Andrew J. Mort scite author profile

To facilitate analysis of plant cell wall polysaccharide structure and composition, we cloned 74 genes encoding polysaccharidedegrading enzymes from Aspergillus nidulans, Aspergillus fumigatus, and Neurospora crassa and expressed the genes as secreted proteins with C-terminal Myc and 6؋ His tags. Most of the recombinant enzymes were active in enzyme assays, and optima for pH and temperature were established. A subset of the enzymes was used to fragment polysaccharides from the irregular xylem 9 (irx9) mutant of Arabidopsis. The analysis revealed a decrease in the abundance of xylan in the mutant, indicating that the IRX9 gene, which encodes a putative family 43 glycosyltransferase, is required for xylan synthesis.Arabidopsis ͉ fingerprinting ͉ hydrolase ͉ mutant ͉ xylan

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Anhydrous hydrogen fluoride deglycosylates glycoproteins

Mort

Lamport

1977

Analytical Biochemistry

369

162

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An unambiguous nomenclature for xyloglucan‐derived oligosaccharides

Fry

York

Albersheim

et al. 1993

Physiologia Plantarum

468

153

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A revised system of abbreviated names is proposed for xyloglucan‐derived oligosaccharides. Each (1→4)‐linked β‐d‐glucosyl residue (and the reducing terminal d‐glucose moiety) of the backbone is given a one‐letter code according to its substituents. The name of the oligosaccharide consists of these code letters listed in sequence from non‐reducing to reducing terminus of the backbone.

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Root Mucilage from Pea and Its Utilization by Rhizosphere Bacteria as a Sole Carbon Source

Knee¹,

Gong²,

Gao³

et al. 2001

MPMI

219

136

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Plant roots secrete a complex polysaccharide mucilage that may provide a significant source of carbon for microbes that colonize the rhizosphere. High molecular weight mucilage was separated by high-pressure liquid chromatography gel filtration from low molecular weight components of pea root exudate. Purified pea root mucilage generally was similar in sugar and glycosidic linkage composition to mucilage from cowpea, wheat, rice, and maize, but appeared to contain an unusually high amount of material that was similar to arabinogalactan protein. Purified pea mucilage was used as the sole carbon source for growth of several pea rhizosphere bacteria, including Rhizobium leguminosarum 8401 and 4292, Burkholderia cepacia AMMD, and Pseudomonas fluorescens PRA25. These species grew on mucilage to cell densities of three- to 25-fold higher than controls with no added carbon source, with cell densities of 1 to 15% of those obtained on an equal weight of glucose. Micromolar concentrations of nod gene-inducing flavonoids specifically stimulated mucilage-dependent growth of R. leguminosarum 8401 to levels almost equaling the glucose controls. R. leguminosarum 8401 was able to hydrolyze p-nitrophenyl glycosides of various sugars and partially utilize a number of purified plant polysaccharides as sole carbon sources, indicating that R. leguminosarum 8401 can make an unexpected variety of carbohydrases, in accordance with its ability to extensively utilize pea root mucilage.

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Andrew J. Mort

An unambiguous nomenclature for xyloglucan-derived oligosaccharides

Development and application of a suite of polysaccharide-degrading enzymes for analyzing plant cell walls

Anhydrous hydrogen fluoride deglycosylates glycoproteins

An unambiguous nomenclature for xyloglucan‐derived oligosaccharides

Root Mucilage from Pea and Its Utilization by Rhizosphere Bacteria as a Sole Carbon Source

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