PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
18721997-6	2008	In contrast to the suggestion that inter system crossing can be highly efficient with reaction originating from a PCB triplet, oxygen quenching data suggest that a significant minimum of the quantum yield is non-quenchable, presumably because of a reaction path from the PCB singlet.	Oxygen	127-133	pyruvate carboxylase	Homo sapiens	114-117	
18839991-7	2008	These PCB (hydro-)quinones readily react with oxygen or via comproportionation to yield the corresponding semiquinone free radicals, as detected by electron paramagnetic resonance spectroscopy (EPR alias ESR).	Oxygen	46-52	pyruvate carboxylase	Homo sapiens	6-9	
18721997-6	2008	In contrast to the suggestion that inter system crossing can be highly efficient with reaction originating from a PCB triplet, oxygen quenching data suggest that a significant minimum of the quantum yield is non-quenchable, presumably because of a reaction path from the PCB singlet.	Oxygen	127-133	pyruvate carboxylase	Homo sapiens	271-274	
8424172-2	1993	Addition of inorganic nutrients, biphenyl, and oxygen enhanced PCB biodegradation, as indicated both by a 37 to 55 percent loss of PCBs and by the production of chlorobenzoates, intermediates in the PCB biodegradation pathway.	Oxygen	47-53	pyruvate carboxylase	Homo sapiens	63-66	
10828388-6	2000	The paper presents a thermodynamic consideration and comparative analysis of PCB decomposition processes in air or argon (+oxygen) thermal plasmas.	Oxygen	123-129	pyruvate carboxylase	Homo sapiens	77-80	
24202796-2	1996	The degree of regioselectivity of the PCB oxygen addition-induced dechlorination reaction was determined by measurement of the residual amount of label in the M-19 ions produced by addition of O2 and subsequent loss of OCl from the molecule.	Oxygen	42-48	pyruvate carboxylase	Homo sapiens	38-41	
24202796-2	1996	The degree of regioselectivity of the PCB oxygen addition-induced dechlorination reaction was determined by measurement of the residual amount of label in the M-19 ions produced by addition of O2 and subsequent loss of OCl from the molecule.	Oxygen	193-195	pyruvate carboxylase	Homo sapiens	38-41	
8424172-2	1993	Addition of inorganic nutrients, biphenyl, and oxygen enhanced PCB biodegradation, as indicated both by a 37 to 55 percent loss of PCBs and by the production of chlorobenzoates, intermediates in the PCB biodegradation pathway.	Oxygen	47-53	pyruvate carboxylase	Homo sapiens	131-134	
98186-0	1978	Polychlorinated dibenzofuran (PCDF) formation from PCB mixture by heat and oxygen.	Oxygen	75-81	pyruvate carboxylase	Homo sapiens	51-54	
32388262-6	2020	The mean dioxin-like PCB and polychlorinated naphthalene TEQs were ~8.9 and ~6.6 times higher in stack gases from a SCu equipped with an oxygen-enriched smelting furnace than in stack gases from a SCu with a converter furnace.	Oxygen	137-143	pyruvate carboxylase	Homo sapiens	21-24	
31881285-0	2020	Microbiome changes and oxidative capability of an anaerobic PCB dechlorinating enrichment culture after oxygen exposure.	Oxygen	104-110	pyruvate carboxylase	Homo sapiens	60-63	
29990814-4	2018	Firstly, the addition of EDDS could enhance hydroxyl radical generation by ZVI and oxygen for the oxidation of PCB including distribution in the soil phase and dissolved form in the aqueous phase.	Oxygen	83-89	pyruvate carboxylase	Homo sapiens	111-114	
31785945-6	2020	PCB 118 also induced excessive reactive oxygen species (ROS) in HUVECs.	Oxygen	40-46	pyruvate carboxylase	Homo sapiens	0-3	
30005601-15	2018	PC-depleted cells demonstrated a decrease in glycolytic capacity and oxygen consumption rates and an enhanced sensitivity to oxidative stress.	Oxygen	69-75	pyruvate carboxylase	Homo sapiens	0-2