PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
33352382-4	2021	Firstly, an acclimation process was used: nitrate was progressively increased in three cultures set at pH 9, 10, or 11.	Nitrates	42-49	phenylalanine hydroxylase	Homo sapiens	103-105	
33352382-10	2021	Finally, the use of long duration cultures with a highly alkaline pH allowed a nitrate reduction up to pH 11.5 with acetate.	Nitrates	79-86	phenylalanine hydroxylase	Homo sapiens	66-68	
33352382-10	2021	Finally, the use of long duration cultures with a highly alkaline pH allowed a nitrate reduction up to pH 11.5 with acetate.	Nitrates	79-86	phenylalanine hydroxylase	Homo sapiens	103-105	
33352382-12	2021	Instead, bacteria used organic matter from inoculum to reduce nitrate at pH 11.5.	Nitrates	62-69	phenylalanine hydroxylase	Homo sapiens	73-75	
33352382-5	2021	This method allowed to observe for the first time nitrate reduction up to pH 10 and 100 mM nitrate with dihydrogen, or up to pH 10 and 400 mM nitrate with acetate.	Nitrates	50-57	phenylalanine hydroxylase	Homo sapiens	74-76	
33352382-5	2021	This method allowed to observe for the first time nitrate reduction up to pH 10 and 100 mM nitrate with dihydrogen, or up to pH 10 and 400 mM nitrate with acetate.	Nitrates	91-98	phenylalanine hydroxylase	Homo sapiens	74-76	
33352382-5	2021	This method allowed to observe for the first time nitrate reduction up to pH 10 and 100 mM nitrate with dihydrogen, or up to pH 10 and 400 mM nitrate with acetate.	Nitrates	91-98	phenylalanine hydroxylase	Homo sapiens	74-76	
33297218-8	2021	In contrast, PAH degradation has been reported to increase up to 54% when nitrate is used as electron acceptor in low-temperature biochar-amended sediments.	Nitrates	74-81	phenylalanine hydroxylase	Homo sapiens	13-16	
17162569-4	2007	Comparison of the PAH degradation rates under three reducing conditions showed the following order: sulfate-reducing conditions > methanogenic conditions > nitrate-reducing conditions.	Nitrates	162-169	phenylalanine hydroxylase	Homo sapiens	18-21	
17162569-6	2007	However, the addition of acetate, lactate or pyruvate inhibited PAH degradation under nitrate-reducing conditions.	Nitrates	86-93	phenylalanine hydroxylase	Homo sapiens	64-67	
35351554-5	2022	Besides, the potential selecting advantage of nitrate reducing bacteria over nitrite reducing bacteria and the enrichment of dissimilatory nitrate reduction to ammonium (DNRA) bacteria could be responsible for the nitrite and ammonia accumulation at pH 3.	Nitrates	46-53	phenylalanine hydroxylase	Homo sapiens	250-252	
11257884-7	2001	PAH biodegradation ceased when nitrate was depleted and resumed when the enrichment was fed nitrate, demonstrating that PAH biodegradation was dependent upon nitrate reduction.	Nitrates	31-38	phenylalanine hydroxylase	Homo sapiens	0-3	
11257884-7	2001	PAH biodegradation ceased when nitrate was depleted and resumed when the enrichment was fed nitrate, demonstrating that PAH biodegradation was dependent upon nitrate reduction.	Nitrates	31-38	phenylalanine hydroxylase	Homo sapiens	120-123	
11257884-7	2001	PAH biodegradation ceased when nitrate was depleted and resumed when the enrichment was fed nitrate, demonstrating that PAH biodegradation was dependent upon nitrate reduction.	Nitrates	92-99	phenylalanine hydroxylase	Homo sapiens	0-3	
11257884-7	2001	PAH biodegradation ceased when nitrate was depleted and resumed when the enrichment was fed nitrate, demonstrating that PAH biodegradation was dependent upon nitrate reduction.	Nitrates	92-99	phenylalanine hydroxylase	Homo sapiens	120-123	
11257884-7	2001	PAH biodegradation ceased when nitrate was depleted and resumed when the enrichment was fed nitrate, demonstrating that PAH biodegradation was dependent upon nitrate reduction.	Nitrates	92-99	phenylalanine hydroxylase	Homo sapiens	0-3	
11257884-7	2001	PAH biodegradation ceased when nitrate was depleted and resumed when the enrichment was fed nitrate, demonstrating that PAH biodegradation was dependent upon nitrate reduction.	Nitrates	92-99	phenylalanine hydroxylase	Homo sapiens	120-123	
11257884-13	2001	PAH degradation was approximately stoichiometric with the amount of nitrate consumed.	Nitrates	68-75	phenylalanine hydroxylase	Homo sapiens	0-3	
35351554-5	2022	Besides, the potential selecting advantage of nitrate reducing bacteria over nitrite reducing bacteria and the enrichment of dissimilatory nitrate reduction to ammonium (DNRA) bacteria could be responsible for the nitrite and ammonia accumulation at pH 3.	Nitrates	139-146	phenylalanine hydroxylase	Homo sapiens	250-252	
33838420-6	2021	Results revealed that pinewood-derived biochar had its maximum performance at pH 2, with predicted equilibrium uptakes of 20.5 and 4.20 mg/g for phosphate and nitrate, respectively at initial solute concentrations of 60 mg/L within 360 min.	Nitrates	159-166	phenylalanine hydroxylase	Homo sapiens	78-80