2.4.1.25	2-mercaptoethanol	D-enzyme, slight inhibition	63	
2.4.1.25	acarbose	-	412	
2.4.1.25	acarbose	a strong mixed inhibitor with almost equal competitive and uncompetitive binding constants, acarbose is both bound in the active site and at another site	412	
2.4.1.25	Ag+	-	75	
2.4.1.25	aplanin	Bay e 4609, pseudooligosaccharide resembling amylose with a hydroxymethylconduritol unit and a 4-amino-4-deoxy-D-chinorose residue linked to a varying number of alpha-D-glucose units from 7-30	110631	
2.4.1.25	beta-cyclodextrin	a mixed-type inhibitor	302	
2.4.1.25	cyclomaltohexaose	inhibition 25%	4801	
2.4.1.25	dithiothreitol	D-enzyme, slight inhibition	45	
2.4.1.25	EDTA	D-enzyme, slight inhibition	21	
2.4.1.25	EDTA	-	21	
2.4.1.25	Fe2+	D-enzyme, 50% inhibition	25	
2.4.1.25	FeCl3	1 mM, 40% loss of activity	702	
2.4.1.25	Hg2+	D-enzyme	33	
2.4.1.25	Hg2+	-	33	
2.4.1.25	HgCl2	0.1 mM, complete loss of activity	110	
2.4.1.25	methyl-alpha-D-glucoside	competitive inhibition	3351	
2.4.1.25	Monoiodoacetic acid	-	2275	
2.4.1.25	additional information	neither CaCl2, MgCl2, BaCl2, NiCl2 or CoCl2 (all at 1 mM) nor 50-200 mM NaCl or 50-200 mM EDTA have a significant influence on transferase activity	2	
2.4.1.25	additional information	toxic BinA component of the activated binary toxin does not inhibit alpha-glucosidase activity of the enzyme, while BinB reduces the activity by nearly 50%	2	
2.4.1.25	N-bromosuccinimide	51.2% residual activity at 0.1 mM	208	
2.4.1.25	Ni2+	-	38	
2.4.1.25	p-chloromercuribenzoic acid	D-enzyme, 30% inhibition	614	
2.4.1.25	p-chloromercuribenzoic acid	-	614	
2.4.1.25	phenyl-beta-D-glucoside	competitive inhibition	13022	
2.4.1.25	Tris	D-enzyme, 50 mM, 35% inhibition	317	
2.4.1.25	Zn2+	D-enzyme	14