of benzyl (R= -CH2C6H5) functionalized polymer.[6]

 
Polyglucose

Polymerization of 3,4-epoxy levoglucosan (1,6;3,4-dianhydro-2-O-alkyl-β-D-galactopyranose) results in formation 3,4-bounded levoglucosan polymer.[9]

 
3,4-Polymer

The presence of 1,6-anhydro structure in every unit of polymer chains allows researchers to apply all spectra of well developed methods of carbohydrate chemistry with formation of highly intriguing biological application polymers. The polymers are the only known regular polyethers built up of carbohydrate units in main polymer chain.[10][11]

Functions edit

Glucans serve a diverse set of functions. Within the cell, certain glucans store energy, fortify cellular structure, behave in recognition, and enhance virulence in pathogenic organisms.[12]

Glycogen and starch are notable glucans responsible for storing energy for the cell. Receptor molecules of the immune system, such as the Complement receptor 3, or CR3, and CD5 receptor, recognize and bind to beta-glucans on invading cell surfaces.[13]

See also edit

References edit

  1. ^ Glucans at the U.S. National Library of Medicine Medical Subject Headings (MeSH)
  2. ^ Synytsya A, Novak M. Structural analysis of glucans. Ann Transl Med. 2014 Feb; 2(2):17. doi:10.3978/j.issn.2305-5839.2014.02.07.
  3. ^ a b Berman, E.L., Gorkovenko A.A., Zubov, V.P., and Ponomarenko, V.A., "Regio and Stereospecific Synthesis of Polyglucose with Novel Type Bond" Soviet J.Bioorg. Chem. 11 (1985), 1125-1129
  4. ^ Carlson, LJ (November 1965). "Preparation of 2- and 4-Substituted D-Glucose Derivatives from 1,6-Anhydro-β-D- glucopyranose". The Journal of Organic Chemistry. 30 (11): 3953–3955. doi:10.1021/jo01022a517.
  5. ^ Gorkovenko, A.A., Berman, E.L., and Ponomarenko, V.A. Polymerization of 1, 6;2,3 dianhydro 4 O allyl β D manno¬pyranose Vysocomol. Soed., Ser. B, 1987, 29, 134 137
  6. ^ a b Gorkovenko, A.A., Berman, E.L., and Ponomarenko, V.A. "A New Polymer of Glucose. Poly(2 3) D glucose" Soviet J. Bioorg. Chem., 1987, 13, 218 222
  7. ^ Berman, E.L., Gorkovenko, A.A., Rogozhkina, E.D., Izumnikov, A.A., and Ponomarenko, V.A. “Kinetics and Mechanism of Epoxy Ring-Opening Polymerization of 1,6;2,3-Dianhydro-4-O-alkyl-b-D-mannopyranoses” Polymer Sci. USSR, 1988, 413-418
  8. ^ Berman E.L. Gorkovenko, A.A., Rogozhkina, E.D., Izyumnikov, A.L., and Ponomarenko, V.A. "Synthesis of Chiral Derivatives of Poly(Ethylene Oxide)" Bull. Acad. Sci. USSR, Div. Chem. Sci., 1988, 705 707
  9. ^ Gorkovenko A. A., Berman, E.L., and Ponomarenko, V.A., Poly(3 4) 2 O methyl 1,6 anhydro b D glucopyranose. The First Example of (3 4) linked Polymer Carbohydrates" Soviet J. Bioorg. Chem. 12 (1986), 514-520
  10. ^ Berman E.L., Gorkovenko, A.A., and Ponomarenko, V.A. "Structure and Polymerizability of 1,6;2,3 and 1,6;3,4¬ Dianhydrohexapyranoses" Polymer Sci. USSR, 1988, 30, 497¬-502
  11. ^ Berman, E.L., “New Glucose Polymers” in “Levoglucosenone and Levoglucosanes: Symposium: 204th National meeting”, Zbigniew J. Witczak (editor), American Chemical Society. Division of Carbohydrate Chemistry, 189-214. Publisher: A T L Press, Scientific Publishers ISBN 978-1-882360-13-0 ISBN 1882360133
  12. ^ Ruiz-Herrera, José; Ortiz-Castellanos, Lucila (2019-12-01). "Cell wall glucans of fungi. A review". The Cell Surface. 5: 100022. doi:10.1016/j.tcsw.2019.100022. ISSN 2468-2330. PMC 7389562. PMID 32743138. S2CID 108720495.
  13. ^ Goodridge, Helen; Wolf, Andrea; Underhill, David (29 June 2009). "β-glucan recognition by the innate immune system". Immunological Reviews. 230 (1): 38–50. doi:10.1111/j.1600-065X.2009.00793.x. eISSN 1600-065X. ISSN 0105-2896. PMC 6618291. PMID 19594628.

February 15, 2024
glucan, confused, with, glycan, glucan, polysaccharide, derived, from, glucose, linked, glycosidic, bonds, noted, forms, alpha, glucans, beta, glucans, many, beta, glucans, medically, important, they, represent, drug, target, antifungal, medications, echinocan. Not to be confused with Glycan A glucan is a polysaccharide derived from D glucose 1 linked by glycosidic bonds Glucans are noted in two forms alpha glucans and beta glucans Many beta glucans are medically important They represent a drug target for antifungal medications of the echinocandin class Contents 1 Types 1 1 Alpha 1 2 Beta 2 Properties 3 Structure 4 Functions 5 See also 6 ReferencesTypes editThe following are glucans The a and b and numbers clarify the type of O glycosidic bond and the specific carbons involved 2 Alpha edit Main article Alpha glucan dextran a 1 6 glucan with a 1 3 branches floridean starch a 1 4 and a 1 6 glucan glycogen a 1 4 and a 1 6 glucan pullulan a 1 4 and a 1 6 glucan starch a mixture of amylose and amylopectin both a 1 4 and a 1 6 glucansBeta edit Main article Beta glucan cellulose b 1 4 glucan chrysolaminarin b 1 3 glucan curdlan b 1 3 glucan laminarin b 1 3 and b 1 6 glucan lentinan a strictly purified b 1 6 b 1 3 glucan from Lentinus edodes lichenin b 1 3 and b 1 4 glucan oat beta glucan b 1 3 and b 1 4 glucan pleuran b 1 3 and b 1 6 glucan isolated from Pleurotus ostreatus zymosan b 1 3 glucanProperties editProperties of glucans include resistance to oral acids enzyme and water insolubility Glucans extracted from grains tend to be both soluble and insoluble clarification needed Structure editGlucans are polysaccharides derived from glucose monomers The monomers are linked by glycosidic bonds Four types of glucose based polysaccharides are possible 1 6 starch 1 4 cellulose 1 3 laminarin and 1 2 bonded glucans nbsp nbsp The first representatives of main chain unhydrolysable linear polymers made up of levoglucosan units were synthesized in 1985 by anionic polymerization of 2 3 epoxy derivatives of levoglucosan 1 6 2 3 dianhydro 4 O alkyl b D mannopyranoses 3 nbsp 2 3 PolymerA wide range of unique monomers with different radical R can be synthesized 4 There were synthesized polymers with R CH3 3 CH2CHCH2 5 and CH2C6H5 6 Investigation of the polymerization kinetics of those derivatives molecular weight and molecular weight distribution showed that the polymerization has the features of a living polymerization system The process takes place without termination and transfer of the polymer chain with a degree of polymerization equal to the mole ratio of the monomer to the initiator 7 8 Accordingly the upper value molecular weight polymer determines only degree of purification system what determine the presence in the system uncontrollable amount of terminators of polymer chains Poly 2 3 D glucose was synthesized proceeds by transformation of benzyl R CH2C6H5 functionalized polymer 6 nbsp PolyglucosePolymerization of 3 4 epoxy levoglucosan 1 6 3 4 dianhydro 2 O alkyl b D galactopyranose results in formation 3 4 bounded levoglucosan polymer 9 nbsp 3 4 PolymerThe presence of 1 6 anhydro structure in every unit of polymer chains allows researchers to apply all spectra of well developed methods of carbohydrate chemistry with formation of highly intriguing biological application polymers The polymers are the only known regular polyethers built up of carbohydrate units in main polymer chain 10 11 Functions editGlucans serve a diverse set of functions Within the cell certain glucans store energy fortify cellular structure behave in recognition and enhance virulence in pathogenic organisms 12 Glycogen and starch are notable glucans responsible for storing energy for the cell Receptor molecules of the immune system such as the Complement receptor 3 or CR3 and CD5 receptor recognize and bind to beta glucans on invading cell surfaces 13 See also editGlucanaseReferences edit Glucans at the U S National Library of Medicine Medical Subject Headings MeSH Synytsya A Novak M Structural analysis of glucans Ann Transl Med 2014 Feb 2 2 17 doi 10 3978 j issn 2305 5839 2014 02 07 a b Berman E L Gorkovenko A A Zubov V P and Ponomarenko V A Regio and Stereospecific Synthesis of Polyglucose with Novel Type Bond Soviet J Bioorg Chem 11 1985 1125 1129 Carlson LJ November 1965 Preparation of 2 and 4 Substituted D Glucose Derivatives from 1 6 Anhydro b D glucopyranose The Journal of Organic Chemistry 30 11 3953 3955 doi 10 1021 jo01022a517 Gorkovenko A A Berman E L and Ponomarenko V A Polymerization of 1 6 2 3 dianhydro 4 O allyl b D manno pyranose Vysocomol Soed Ser B 1987 29 134 137 a b Gorkovenko A A Berman E L and Ponomarenko V A A New Polymer of Glucose Poly 2 3 D glucose Soviet J Bioorg Chem 1987 13 218 222 Berman E L Gorkovenko A A Rogozhkina E D Izumnikov A A and Ponomarenko V A Kinetics and Mechanism of Epoxy Ring Opening Polymerization of 1 6 2 3 Dianhydro 4 O alkyl b D mannopyranoses Polymer Sci USSR 1988 413 418 Berman E L Gorkovenko A A Rogozhkina E D Izyumnikov A L and Ponomarenko V A Synthesis of Chiral Derivatives of Poly Ethylene Oxide Bull Acad Sci USSR Div Chem Sci 1988 705 707 Gorkovenko A A Berman E L and Ponomarenko V A Poly 3 4 2 O methyl 1 6 anhydro b D glucopyranose The First Example of 3 4 linked Polymer Carbohydrates Soviet J Bioorg Chem 12 1986 514 520 Berman E L Gorkovenko A A and Ponomarenko V A Structure and Polymerizability of 1 6 2 3 and 1 6 3 4 Dianhydrohexapyranoses Polymer Sci USSR 1988 30 497 502 Berman E L New Glucose Polymers in Levoglucosenone and Levoglucosanes Symposium 204th National meeting Zbigniew J Witczak editor American Chemical Society Division of Carbohydrate Chemistry 189 214 Publisher A T L Press Scientific Publishers ISBN 978 1 882360 13 0 ISBN 1882360133 Ruiz Herrera Jose Ortiz Castellanos Lucila 2019 12 01 Cell wall glucans of fungi A review The Cell Surface 5 100022 doi 10 1016 j tcsw 2019 100022 ISSN 2468 2330 PMC 7389562 PMID 32743138 S2CID 108720495 Goodridge Helen Wolf Andrea Underhill David 29 June 2009 b glucan recognition by the innate immune system Immunological Reviews 230 1 38 50 doi 10 1111 j 1600 065X 2009 00793 x eISSN 1600 065X ISSN 0105 2896 PMC 6618291 PMID 19594628 Retrieved from https en wikipedia org w index php title Glucan amp oldid 1161376117, wikipedia, wiki, book, books, library,

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