PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
27438-5	1978	The determination of the CSF/blood relationship of individual parameters shows a significant increase of the lactate quotient as well as a decrease of the pH quotient and of bicarbonate quotient.	Bicarbonates	174-185	colony stimulating factor 2	Homo sapiens	25-28	
8092567-8	1994	During respiratory acidosis, [HCO3-] increases in extracellular fluids to control cerebral pH by two main ways: a carbonic anhydrase activation at the blood/brain and blood/CSF barriers level and an increase in chloride shift in glial cells (HCO3- exchanged for Cl-).	Bicarbonates	30-34	colony stimulating factor 2	Homo sapiens	173-176	
2154185-9	1990	These effects of GM-CSF and PAF on Na+/H+ exchange are observed in both bicarbonate-free and bicarbonate-containing medium.	Bicarbonates	72-83	colony stimulating factor 2	Homo sapiens	17-23	
2154185-9	1990	These effects of GM-CSF and PAF on Na+/H+ exchange are observed in both bicarbonate-free and bicarbonate-containing medium.	Bicarbonates	93-104	colony stimulating factor 2	Homo sapiens	17-23	
3129145-0	1988	Regulation of pH and HCO3 in brain and CSF of the developing mammalian central nervous system.	Bicarbonates	21-25	colony stimulating factor 2	Homo sapiens	39-42	
3129145-6	1988	Throughout postnatal ontogenesis, [HCO3]csf was more resistant to alteration by metabolic acidosis than by alkalosis.	Bicarbonates	35-39	colony stimulating factor 2	Homo sapiens	40-43	
7375186-1	1980	We evaluated CSF [HCO3-] regulation in lightly anesthetized newborn puppies following: (1) acute total asphyxia; (2) metabolic acidosis; and (3) metabolic acidosis induced after acute asphyxia.	Bicarbonates	18-22	colony stimulating factor 2	Homo sapiens	13-16	
7375186-2	1980	Five and one-half min of total asphyxia resulted in a 4.4 mM/liter decrease in mean CSF [HCO3-].	Bicarbonates	89-93	colony stimulating factor 2	Homo sapiens	84-87	
7375186-3	1980	During 65 min of recovery with mechanical ventilation mean CSF [HCO3-] increased 1.7 mM/liter.	Bicarbonates	64-68	colony stimulating factor 2	Homo sapiens	59-62	
7375186-6	1980	With acidosis in nonasphyxiated control puppies, CSF [HCO3-] decreased steadily.	Bicarbonates	54-59	colony stimulating factor 2	Homo sapiens	49-52	
7375186-7	1980	At 4 hr, the ratio, delta CSF [HCO3-]/delta plasma [HCO3-], was 0.43, a value close to that observed in adults of many species with metabolic acid-base disturbances, 0.41.	Bicarbonates	31-35	colony stimulating factor 2	Homo sapiens	26-29	
7375186-8	1980	With acidosis in asphyxiated puppies allowed 1 hr of recovery, the time course and mean values of plasma and CSF [HCO3-] were indistinguishable from those of the nonasphyxiated acidotic controls.	Bicarbonates	114-118	colony stimulating factor 2	Homo sapiens	109-112	
7375186-9	1980	Newborn puppies appear to regulate CSF [HCO3-] in response to acute asphyxia or metabolic acidosis, and acute asphyxia does not impair the puppy"s ability to regulate CSF [HCO3-] in metabolic acidosis.	Bicarbonates	40-44	colony stimulating factor 2	Homo sapiens	35-38	
29457-0	1978	Interaction between PCO2 and plasma [HCO-3] in regulation of CSF [HCO-3] in respiratory alkalosis and metabolic acidosis.	Bicarbonates	37-42	colony stimulating factor 2	Homo sapiens	61-64	
632156-0	1978	Regulation of CSF[HCO3-] during long-term hypoxic hypocapnia in man.	Bicarbonates	18-22	colony stimulating factor 2	Homo sapiens	14-17	
29457-0	1978	Interaction between PCO2 and plasma [HCO-3] in regulation of CSF [HCO-3] in respiratory alkalosis and metabolic acidosis.	Bicarbonates	66-71	colony stimulating factor 2	Homo sapiens	61-64	
5575413-0	1971	The CDF-blood potential and the regulation of the bicarbonate concentration of CSF during acidosis in the cat.	Bicarbonates	50-61	colony stimulating factor 2	Homo sapiens	79-82	
5765-0	1976	Dependence of CSF on plasma bicarbonate during hypocapnia and hypoxemic hypocapnia.	Bicarbonates	28-39	colony stimulating factor 2	Homo sapiens	14-17	
5765-1	1976	We have previoulsy shown pH compensation to be similar in CSF and arterial blood during chronic hypoxemic hypocapnia in man and pony, and postulated that the compensatory reduction in CSF [HCO3] was dependent upon corresponding changes in [HCO3]a.	Bicarbonates	189-193	colony stimulating factor 2	Homo sapiens	184-187	
5765-1	1976	We have previoulsy shown pH compensation to be similar in CSF and arterial blood during chronic hypoxemic hypocapnia in man and pony, and postulated that the compensatory reduction in CSF [HCO3] was dependent upon corresponding changes in [HCO3]a.	Bicarbonates	240-244	colony stimulating factor 2	Homo sapiens	184-187	
5765-4	1976	In hypocapnia and hypoxemic hypocapnia, the decrease in [HCO3] and % pH compensation in CSF were less than or equal to that in arterial blood.	Bicarbonates	57-61	colony stimulating factor 2	Homo sapiens	88-91	
5765-5	1976	Most (51-89%) of the compensatory decrease in CSF [HCO3] was prevented by preventing the corresponding reduction in [HCO3]a.	Bicarbonates	51-55	colony stimulating factor 2	Homo sapiens	46-49	
5765-5	1976	Most (51-89%) of the compensatory decrease in CSF [HCO3] was prevented by preventing the corresponding reduction in [HCO3]a.	Bicarbonates	117-121	colony stimulating factor 2	Homo sapiens	46-49	
5765-6	1976	This dependence of changes in CSF on plasma [HCO3] required a concurrent decrease in CSF PCO2, but was largely independent of variations in plasma pH.	Bicarbonates	45-49	colony stimulating factor 2	Homo sapiens	30-33	
5765-6	1976	This dependence of changes in CSF on plasma [HCO3] required a concurrent decrease in CSF PCO2, but was largely independent of variations in plasma pH.	Bicarbonates	45-49	colony stimulating factor 2	Homo sapiens	85-88	
5765-7	1976	A minor but significant portion of the decrease in CSF [HCO3] was achieved independently of corresponding changes in [HCO3]a.	Bicarbonates	56-60	colony stimulating factor 2	Homo sapiens	51-54	
5765-7	1976	A minor but significant portion of the decrease in CSF [HCO3] was achieved independently of corresponding changes in [HCO3]a.	Bicarbonates	118-122	colony stimulating factor 2	Homo sapiens	51-54	
5765-8	1976	The contribution of this local mechanism to CSF [HCO3] regulation increased with increasing severity of hypocapnia or hypoxemia and was usually associated with a selective increase in CSF lactate.	Bicarbonates	49-53	colony stimulating factor 2	Homo sapiens	44-47	
5765-8	1976	The contribution of this local mechanism to CSF [HCO3] regulation increased with increasing severity of hypocapnia or hypoxemia and was usually associated with a selective increase in CSF lactate.	Bicarbonates	49-53	colony stimulating factor 2	Homo sapiens	184-187	
5765-9	1976	It was concluded that [HCO3] regulation in the CSF during hypoxemic hypocapnia was primarily dependent upon, and therefore limited by, the concomitant decrease in plasma [HCO3].	Bicarbonates	23-27	colony stimulating factor 2	Homo sapiens	47-50	
5765-9	1976	It was concluded that [HCO3] regulation in the CSF during hypoxemic hypocapnia was primarily dependent upon, and therefore limited by, the concomitant decrease in plasma [HCO3].	Bicarbonates	171-175	colony stimulating factor 2	Homo sapiens	47-50	
4102771-0	1971	The CSF-blood potential and the adaptation of the CSF bicarbonate concentration in the cat.	Bicarbonates	54-65	colony stimulating factor 2	Homo sapiens	50-53	
65979-0	1976	Mechanisms of CSF bicarbonate formation in normocapnia.	Bicarbonates	18-29	colony stimulating factor 2	Homo sapiens	14-17	
64158-0	1976	CSF bicarbonate regulation in hypercapnia and its relationship to brain ammonia and amino acids.	Bicarbonates	4-15	colony stimulating factor 2	Homo sapiens	0-3	
5552796-0	1971	The effect of iso-carbic metabolic acidosis in blood on [H+] and [HCO3-] in CSF with deductions about the regulation of an active transport of H plus-HCO3-between blood and CSF.	Bicarbonates	66-70	colony stimulating factor 2	Homo sapiens	76-79	
5552796-0	1971	The effect of iso-carbic metabolic acidosis in blood on [H+] and [HCO3-] in CSF with deductions about the regulation of an active transport of H plus-HCO3-between blood and CSF.	Bicarbonates	66-70	colony stimulating factor 2	Homo sapiens	173-176	
5552796-0	1971	The effect of iso-carbic metabolic acidosis in blood on [H+] and [HCO3-] in CSF with deductions about the regulation of an active transport of H plus-HCO3-between blood and CSF.	Bicarbonates	150-154	colony stimulating factor 2	Homo sapiens	76-79	
5552796-0	1971	The effect of iso-carbic metabolic acidosis in blood on [H+] and [HCO3-] in CSF with deductions about the regulation of an active transport of H plus-HCO3-between blood and CSF.	Bicarbonates	150-154	colony stimulating factor 2	Homo sapiens	173-176	
5901159-7	1966	The metabolic acidosis which results is likely the basis of the respiratory stimulatin, perhaps by its effects on the CSF H(2)CO(3)-HCO(3) - system.	Bicarbonates	132-138	colony stimulating factor 2	Homo sapiens	118-121	
21082368-7	2011	CSF formation occurs by basolateral carrier-mediated uptake of Na+, Cl-, and HCO3-, followed by apical release via ion channel conductance and osmotic flow of water through AQP1 channels.	Bicarbonates	77-81	colony stimulating factor 2	Homo sapiens	0-3	
17883837-7	2007	Both have significant HCO3- permeability, and may play a role in CSF secretion.	Bicarbonates	22-26	colony stimulating factor 2	Homo sapiens	65-68