Literature summary extracted from

Fanuel, M.; Garajova, S.; Ropartz, D.; McGregor, N.; Brumer, H.; Rogniaux, H.; Berrin, J.G.
The Podospora anserina lytic polysaccharide monooxygenase PaLPMO9H catalyzes oxidative cleavage of diverse plant cell wall matrix glycans (2017), Biotechnol. Biofuels, 10, 63.

Cloned(Commentary)

EC Number	Cloned (Comment)	Organism
1.14.99.B10	expression in Pichia pastoris	Podospora anserina

Organism

EC Number	Organism	UniProt	Comment	Textmining
1.14.99.B10	Podospora anserina	B2ADG1	-	-
1.14.99.B10	Podospora anserina DSM 980	B2ADG1	-	-

Substrates and Products (Substrate)

EC Number	Substrates	Comment Substrates	Organism	Products	Comment (Products)	Rev.	Reac.
1.14.99.B10	barley mixed-linkage beta-glucan + ascorbate + O2	-	Podospora anserina	? + dehydroascorbate + H2O	most abundant products show a degree of polymerization of 2-4	?
1.14.99.B10	barley mixed-linkage beta-glucan + ascorbate + O2	-	Podospora anserina DSM 980	? + dehydroascorbate + H2O	most abundant products show a degree of polymerization of 2-4	?
1.14.99.B10	cellulose + ascorbate + O2	-	Podospora anserina	cellooligosaccharides + dehydroascorbate + H2O	cleavage generates singly and doubly oxidized products at the C1 and/or C4 positions	?
1.14.99.B10	cellulose + ascorbate + O2	-	Podospora anserina DSM 980	cellooligosaccharides + dehydroascorbate + H2O	cleavage generates singly and doubly oxidized products at the C1 and/or C4 positions	?
1.14.99.B10	konjac glucomannan + ascorbate + O2	-	Podospora anserina	cellooligosaccharides + dehydroascorbate + H2O	products are aldonic acids and gem-diols	?
1.14.99.B10	konjac glucomannan + ascorbate + O2	-	Podospora anserina DSM 980	cellooligosaccharides + dehydroascorbate + H2O	products are aldonic acids and gem-diols	?
1.14.99.B10	lichenan + ascorbate + O2	-	Podospora anserina	? + dehydroascorbate + H2O	most abundant products show a degree of polymerization of 2-4	?
1.14.99.B10	lichenan + ascorbate + O2	-	Podospora anserina DSM 980	? + dehydroascorbate + H2O	most abundant products show a degree of polymerization of 2-4	?
1.14.99.B10	additional information	LPMO9H is able to target polysaccharides differing from cellulose by their linkage types, glycosidic composition or the presence of sidechains. Isoform LPMO9H catalyzes C4 oxidative cleavage of mixed-linkage glucans, and mixed C1/C4 oxidative cleavage of glucomannan and xyloglucan. Gem-diols and ketones are produced at the non-reducing end, while aldonic acids are produced at the reducing extremity of the products	Podospora anserina	?	-	?
1.14.99.B10	additional information	LPMO9H is able to target polysaccharides differing from cellulose by their linkage types, glycosidic composition or the presence of sidechains. Isoform LPMO9H catalyzes C4 oxidative cleavage of mixed-linkage glucans, and mixed C1/C4 oxidative cleavage of glucomannan and xyloglucan. Gem-diols and ketones are produced at the non-reducing end, while aldonic acids are produced at the reducing extremity of the products	Podospora anserina DSM 980	?	-	?
1.14.99.B10	tamarind xyloglucan + ascorbate + O2	-	Podospora anserina	xylooligosaccharides + dehydroascorbate + H2O	products are mostly oligosaccharides having degrees of polymerization of 6 and 7	?
1.14.99.B10	XXXGXXXG + ascorbate + O2	branched substrate, G represents an unbranched beta-(1->4)-linked glucosyl residue and X represents beta-(1->4)-linked Glc bearing an alpha-(1->6)-linked xylosyl branch	Podospora anserina	? + dehydroascorbate + H2O	cleavage generates a gem-diol at the non-reducing end	?

Synonyms

EC Number	Synonyms	Comment	Organism
1.14.99.B10	Lpmo9H	-	Podospora anserina
1.14.99.B10	PODANS_4_1020	-	Podospora anserina

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Release 2023.1 (January 2023)