PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
34734081-2	2021	The objective of this study was to analyze the association between the serum S100B protein, the Gosling pulsatility index (PI), and the level of oxygen saturation at the tip of the internal jugular vein (SjVO2%) in patients diagnosed with severe TBI.	Oxygen	145-151	S100 calcium binding protein B	Homo sapiens	77-82	
24366505-0	2014	Changes in cerebral oxygen saturation correlate with S100B in infants undergoing cardiac surgery with cardiopulmonary bypass.	Oxygen	20-26	S100 calcium binding protein B	Homo sapiens	53-58	
25251247-0	2014	Nef reaction with molecular oxygen in the absence of metal additives, and mechanistic insights.	Oxygen	28-34	S100 calcium binding protein B	Homo sapiens	0-3	
25251247-1	2014	A Nef reaction has been developed that is conducted under mildly basic conditions with molecular oxygen as an oxidant, without the need for metal additives.	Oxygen	97-103	S100 calcium binding protein B	Homo sapiens	2-5	
25251247-2	2014	Whereas nitroalkanes are converted into ketones in good yield, nitroalkenes are transformed into alpha,beta-unsaturated ketones in one-pot by double-bond isomerization followed by the oxygen-mediated Nef reaction.	Oxygen	184-190	S100 calcium binding protein B	Homo sapiens	200-203	
31794767-6	2020	S100 proteins are released from monocytes, smooth muscle cells and endothelial cells in response to cellular stress stimuli, and then the binding of S100 proteins to RAGE activate downstream signaling such as transcription factor kappa B (NF-kappaB) translocation and reactive oxygen species (ROS) production, which act as a positive feedback loop for inducing pro-inflammatory phenotype in a wide variety of cell types including endothelial cells, vascular smooth muscle cells and leukocytes.	Oxygen	277-283	S100 calcium binding protein B	Homo sapiens	0-4	
31794767-6	2020	S100 proteins are released from monocytes, smooth muscle cells and endothelial cells in response to cellular stress stimuli, and then the binding of S100 proteins to RAGE activate downstream signaling such as transcription factor kappa B (NF-kappaB) translocation and reactive oxygen species (ROS) production, which act as a positive feedback loop for inducing pro-inflammatory phenotype in a wide variety of cell types including endothelial cells, vascular smooth muscle cells and leukocytes.	Oxygen	277-283	S100 calcium binding protein B	Homo sapiens	149-153	
24366505-13	2014	Although the absolute cerebral regional saturation on cardiopulmonary bypass was not associated with S100B elevation, patients who had arterial-cerebral oxygen saturation difference greater than 50 at any time during cardiopulmonary bypass had a higher S100B peak (mean +- SE: 1.053 +- 0.080 vs 0.504 +- 0.039 ng/mL; p &lt; 0.0001).	Oxygen	153-159	S100 calcium binding protein B	Homo sapiens	253-258	
15745143-12	2005	The inverse relationship of both cerebral and renal markers with DO2 and VO2 suggests that increased levels of S100beta and NAG during CPB may primarily be caused by an oxygen deficit and secondary to the inflammatory response.	Oxygen	169-175	S100 calcium binding protein B	Homo sapiens	111-119	
23989819-15	2013	The low S100beta variance during the fluid restrictive MCABG technique may be due to more efficient oxygen transport to the brain provided by significantly higher perioperative Ht levels.	Oxygen	100-106	S100 calcium binding protein B	Homo sapiens	8-16	
17984939-10	2007	The difference between the evening and morning S100B levels correlated negatively with AHI and ODI and positively with basal saturation and average minimal oxygen saturation.	Oxygen	156-162	S100 calcium binding protein B	Homo sapiens	47-52	
17891653-10	2007	A significant correlation was found between arterial oxygen partial pressure and individual S100B concentration in the pulmonary and systemic bloodstream in the entire study group (R = -0.66 and R = 0.71, respectively; p &lt; 0.05, for both).	Oxygen	53-59	S100 calcium binding protein B	Homo sapiens	92-97	
15745143-10	2005	After protamine infusion, total body oxygen delivery and consumption correlated negatively with S100beta levels (both p &lt; 0.05) and with NAG levels (both p &lt; 0.01).	Oxygen	37-43	S100 calcium binding protein B	Homo sapiens	96-104	
22360297-3	2012	This study evaluates the association between S100beta, neuron-specific enolase (NSE), and glial fibrillary acidic protein (GFAP), detected in the serum of severe TBI patients and CH as measured by brain tissue oxygen partial pressure (Pbo(2)).	Oxygen	210-216	S100 calcium binding protein B	Homo sapiens	45-53	
17923015-11	2007	HES130/0.4 lowers the S100B protein levels from the beginning of CPB to one hour after the termination of CPB with the probable mechanism of improving the cerebral metabolism of oxygen.	Oxygen	178-184	S100 calcium binding protein B	Homo sapiens	22-27	
16782283-5	2006	While oxygen, serum and glucose deprivation triggered the most rapid release of S100B, serum and glucose deprivation provoked comparable levels of released S100B at the later time points.	Oxygen	6-12	S100 calcium binding protein B	Homo sapiens	80-85	
16782283-8	2006	Interestingly, S100B mRNA expression was potently downregulated after 12 and 24 h of oxygen, serum and glucose deprivation, and prolonged oxygen, serum and glucose deprivation for 48 h was associated with a significant reduction of S100B release at later time intervals, whereas lactate dehydrogenase levels remained constant.	Oxygen	85-91	S100 calcium binding protein B	Homo sapiens	15-20	
16782283-8	2006	Interestingly, S100B mRNA expression was potently downregulated after 12 and 24 h of oxygen, serum and glucose deprivation, and prolonged oxygen, serum and glucose deprivation for 48 h was associated with a significant reduction of S100B release at later time intervals, whereas lactate dehydrogenase levels remained constant.	Oxygen	138-144	S100 calcium binding protein B	Homo sapiens	15-20	
16782283-8	2006	Interestingly, S100B mRNA expression was potently downregulated after 12 and 24 h of oxygen, serum and glucose deprivation, and prolonged oxygen, serum and glucose deprivation for 48 h was associated with a significant reduction of S100B release at later time intervals, whereas lactate dehydrogenase levels remained constant.	Oxygen	138-144	S100 calcium binding protein B	Homo sapiens	232-237	
12505746-0	2003	The potential value of the protein S-100B level as a criterion for hyperbaric oxygen treatment and prognostic marker in carbon monoxide poisoned patients.	Oxygen	78-84	S100 calcium binding protein B	Homo sapiens	27-41