1.1.99.29	2,3-didehydro-D-glucose + 1,4-benzoquinone	-	
1.1.99.29	2-dehydro-D-xylose + 1,4-benzoquinone	-	
1.1.99.29	a pyranoside + acceptor	-	
1.1.99.29	cellobiose + ferricenium ion	-	
1.1.99.29	D-fructose + ferricenium ion	-	
1.1.99.29	D-galactose + ferricenium ion	-	
1.1.99.29	D-galactose + ferrocenium ion	-	
1.1.99.29	D-glucose + 1,4-benzoquinone	-	
1.1.99.29	D-glucose + 2-chloro-1,4-benzoquinone	-	
1.1.99.29	D-glucose + acceptor	dioxidation at C2 and C3	
1.1.99.29	D-glucose + acceptor	the enzyme oxidizes D-glucose at both the C2 and C3 position but the C2 position is the primary site of attack	
1.1.99.29	D-glucose + ferricenium ion	-	
1.1.99.29	D-glucose + ferrocenium ion	-	
1.1.99.29	D-maltose + ferricenium ion	-	
1.1.99.29	D-mannose + ferricenium ion	-	
1.1.99.29	D-ribose + ferricenium ion	-	
1.1.99.29	D-talose + ferricenium ion	-	
1.1.99.29	D-xylose + 1,4-benzoquinone	-	
1.1.99.29	D-xylose + ferricenium ion	-	
1.1.99.29	D-xylose + ferrocenium ion	-	
1.1.99.29	L-arabinose + ferricenium ion	-	
1.1.99.29	L-arabinose + ferrocenium ion	-	
1.1.99.29	L-sorbose + ferricenium ion	-	
1.1.99.29	lactose + acceptor	-	
1.1.99.29	lactose + ferricenium ion	-	
1.1.99.29	lactose + ferrocenium ion	-	
1.1.99.29	maltotriose + ferricenium ion	-	
1.1.99.29	additional information	oxidative carbohydrate metabolism, pyranose 2-dehydrogenase may play an important role in fungal lignocellulose decomposition by interconnecting ligninolysis with degradation of cell wall polysaccharide components	
1.1.99.29	additional information	PDH can oxidise its substrate at the C-1, C-2 or C-3 as well as perform double oxidation at C-1,2, C-2,3 and it has no anomeric specificity. PDH does not show any detectable activity with oxygen	
1.1.99.29	additional information	O2 is a poor electron acceptor	
1.1.99.29	pyranose + acceptor	-	
1.1.99.29	pyranoside + acceptor	-	
1.1.99.29	xylobiose + ferricenium ion	-