PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
30822097-0	2019	Evidence for Biotic Perchlorate Reduction in Naturally Perchlorate-Rich Sediments of Pilot Valley Basin, Utah.	perchlorate	20-31	early growth response 3	Homo sapiens	85-90	
30822097-0	2019	Evidence for Biotic Perchlorate Reduction in Naturally Perchlorate-Rich Sediments of Pilot Valley Basin, Utah.	perchlorate	55-66	early growth response 3	Homo sapiens	85-90	
30822097-3	2019	The arid Pilot Valley paleolake basin in Utah is a Mars analog environment whose sediments are naturally enriched with up to ~6.5 mug kg-1 perchlorate oxyanions.	perchlorate	139-150	early growth response 3	Homo sapiens	9-14	
30822097-5	2019	Biogeochemical data suggest ongoing perchlorate reduction; phylogenetic data indicate the presence of diverse microbial communities; and laboratory enrichments using Pilot Valley sediments show that resident microbes can reduce perchlorate.	perchlorate	228-239	early growth response 3	Homo sapiens	166-171	
30822097-6	2019	This is the first article of the co-existence of perchlorate-reducing microbes in an environment where perchlorate occurs naturally, arguing for Pilot Valley"s utility as an analog for studying biogeochemical processes that may have occurred, and may yet still be occurring, in ancient martian lacustrine sediments.	perchlorate	49-60	early growth response 3	Homo sapiens	145-150	
30822097-6	2019	This is the first article of the co-existence of perchlorate-reducing microbes in an environment where perchlorate occurs naturally, arguing for Pilot Valley"s utility as an analog for studying biogeochemical processes that may have occurred, and may yet still be occurring, in ancient martian lacustrine sediments.	perchlorate	103-114	early growth response 3	Homo sapiens	145-150