A brief and informationally rich naming system for oligosaccharide motifs of heteroxylans found in plant cell walls

The one-letter code system proposed here is a simple method to accurately describe structurally diverse oligosaccharides derived from heteroxylans. Substitutions or ‘molecular decoration(s)’ of main-chain d-xylosyl moieties are designated by unique letters. Hence, an oligosaccharide is described by...

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Published in:Australian Journal of Chemistry
Main Authors: Faure, R., Courtin, C., Delcour, J., Dumon, C., Faulds, C., Fincher, G., Fort, S., Fry, S., Halila, S., Kabel, M., Pourvreau, L., Quemener, B., Rivet, A., Saulnier, L., Schols, H., Driguez, H., O'Donohue, M.
Format: Article in Journal/Newspaper
Language:English
Published: C S I R O Publishing 2009
Subjects:
sami
Online Access:http://hdl.handle.net/2440/54988
https://doi.org/10.1071/CH08458
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spelling ftunivadelaidedl:oai:digital.library.adelaide.edu.au:2440/54988 2023-05-15T18:12:34+02:00 A brief and informationally rich naming system for oligosaccharide motifs of heteroxylans found in plant cell walls Faure, R. Courtin, C. Delcour, J. Dumon, C. Faulds, C. Fincher, G. Fort, S. Fry, S. Halila, S. Kabel, M. Pourvreau, L. Quemener, B. Rivet, A. Saulnier, L. Schols, H. Driguez, H. O'Donohue, M. 2009 http://hdl.handle.net/2440/54988 https://doi.org/10.1071/CH08458 en eng C S I R O Publishing Australian Journal of Chemistry: an international journal for chemical science, 2009; 62(6):533-537 0004-9425 1445-0038 http://hdl.handle.net/2440/54988 doi:10.1071/CH08458 Journal article 2009 ftunivadelaidedl https://doi.org/10.1071/CH08458 2023-02-05T19:20:28Z The one-letter code system proposed here is a simple method to accurately describe structurally diverse oligosaccharides derived from heteroxylans. Substitutions or ‘molecular decoration(s)’ of main-chain d-xylosyl moieties are designated by unique letters. Hence, an oligosaccharide is described by a series of single letters, beginning with the non-reducing d-xylosyl unit. Superscripted numbers are used to indicate the linkage position(s) of main-chain substitution(s) and, where necessary, superscripted lowercase letter(s) indicate the nature of non-glycosidic groups (e.g., methyl, acetyl, or phenolic derivative moieties) that can be present on the substituents. Although relatively simple and practical to use, this abbreviated system lends itself to the naming of a large number of different combinations of structural building blocks and substituents. In its present state, this system is, therefore, adequate to name and differentiate all currently known complex oligosaccharides derived from heteroxylans and is sufficiently flexible to accommodate new structures as they become available. Régis Fauré, Christophe M. Courtin, Jan A. Delcour, Claire Dumon, Craig B. Faulds, Geoffrey B. Fincher, Sébastien Fort, Stephen C. Fry, Sami Halila, Mirjam A. Kabel, Laurice Pouvreau, Bernard Quemener, Alain Rivet, Luc Saulnier, Henk A. Schols, Hugues Driguez, and Michael J. O’Donohue Article in Journal/Newspaper sami The University of Adelaide: Digital Library Australian Journal of Chemistry 62 6 533
institution Open Polar
collection The University of Adelaide: Digital Library
op_collection_id ftunivadelaidedl
language English
description The one-letter code system proposed here is a simple method to accurately describe structurally diverse oligosaccharides derived from heteroxylans. Substitutions or ‘molecular decoration(s)’ of main-chain d-xylosyl moieties are designated by unique letters. Hence, an oligosaccharide is described by a series of single letters, beginning with the non-reducing d-xylosyl unit. Superscripted numbers are used to indicate the linkage position(s) of main-chain substitution(s) and, where necessary, superscripted lowercase letter(s) indicate the nature of non-glycosidic groups (e.g., methyl, acetyl, or phenolic derivative moieties) that can be present on the substituents. Although relatively simple and practical to use, this abbreviated system lends itself to the naming of a large number of different combinations of structural building blocks and substituents. In its present state, this system is, therefore, adequate to name and differentiate all currently known complex oligosaccharides derived from heteroxylans and is sufficiently flexible to accommodate new structures as they become available. Régis Fauré, Christophe M. Courtin, Jan A. Delcour, Claire Dumon, Craig B. Faulds, Geoffrey B. Fincher, Sébastien Fort, Stephen C. Fry, Sami Halila, Mirjam A. Kabel, Laurice Pouvreau, Bernard Quemener, Alain Rivet, Luc Saulnier, Henk A. Schols, Hugues Driguez, and Michael J. O’Donohue
format Article in Journal/Newspaper
author Faure, R.
Courtin, C.
Delcour, J.
Dumon, C.
Faulds, C.
Fincher, G.
Fort, S.
Fry, S.
Halila, S.
Kabel, M.
Pourvreau, L.
Quemener, B.
Rivet, A.
Saulnier, L.
Schols, H.
Driguez, H.
O'Donohue, M.
spellingShingle Faure, R.
Courtin, C.
Delcour, J.
Dumon, C.
Faulds, C.
Fincher, G.
Fort, S.
Fry, S.
Halila, S.
Kabel, M.
Pourvreau, L.
Quemener, B.
Rivet, A.
Saulnier, L.
Schols, H.
Driguez, H.
O'Donohue, M.
A brief and informationally rich naming system for oligosaccharide motifs of heteroxylans found in plant cell walls
author_facet Faure, R.
Courtin, C.
Delcour, J.
Dumon, C.
Faulds, C.
Fincher, G.
Fort, S.
Fry, S.
Halila, S.
Kabel, M.
Pourvreau, L.
Quemener, B.
Rivet, A.
Saulnier, L.
Schols, H.
Driguez, H.
O'Donohue, M.
author_sort Faure, R.
title A brief and informationally rich naming system for oligosaccharide motifs of heteroxylans found in plant cell walls
title_short A brief and informationally rich naming system for oligosaccharide motifs of heteroxylans found in plant cell walls
title_full A brief and informationally rich naming system for oligosaccharide motifs of heteroxylans found in plant cell walls
title_fullStr A brief and informationally rich naming system for oligosaccharide motifs of heteroxylans found in plant cell walls
title_full_unstemmed A brief and informationally rich naming system for oligosaccharide motifs of heteroxylans found in plant cell walls
title_sort brief and informationally rich naming system for oligosaccharide motifs of heteroxylans found in plant cell walls
publisher C S I R O Publishing
publishDate 2009
url http://hdl.handle.net/2440/54988
https://doi.org/10.1071/CH08458
genre sami
genre_facet sami
op_relation Australian Journal of Chemistry: an international journal for chemical science, 2009; 62(6):533-537
0004-9425
1445-0038
http://hdl.handle.net/2440/54988
doi:10.1071/CH08458
op_doi https://doi.org/10.1071/CH08458
container_title Australian Journal of Chemistry
container_volume 62
container_issue 6
container_start_page 533
_version_ 1766185072946315264

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