3.1.1.72	4-nitrophenol	-	80	
3.1.1.72	Ag+	-	75	
3.1.1.72	Ba2+	low inhibition at 1 mM	111	
3.1.1.72	Ca2+	-	15	
3.1.1.72	Ca2+	10 mM, 70% inhibition	15	
3.1.1.72	Ca2+	low inhibition at 1 mM	15	
3.1.1.72	Cd2+	low inhibition at 1 mM	52	
3.1.1.72	CO2	50% inhibition at 1 mM	28	
3.1.1.72	Co2+	-	23	
3.1.1.72	Co2+	1 mM, 86% inhibition	23	
3.1.1.72	Co2+	10 mM, acetylxylan esterase Axe6B	23	
3.1.1.72	Co2+	inhibits at higher (10 mM) concentrations	23	
3.1.1.72	Co2+	low inhibition at 1 mM	23	
3.1.1.72	Co2+	5 mM, less than 50% residual activity	23	
3.1.1.72	Cu2+	-	19	
3.1.1.72	Cu2+	0.1 mM, 17% inhibition	19	
3.1.1.72	Cu2+	10 mM, acetylxylan esterase Axe6B; 1 mM, more than 50% inhibition, acetylxylan esterase Axe6A	19	
3.1.1.72	Cu2+	1 mM decreases enzyme activity by 12%	19	
3.1.1.72	Cu2+	strong inhibition at 1 mM	19	
3.1.1.72	Cu2+	50% inhibition at 1 mM	19	
3.1.1.72	Cu2+	5 mM, less than 50% residual activity	19	
3.1.1.72	di-isopropylfluorophosphate	-	132266	
3.1.1.72	diethyl phosphate	AXE shows low sensitivity to the organophosphate, binding structure, overview	2106	
3.1.1.72	diethyldicarbonate	-	310	
3.1.1.72	diisopropyl fluorophosphate	-	244	
3.1.1.72	dimethyl 4-nitrophenyl phosphate	-	38686	
3.1.1.72	EDTA	-	21	
3.1.1.72	EDTA	concentrations greater than 1 mM almost eliminate the activity, but simultaneous addition of Co2+ (1 mM) and Mg2+ (1 mM) restores the activity	21	
3.1.1.72	Fe2+	-	25	
3.1.1.72	Fe2+	1 mM, 96% inhibition	25	
3.1.1.72	Fe2+	10 mM, acetylxylan esterase Axe6B; 1 mM, more than 50% inhibition, acetylxylan esterase Axe6A	25	
3.1.1.72	Fe2+	1 mM decreases enzyme activity by 59%	25	
3.1.1.72	Fe2+	low inhibition at 1 mM	25	
3.1.1.72	Fe2+	strong, over 98% inhibition at 1 mM	25	
3.1.1.72	Fe2+	5 mM, 1.6% residual activity	25	
3.1.1.72	Fe3+	strong inhibition at 1 mM	70	
3.1.1.72	glucose	represses enzyme expression, gene axeII	223	
3.1.1.72	guanidinium hydrochloride	3.5-4.0 M, inactivation	3124	
3.1.1.72	Hg2+	-	33	
3.1.1.72	methyl beta-D-xylopyranoside	-	21316	
3.1.1.72	Mg2+	10 mM, acetylxylan esterase Axe6B	6	
3.1.1.72	Mg2+	low inhibition at 1 mM	6	
3.1.1.72	Mn2+	-	11	
3.1.1.72	Mn2+	1 mM, 85% inhibition	11	
3.1.1.72	Mn2+	10 mM, acetylxylan esterase Axe6B	11	
3.1.1.72	Mn2+	1 mM decreases enzyme activity by 32%	11	
3.1.1.72	Mn2+	low inhibition at 1 mM	11	
3.1.1.72	Mn2+	50% inhibition at 1 mM	11	
3.1.1.72	Mn2+	5 mM, less than 50% residual activity	11	
3.1.1.72	additional information	no inhibition by xylose and acetate, enzyme is not affected by 2-mercaptoethanol and EDTA	2	
3.1.1.72	additional information	Exe6B is not inhibited by 10 mM Ca2+, acetylxylan esterase Axe6B; unaffected by Mn2+, Co2+, Ca2+, Mg2+ and EDTA at 10 mM, acetylxylan esterase Axe6A	2	
3.1.1.72	additional information	no inhibition by EDTA and K+	2	
3.1.1.72	additional information	weak inhibition by PMSF, Tween20 and Tween80	2	
3.1.1.72	additional information	not inhibitory: EDTA up to 10 mM	2	
3.1.1.72	Ni2+	50% inhibition at 1 mM	38	
3.1.1.72	Ni2+	5 mM, less than 50% residual activity	38	
3.1.1.72	NiCl2	1 mM, 8% inhibition	741	
3.1.1.72	paraoxon	binding structure, overview	228	
3.1.1.72	Pb(NO3)2	1 mM	5596	
3.1.1.72	Pepsin	25-36% inhibition by 0.001 mg/0.05 ml pepsin	5670	
3.1.1.72	phenylmethanesulfonyl fluoride	-	827	
3.1.1.72	phenylmethylsulfonyl fluoride	-	257	
3.1.1.72	PMSF	-	248	
3.1.1.72	PMSF	complete inhibition	248	
3.1.1.72	SDS	0.5% inhibit the single enzyme, but 5% do not affect the aggregated enzyme	124	
3.1.1.72	SDS	low inhibition at 1 mM	124	
3.1.1.72	SDS	78.11% inhibition	124	
3.1.1.72	SDS	0.5%, 61% residual activity	124	
3.1.1.72	Triton X-100	61.42% inhibition	61	
3.1.1.72	Triton X-100	1 mM, 78% residual activity	61	
3.1.1.72	Trypsin	single enzyme loses its activity completely after 30 min at 37°C, while the aggregated enzyme shows 75-80% remaining activity after 60 min incubation at 37°C	393	
3.1.1.72	Trypsin	8-17% inhibition by 0.001 mg/0.05 ml trypsin	393	
3.1.1.72	Urea	7.0 M, inactivation	116	
3.1.1.72	Zn2+	-	14	
3.1.1.72	Zn2+	1 mM, 88% inhibition	14	
3.1.1.72	Zn2+	10 mM, acetylxylan esterase Axe6B; 1 mM, more than 50% inhibition, acetylxylan esterase Axe6A	14	
3.1.1.72	Zn2+	1 mM decreases enzyme activity by 67%	14	
3.1.1.72	Zn2+	strong inhibition at 1 mM	14