6.3.2.26	4-phosphopantoate	substrate inhibition	19191	
6.3.2.26	5,5'-dithiobis-2-nitrobenzoate	1 mM	13513	
6.3.2.26	5,5'-dithiobis-2-nitrobenzoate	the major effect on ACVS activity is exerted by thiol-blocking agents, which almost completely inhibited the activity at 1 mM concentration, confirming the importance of thiol groups in ACVS activity	13513	
6.3.2.26	AMP	5 mM	30	
6.3.2.26	ATP	at concentrations about 5 mM	4	
6.3.2.26	ATP	substrate inhibition	4	
6.3.2.26	bis-delta-(L-alpha-aminoadipyl)-L-cysteinyl-D-valine	-	108744	
6.3.2.26	D-glucose	crude extract is inhibited due to deprivation of ATP via sugar metabolism	35	
6.3.2.26	diphosphate	5 mM	17	
6.3.2.26	dithiothreitol	-	45	
6.3.2.26	EDTA	10 mM	21	
6.3.2.26	glyceraldehyde	-	1125	
6.3.2.26	glyceraldehyde-3-phosphate	reacts with L-cysteinee	5971	
6.3.2.26	iodoacetamide	1 mM	67	
6.3.2.26	iodoacetamide	the major effect on ACVS activity is exerted by thiol-blocking agents, which almost completely inhibited the activity at 1 mM concentration, confirming the importance of thiol groups in ACVS activity	67	
6.3.2.26	additional information	PenV i.e. Pc22g22150 protein, located in the vacuolar membrane, affects drastically the biosynthesis of the ACV tripeptide and the beta-lactam pathway of Penicillium chrysogenum, overview	2	
6.3.2.26	additional information	feedback inhibition by CoA/acetyl-CoA and product inhibition by 4'-phosphopantothenate are not observed	2	
6.3.2.26	N-ethylmaleimide	1 mM	49	
6.3.2.26	N-ethylmaleimide	the major effect on ACVS activity is exerted by thiol-blocking agents, which almost completely inhibited the activity at 1 mM concentration, confirming the importance of thiol groups in ACVS activity	49	
6.3.2.26	phosphate	ACVS activity decreases 30% in the presence of 100 mM phosphate, being also affected by AMP and pyrophosphate, products of ATP hydrolysis	16	
6.3.2.26	pyridoxal 5'-phosphate	2 mM	32