3.1.1.14	4-hydroxymercuribenzoate	93% inhibition at 1 mM, 24 h preincubation	970	
3.1.1.14	4-hydroxymercuribenzoate	-	970	
3.1.1.14	acetone	activates at lower concentration, Chlase2 reaches its maximal activity in 40% acetone, in 40-60% acetone the activity is reduced, overview	333	
3.1.1.14	Ag+	82% residual activity at 10 mM	75	
3.1.1.14	Ag+	89% residual activity at 10 mM	75	
3.1.1.14	Ag+	85% residual activity at 10 mM	75	
3.1.1.14	Al3+	52% residual activity at 10 mM	264	
3.1.1.14	Al3+	56% residual activity at 10 mM	264	
3.1.1.14	Al3+	49% residual activity at 10 mM	264	
3.1.1.14	beta-carotene	in absence of other lipids, inhibits chlorophyl a conversion	858	
3.1.1.14	Bi3+	52% residual activity at 10 mM	15661	
3.1.1.14	Bi3+	58% residual activity at 10 mM	15661	
3.1.1.14	Bi3+	55% residual activity at 10 mM	15661	
3.1.1.14	canola oil	presence of 10%, 20%, and 30% of canola oil decreased the activity of entrapped chlorophyllase by 60%, 75%, and 80%, respectively	66045	
3.1.1.14	Co2+	56% inhibition at 0.01 mM, 24 h preincubation	23	
3.1.1.14	Co2+	75% residual activity at 10 mM	23	
3.1.1.14	Co2+	78% residual activity at 10 mM	23	
3.1.1.14	Co2+	72% residual activity at 10 mM	23	
3.1.1.14	concanavalin A	-	2045	
3.1.1.14	Cu2+	55% inhibition at 0.01 mM, 24 h preincubation	19	
3.1.1.14	Cu2+	-	19	
3.1.1.14	Cu2+	39% residual activity at 10 mM	19	
3.1.1.14	Cu2+	42% residual activity at 10 mM	19	
3.1.1.14	Cu2+	34% residual activity at 10 mM	19	
3.1.1.14	diethyldicarbonate	83% residual activity at 10 mM	310	
3.1.1.14	diethyldicarbonate	70% residual activity at 10 mM	310	
3.1.1.14	diethyldicarbonate	72% residual activity at 10 mM	310	
3.1.1.14	diisopropyl fluorophosphate	irreversible, 91% inhibition at 10 mM, 1 h preincubation at pH 7.0 and 30°C	244	
3.1.1.14	diisopropyl fluorophosphate	-	244	
3.1.1.14	diisopropyl fluorophosphate	noncompeptitive	244	
3.1.1.14	Eupergit C	immobilization support	129628	
3.1.1.14	Eupergit C/EDA	immobilization support	129629	
3.1.1.14	Fe2+	89% inhibition at 0.01 mM, 24 h preincubation	25	
3.1.1.14	Fe2+	-	25	
3.1.1.14	Fe2+	31% residual activity at 10 mM	25	
3.1.1.14	Fe2+	29% residual activity at 10 mM	25	
3.1.1.14	Fe2+	35% residual activity at 10 mM	25	
3.1.1.14	Fe3+	13% inhibition at 0.01 mM, 24 h preincubation	70	
3.1.1.14	Fe3+	-	70	
3.1.1.14	Fe3+	73% residual activity at 10 mM	70	
3.1.1.14	Fe3+	71% residual activity at 10 mM	70	
3.1.1.14	Fe3+	78% residual activity at 10 mM	70	
3.1.1.14	ferricyanide	2 mM, 17% inhibition	132	
3.1.1.14	Hg2+	85% inhibition at 0.01 mM, 24 h preincubation	33	
3.1.1.14	Hg2+	-	33	
3.1.1.14	Hg2+	22% residual activity at 10 mM	33	
3.1.1.14	Hg2+	25% residual activity at 10 mM	33	
3.1.1.14	Hg2+	20% residual activity at 10 mM	33	
3.1.1.14	iodoacetamide	irreversible, 6% inhibition at 10 mM, 1 h preincubation at pH 7.0 and 30°C	67	
3.1.1.14	iodoacetamide	-	67	
3.1.1.14	levulinic acid	inhibits the chlorophyll synthesis in greening leaves, alters the chlorophyll a/chlorophyll b ratio	8266	
3.1.1.14	Melatonin	melatonin treatment of seeds enhances the ability of pea seedlings to accelerate chlorophyll breakdown and chlorophyll de novo synthesis before stress by herbicide paraquat treatment appears and several hours after stressing, respectively, while during prolonged paraquat incubation, melatonin delays chlorophyll degradation	1536	
3.1.1.14	Mg2+	12% inhibition at 0.01 mM, 24 h preincubation	6	
3.1.1.14	Mg2+	-	6	
3.1.1.14	Mg2+	eliminates the activating effect of lecithin	6	
3.1.1.14	Mn2+	67% inhibition at 0.01 mM, 24 h preincubation	11	
3.1.1.14	Mn2+	72% residual activity at 10 mM	11	
3.1.1.14	Mn2+	78% residual activity at 10 mM	11	
3.1.1.14	Mn2+	73% residual activity at 10 mM	11	
3.1.1.14	additional information	poor inhibition by methyl methanethiosulfonate and iodoacetamide	2	
3.1.1.14	additional information	the expression level and the activity of Chlase decrease significantly with the progress of the leaf-yellowing	2	
3.1.1.14	additional information	inhibitory effects on recombinant enzymes purified by microtiter plate method and by affinity chromatography, respectively, overview, no inhibition by iodoacetic acid, iodoacetamide, 2-mercaptoethanol, and DTT	2	
3.1.1.14	N-ethylmaleimide	13% inhibition at 1 mM, 24 h preincubation	49	
3.1.1.14	N-ethylmaleimide	irreversible, 15.9% inhibition at 10 mM, 1 h preincubation at pH 7.0 and 30°C	49	
3.1.1.14	N-ethylmaleimide	-	49	
3.1.1.14	NEM	-	89	
3.1.1.14	PCMB	irreversible, 92.6% inhibition at 1 mM, 1 h preincubation at pH 7.0 and 30°C	78	
3.1.1.14	PCMB	-	78	
3.1.1.14	phenylmethanesulfonyl fluoride	-	827	
3.1.1.14	phenylmethylsulfonyl fluoride	69% residual activity at 10 mM	257	
3.1.1.14	phenylmethylsulfonyl fluoride	58% residual activity at 10 mM	257	
3.1.1.14	phenylmethylsulfonyl fluoride	65% residual activity at 10 mM	257	
3.1.1.14	pheophytin b	substrate inhibition above 0.005 mM	12996	
3.1.1.14	phosphatidyl glycerol	and sulfoquinovosyldiacylglycerol, inactivation in a cooperative manner	20850	
3.1.1.14	phytol	in methanol, hydrolysis of chlorophyll a	2351	
3.1.1.14	phytol	uncompetitive inhibition	2351	
3.1.1.14	phytol	-	2351	
3.1.1.14	PMSF	irreversible, 89.2% inhibition at 10 mM, 1 h preincubation at pH 7.0 and 30°C	248	
3.1.1.14	refined bleached deodorized canola oil	20%	129627	
3.1.1.14	sulfoquinovosyldiacylglycerol	and phosphatidyl glycerol, inactivation in a cooperative manner	97196	
3.1.1.14	Triton X-100	strong inhibition at 0.2-1.0%	61	
3.1.1.14	Triton X-100	-	61	
3.1.1.14	Zn2+	60% inhibition at 0.01 mM, 24 h preincubation	14	
3.1.1.14	Zn2+	-	14	
3.1.1.14	Zn2+	51% residual activity at 10 mM	14	
3.1.1.14	Zn2+	59% residual activity at 10 mM	14	
3.1.1.14	Zn2+	54% residual activity at 10 mM	14