7.4.2.1	2'-O-(trinitrophenyl)adenosine 5'-triphosphate	ATP-binding subunit HisP with a carboxy-terminal extension of 8 amino acids	32023	
7.4.2.1	3'-O-(trinitrophenyl)adenosine 5'-triphosphate	ATP-binding subunit HisP with a carboxy-terminal extension of 8 amino acids	32056	
7.4.2.1	5'-adenylyl-beta,gamma-imidotriphosphate	inhibits ATPase activity	105057	
7.4.2.1	adenosine 5'(beta,gamma-imino)triphosphate	inhibits ATPase activity	103847	
7.4.2.1	adenosine 5'-O-(3-thio)triphosphate	inhibits ATPase activity	29705	
7.4.2.1	adenosine 5'-O-(3-thio)triphosphate	ATP-binding subunit HisP with a carboxy-terminal extension of 8 amino acids	29705	
7.4.2.1	adenylyl (beta,gamma-methylene)-diphosphate	ATP-binding subunit HisP with a carboxy-terminal extension of 8 amino acids	103848	
7.4.2.1	adenylyl (beta,gamma-methylene)-diphosphonate	ATP-binding subunit HisP with a carboxy-terminal extension of 8 amino acids	48281	
7.4.2.1	ADP	inhibits ATPase activity	13	
7.4.2.1	ADP	dimeric HisP protein with a carboxy-terminal extension of 8 amino acids	13	
7.4.2.1	ADP	-	13	
7.4.2.1	Arg-Phe-Phe	noncompetitive	151901	
7.4.2.1	betaine	competitive inhibitor of His uptake	713	
7.4.2.1	cardiolipin	ATP-binding subunit HisP with a carboxy-terminal extension of 8 amino acids	813	
7.4.2.1	citrulline	-	1464	
7.4.2.1	glycine	-	72	
7.4.2.1	L-arginine	8% cell growth, 25% viability of cells	123	
7.4.2.1	L-Asp-gamma-L-Phe	competitive	75607	
7.4.2.1	L-asparagine	35% cell growth, 70% viability of cells	266	
7.4.2.1	L-aspartate	slight inhibition	97	
7.4.2.1	L-citrulline	1% cell growth, 1% viability of cells	938	
7.4.2.1	L-cysteine	1% cell growth, 1% viability of cells	74	
7.4.2.1	L-cysteine	-	74	
7.4.2.1	L-glutamate	2% cell growth, 4% viability of cells	41	
7.4.2.1	L-glutamine	18% cell growth, 70% viability of cells	102	
7.4.2.1	L-Glycine	1% cell growth, 1% viability of cells	12579	
7.4.2.1	L-histidine	3% cell growth, 1% viability of cells	349	
7.4.2.1	L-histidine	slight inhibition	349	
7.4.2.1	L-isoleucine	2% cell growth, 1% viability of cells	311	
7.4.2.1	L-Leu-Gly	competitive	5987	
7.4.2.1	L-leucine	34% cell growth, 35% viability of cells	127	
7.4.2.1	L-lysine	1% cell growth, 1% viability of cells	134	
7.4.2.1	L-methionine	16% cell growth, 70% viability of cells	88	
7.4.2.1	L-methionine	-	88	
7.4.2.1	L-proline	9% cell growth, 701% viability of cells	243	
7.4.2.1	L-serine	20% cell growth, 25% viability of cells	95	
7.4.2.1	L-threonine	1% cell growth, 1% viability of cells	250	
7.4.2.1	L-threonine	-	250	
7.4.2.1	L-tryptophan	4% cell growth, 25% viability of cells	119	
7.4.2.1	L-tyrosine	20% cell growth, 35% viability of cells	109	
7.4.2.1	L-valine	13% cell growth, 10% viability of cells	246	
7.4.2.1	Leu-Met-NH2	-	5173	
7.4.2.1	leucine	inhibits alpha-aminoadipic acid transport via PcGap1	641	
7.4.2.1	lysophosphatidic acid	ATP-binding subunit HisP with a carboxy-terminal extension of 8 amino acids	1118	
7.4.2.1	additional information	cycling of Gap1p-GFP to the plasma membrane is blocked by high amino acid concentrations	2	
7.4.2.1	additional information	permease activity can be rapidly and reversibly inactivated by the presence of most amino acids, except alanine or phenylalanine, mixtures of amino acids are less toxic than single amino acids, the toxicity appears to be the consequence of uptake of unusually large quantities of a single amino acid	2	
7.4.2.1	additional information	brefeldin A decreases uptake of L-Leu, substance probably acts via direct or indirect modification of the transporting protein, which affects the kinetic parameters	2	
7.4.2.1	additional information	inhibition of agonist activity by the inhibitor molecules, overveiw	2	
7.4.2.1	additional information	no or poor inhibition by L-alanine, L-asparagine, L-arginine, L-proline, L-serine, glycine, L-methionine, L-threonine, L-histidine, and L-cysteine	2	
7.4.2.1	additional information	no inhibition by L-aspartate, L-arginine, L-asparagine, L-alanine, and L-serine	2	
7.4.2.1	additional information	reversible inactivation of intrinsic Gap1p activity at the cell surface by amino acids requires active transport through Gap1p	2	
7.4.2.1	NEM	ATP-binding subunit HisP with a carboxy-terminal extension of 8 amino acids	89	
7.4.2.1	orthovanadate	inhibits ATPase activity	1328	
7.4.2.1	phosphatidic acid	ATP-binding subunit HisP with a carboxy-terminal extension of 8 amino acids	491	
7.4.2.1	phosphatidylglycerol	ATP-binding subunit HisP with a carboxy-terminal extension of 8 amino acids	681	
7.4.2.1	phosphatidylserine	ATP-binding subunit HisP with a carboxy-terminal extension of 8 amino acids	430	
7.4.2.1	Pro	competitive inhibitor of His uptake	816	
7.4.2.1	proline	-	1625	
7.4.2.1	vanadate	in contrast to the intact enzyme complex HisQMP2 the ATP-binding subunit HisP with a carboxy-terminal extension of 8 amino acids - Leu-Glu-His-His-His-His-His-His is not inhibited	233