PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
10947842-0	2000	Tuning of the porin expression under anaerobic growth conditions by his-to-Asp cross-phosphorelay through both the EnvZ-osmosensor and ArcB-anaerosensor in Escherichia coli.	Histidine	68-71	hypothetical protein	Escherichia coli	135-139	
11148031-0	2001	Solution structure and dynamic character of the histidine-containing phosphotransfer domain of anaerobic sensor kinase ArcB from Escherichia coli.	Histidine	48-57	hypothetical protein	Escherichia coli	119-123	
11148031-2	2001	Multidimensional NMR techniques were applied to determine the solution structure of the histidine-containing phosphotransfer signaling domain of ArcB (HPt(ArcB)), which has a phosphorylation site, His717.	Histidine	88-97	hypothetical protein	Escherichia coli	145-149	
11148031-2	2001	Multidimensional NMR techniques were applied to determine the solution structure of the histidine-containing phosphotransfer signaling domain of ArcB (HPt(ArcB)), which has a phosphorylation site, His717.	Histidine	88-97	hypothetical protein	Escherichia coli	151-160	
10788795-1	2000	The ArcB sensor plays a crucial role in the histidine to aspartate (His-to-Asp) phosphorelay signal transduction, which is involved in the transcriptional regulatory network that allows Escherichia coli cells to sense various respiratory growth conditions.	Histidine	44-53	hypothetical protein	Escherichia coli	4-8	
10788795-1	2000	The ArcB sensor plays a crucial role in the histidine to aspartate (His-to-Asp) phosphorelay signal transduction, which is involved in the transcriptional regulatory network that allows Escherichia coli cells to sense various respiratory growth conditions.	Histidine	68-71	hypothetical protein	Escherichia coli	4-8	
10788795-2	2000	ArcB is one of the best-studied hybrid His-kinases involved in the multi-step His-to-Asp phosphorelay.	Histidine	39-42	hypothetical protein	Escherichia coli	0-4	
10585483-4	1999	ArcB is a tripartite kinase, possessing a primary transmitter, a receiver, and a secondary transmitter domain that catalyzes the phosphorylation of ArcA via a His --> Asp --> His --> Asp phosphorelay, as well as the dephosphorylation of ArcA-P by a reverse phosphorelay.	Histidine	159-162	hypothetical protein	Escherichia coli	0-4	
10734219-2	2000	The sixA gene was originally identified as the one that interferes with, at its multi-copy state, the cross-phosphorelay between the histidine-containing phosphotransmitter (HPt) domain of the ArcB anaerobic sensor and its non-cognate OmpR response regulator.	Histidine	133-142	hypothetical protein	Escherichia coli	193-197	
10585483-4	1999	ArcB is a tripartite kinase, possessing a primary transmitter, a receiver, and a secondary transmitter domain that catalyzes the phosphorylation of ArcA via a His --> Asp --> His --> Asp phosphorelay, as well as the dephosphorylation of ArcA-P by a reverse phosphorelay.	Histidine	181-184	hypothetical protein	Escherichia coli	0-4	
10531481-0	1999	Refined structure of the histidine-containing phosphotransfer (HPt) domain of the anaerobic sensor kinase ArcB from Escherichia coli at 1.57 A resolution.	Histidine	25-34	hypothetical protein	Escherichia coli	106-110	
10531481-1	1999	The crystal structure of the histidine-containing phosphotransfer (HPt) domain of the anaerobic sensor kinase ArcB from Escherichia coli has been refined to 1.57 A resolution, using the coordinates of the earlier 2.06 A structure as a starting model.	Histidine	29-38	hypothetical protein	Escherichia coli	110-114	
8825099-2	1995	This class of bacterial sensory kinases, typified by ArcB and BarA, possesses two phospho-donor (His) sites, together with a phospho-accepting (Asp) site.	Histidine	97-100	hypothetical protein	Escherichia coli	53-57	
10089421-2	1999	Recent biochemical studies have shown that SixA is involved in the signal transduction of the His-Asp phosphorelay through the dephosphorylation of the histidine-containing phosphotransfer (HPt) domain of the anaerobic sensor kinase ArcB.	Histidine	94-97	hypothetical protein	Escherichia coli	233-237	
10089421-2	1999	Recent biochemical studies have shown that SixA is involved in the signal transduction of the His-Asp phosphorelay through the dephosphorylation of the histidine-containing phosphotransfer (HPt) domain of the anaerobic sensor kinase ArcB.	Histidine	152-161	hypothetical protein	Escherichia coli	233-237	
9830034-2	1998	Under those conditions, the tripartite sensor kinase ArcB undergoes autophosphorylation at the expense of ATP and subsequently transphosphorylates its cognate response regulator ArcA through a His --> Asp --> His --> Asp phosphorelay pathway.	Histidine	193-196	hypothetical protein	Escherichia coli	53-57	
9830034-2	1998	Under those conditions, the tripartite sensor kinase ArcB undergoes autophosphorylation at the expense of ATP and subsequently transphosphorylates its cognate response regulator ArcA through a His --> Asp --> His --> Asp phosphorelay pathway.	Histidine	215-218	hypothetical protein	Escherichia coli	53-57	
9830034-5	1998	This reverse phosphorelay involves both the conserved His-717 of the secondary transmitter domain and the conserved Asp-576 of the receiver domain of ArcB but not the conserved His-292 of its primary transmitter domain.	Histidine	54-57	hypothetical protein	Escherichia coli	150-154	
9972245-0	1998	Mutational analysis of the histidine-containing phosphotransfer (HPt) signaling domain of the ArcB sensor in Escherichia coli.	Histidine	27-36	hypothetical protein	Escherichia coli	94-98	
9683496-0	1998	A dual-signaling mechanism mediated by the ArcB hybrid sensor kinase containing the histidine-containing phosphotransfer domain in Escherichia coli.	Histidine	84-93	hypothetical protein	Escherichia coli	43-47	
9683496-2	1998	ArcB is a hybrid sensor kinase having multiple phosphorylation sites in its primary amino acid sequence, including a transmitter, a receiver, and a histidine-containing phosphotransfer (HPt) domain.	Histidine	148-157	hypothetical protein	Escherichia coli	0-4	
9683496-4	1998	Results of recent in vitro studies revealed multistep His-to-Asp phosphotransfer circuitry in the ArcB-ArcA signaling system.	Histidine	54-57	hypothetical protein	Escherichia coli	98-102	
9683496-6	1998	The results suggested that the phosphorylated His-717 site in the HPt domain of ArcB is essential for anaerobic repression of sdh.	Histidine	46-49	hypothetical protein	Escherichia coli	80-84	
9683496-7	1998	Nonetheless, the ArcB mutant lacking this crucial His-717 site does not necessarily exhibit a null phenotype with respect to ArcB-ArcA signaling.	Histidine	50-53	hypothetical protein	Escherichia coli	17-21	
9685739-0	1998	The structure and function of the histidine-containing phosphotransfer (HPt) signaling domain of the Escherichia coli ArcB sensor.	Histidine	34-43	hypothetical protein	Escherichia coli	118-122	
9685739-2	1998	ArcB is an unorthodox His-kinase, in that it contains three types of phosphotransfer signaling domains in its primary amino acid sequence, namely, transmitter (or His-kinase), receiver, and histidine-containing phosphotransfer (HPt) domains.	Histidine	190-199	hypothetical protein	Escherichia coli	0-4	
9489669-0	1998	An Escherichia coli protein that exhibits phosphohistidine phosphatase activity towards the HPt domain of the ArcB sensor involved in the multistep His-Asp phosphorelay.	Histidine	148-151	hypothetical protein	Escherichia coli	110-114	
9489669-1	1998	The Escherichia coli sensory kinase, ArcB, possesses a histidine-containing phosphotransfer (HPt) domain, which is implicated in the His-Asp multistep phosphorelay.	Histidine	55-64	hypothetical protein	Escherichia coli	37-41	
9489669-1	1998	The Escherichia coli sensory kinase, ArcB, possesses a histidine-containing phosphotransfer (HPt) domain, which is implicated in the His-Asp multistep phosphorelay.	Histidine	133-136	hypothetical protein	Escherichia coli	37-41	
2201868-6	1990	ArcB conserved a histidine residue for autophosphorylation of the sensor proteins, and aspartic residues important for the regulator proteins.	Histidine	17-26	hypothetical protein	Escherichia coli	0-4	
7957084-5	1994	This newly identified histidine in ArcB and BarA was demonstrated to play a crucial role in the observed multicopy suppression.	Histidine	22-31	hypothetical protein	Escherichia coli	35-39	
7957084-6	1994	Furthermore, it was demonstrated in vivo and in vitro for ArcB that the C-terminal domain containing the histidine can function as an alternative phosphodonor (or transmitter).	Histidine	105-114	hypothetical protein	Escherichia coli	58-62	
1512197-2	1992	ArcB belongs to a subclass of sensors that have not only a conserved histidine-containing transmitter domain but also a conserved aspartate-containing receiver domain of the regulator family.	Histidine	69-78	hypothetical protein	Escherichia coli	0-4	
7957084-3	1994	Among such suppressors, arcB and barA are of particular interest because these gene products are unique in the sense that they contain both an autophosphorylated histidine site (or transmitter module) and a phospho-accepting aspartate site (or receiver module) in their primary amino acid sequences.	Histidine	162-171	hypothetical protein	Escherichia coli	24-28	
7957084-4	1994	Here we report that ArcB and BarA possess in the C-terminal region a phosphorylated histidine site which has never been noticed, in addition to the authentic one identified previously.	Histidine	84-93	hypothetical protein	Escherichia coli	20-24