PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
28382961-4	2017	The analysis of their catalytic properties clearly demonstrates that C. reinhardtii ArsA proteins exhibit oxyanion-independent ATPase activity, as neither arsenite nor antimonite showed strong effects.	arsenite	155-163	arylsulfatase A	Homo sapiens	84-88	
10318792-1	1999	The ATPase activity of ArsA, the catalytic subunit of the plasmid-encoded, ATP-dependent extrusion pump for arsenicals and antimonials in Escherichia coli, is allosterically activated by arsenite or antimonite.	arsenite	187-195	arylsulfatase A	Homo sapiens	23-27	
11470536-2	2001	Arsenite or antimonite allosterically activates the ArsA ATPase activity.	arsenite	0-8	arylsulfatase A	Homo sapiens	52-56	
9271073-4	1997	ArsA, ArsB, and ArsC form a protein pump system that extrudes antimonite, arsenite, and arsenate once these anions reach the cytoplasm of the bacterium.	arsenite	74-82	arylsulfatase A	Homo sapiens	0-4	
9506981-3	1998	A second site revertant (A344V) adjacent to the C-terminal nucleotide binding site was previously shown to restore arsenite resistance, suggesting the interaction of the nucleotide binding sites in ArsA (Li, J., Liu, S., and Rosen, B. P. (1996) J. Biol.	arsenite	115-123	arylsulfatase A	Homo sapiens	198-202	
8991852-7	1996	The arsenic resistance efflux system transports arsenite [As(III)], alternatively using either a double-polypeptide (ArsA and ArsB) ATPase or a single-polypeptide (ArsB) functioning as a chemiosmotic transporter.	arsenite	48-56	arylsulfatase A	Homo sapiens	117-121	
8884272-1	1996	Arsenite resistance in bacteria is mediated by an efflux pump composed of the arsA and arsB gene products.	arsenite	0-8	arylsulfatase A	Homo sapiens	78-82	
8905098-10	1996	The arsenic resistance efflux system transports arsenite, using alternatively either a two-component (ArsA and ArsB) ATPase or a single polypeptide (ArsB) functioning as a chemiosmotic transporter.	arsenite	48-56	arylsulfatase A	Homo sapiens	102-106	
1824941-1	1991	The ArsA protein, the catalytic component of the plasmid-encoded resistance system for removal of the toxic oxyanions arsenite, antimonite, and arsenate from bacterial cells, catalyzes oxyanion-stimulated ATP hydrolysis.	arsenite	118-126	arylsulfatase A	Homo sapiens	4-8	
7843081-8	1994	The absence of the arsA gene (for the ATPase subunit) in gram-positive bacteria raises questions of energy-coupling for arsenite efflux.	arsenite	120-128	arylsulfatase A	Homo sapiens	19-23	
2449436-11	1988	In contrast, the ArsA protein exhibited an ATPase activity which was dependent on the presence of arsenite or antimonate.	arsenite	98-106	arylsulfatase A	Homo sapiens	17-21