1.4.4.2	5,5'-dithiobis-(2-nitrobenzoic acid)	complete inhibition	2053	
1.4.4.2	aminoacetonitrile	the inhibitor of GDC is able to mimic mitochondrial depolarization, hydrogen peroxide production, and cell death in response to stress or harpin treatment of cultured Arabidopsis cells	9582	
1.4.4.2	Aminooxyacetate	-	1374	
1.4.4.2	CO2	product inhibition	28	
1.4.4.2	Co2+	inhibition of glycine-CO2 exchange by binding of metal with H-protein-bound intermediate of glycine decarboxylation	23	
1.4.4.2	Cu2+	inhibition of glycine-CO2 exchange by binding of metal with H-protein-bound intermediate of glycine decarboxylation	19	
1.4.4.2	Fe2+	slight inhibition of glycine-CO2 exchange by binding of metal with H-protein-bound intermediate of glycine decarboxylation	25	
1.4.4.2	Glycine methyl ester	-	12546	
1.4.4.2	harpin	the bacterial elicitor, a strong inducer of reactive oxygen species and NO, inhibits GDC activity	163226	
1.4.4.2	K2HPO4	inhibition of glycine-CO2 exchange reaction	1620	
1.4.4.2	KCl	inhibition of glycine-CO2 exchange reaction	79	
1.4.4.2	Modified H-protein	lipoic acid prosthetic group and cysteinyl residues modified with N-ethylmaleimide	99447	
1.4.4.2	additional information	inhibitors of the multienzyme complex	2	
1.4.4.2	additional information	inactivation after incubation with glycine in presence of aminomethyl carrier protein (H-protein), it is a suicide reaction of the P-protein as a side reaction of the glycine decarboxylation	2	
1.4.4.2	additional information	low CO2 concentrations decrease expression of GDC	2	
1.4.4.2	N-ethylmaleimide	-	49	
1.4.4.2	N-ethylmaleimide	complete inhibition	49	
1.4.4.2	N4-methylglutamine	inhibition of glycine-CO2 exchange reaction	109296	
1.4.4.2	Ni2+	inhibition of glycine-CO2 exchange by binding of metal with H-protein-bound intermediate of glycine decarboxylation	38	
1.4.4.2	S-nitrosoglutathione	i.e. GSNO, the glycine decarboxylase complex, GDC activity is inhibited by S-nitrosoglutathione due to S-nitrosylation/S-glutathionylation of several cysteine residues, overview. The inhibition of GDC activity after GSNO treatment can be an indirect effect of ROS induced by inhibition of complex I	980	
1.4.4.2	serine	competitive inhibitor	930	
1.4.4.2	Zn2+	inhibition of glycine-CO2 exchange by binding of metal with H-protein-bound intermediate of glycine decarboxylation	14