PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
22614073-3	2012	Absence or lower abundance of calcium-binding proteins and higher abundance of prolactin-induced proteins were found in biofilm formed in the presence of sucrose or its monosaccharide constituents compared with water, the negative control group.	Water	211-216	prolactin	Homo sapiens	79-88	
12713511-0	2003	Growth hormone and prolactin responses during partial and whole body warm-water immersions.	Water	74-79	prolactin	Homo sapiens	19-28	
8148042-8	1993	This finding suggests that the increases in plasma and pituitary prolactin levels in larvae at metamorphic climax and in adults that remain in or migrate into water, as reported previously, accompany the increase in prolactin synthesis.	Water	159-164	prolactin	Homo sapiens	65-74	
8190778-2	1994	Sexually inert newts injected with prolactin (PRL) and human chorionic gonadotropin (HCG) in combination preferred the water in which newts of the opposite sex had been kept, whereas saline-injected specimens did not.	Water	119-124	prolactin	Homo sapiens	35-44	
8190778-4	1994	The water in which PRL plus HCG-treated newts had been kept attracted the opposite sex more intensely than the water in which PRL-, HCG-, or saline-injected newts had been kept.	Water	4-9	prolactin	Homo sapiens	19-22	
9845004-1	1998	Prolactin (PRL) has been reported to promote antidiuresis and increase intestinal water-electrolyte absorption, whereas osmolar changes have been shown to influence PRL secretion.	Water	82-87	prolactin	Homo sapiens	0-9	
9845004-1	1998	Prolactin (PRL) has been reported to promote antidiuresis and increase intestinal water-electrolyte absorption, whereas osmolar changes have been shown to influence PRL secretion.	Water	82-87	prolactin	Homo sapiens	11-14	
9845004-5	1998	In healthy women (21-39 y, n=6), an oral water load (OWL, 20 ml/bw) significantly suppressed the plasma levels of AVP, OXT and cortisol, and the PRL level too tended to decrease.	Water	41-46	prolactin	Homo sapiens	145-148	
9845004-6	1998	In hyperprolactinaemic females (22-41 y, n=6, three with pituitary adenomas), water retention was registered following an OWL, together with paradoxical AVP and OXT level increases, whereas the cortisol response remained normal, and the PRL level did not change at all.	Water	78-83	prolactin	Homo sapiens	237-240	
8148042-8	1993	This finding suggests that the increases in plasma and pituitary prolactin levels in larvae at metamorphic climax and in adults that remain in or migrate into water, as reported previously, accompany the increase in prolactin synthesis.	Water	159-164	prolactin	Homo sapiens	216-225	
2347321-10	1990	We hypothesize that immersion in water caused prolactin levels to decline.	Water	33-38	prolactin	Homo sapiens	46-55	
2051714-0	1991	[Effect of water immersion on the cortisol, glucose, growth hormone and prolactin levels in patients with transplanted heart].	Water	11-16	prolactin	Homo sapiens	72-81	
1441548-7	1992	The most important biological function of decidual prolactin is its effect on water and electrolyte transport for the needs of the fetus, and this transport takes place mainly across the fetal membranes.	Water	78-83	prolactin	Homo sapiens	51-60	
1304187-2	1992	Because PRL is thought to be involved in the regulation of brain water and electrolyte content attempt has been made to determine CSF and plasma PRL and dopamine (DA) concentrations, osmolality, and sodium level in 21 newborn infants undergoing lumbar punction because of apneic spells, fever, or perinatal asphyxia.	Water	65-70	prolactin	Homo sapiens	8-11	
1821983-2	1991	Recent studies suggest that low prolactin secretion may be a trait characteristic in SAD and this hormone is known to influence on transport mechanism of water and electrolytes from blood to aqueous humor.	Water	154-159	prolactin	Homo sapiens	32-41	
2780875-1	1989	Intracranial injections of prolactin (PRL) have been previously shown to elevate food and water intake in ring doves.	Water	90-95	prolactin	Homo sapiens	27-36	
2780875-1	1989	Intracranial injections of prolactin (PRL) have been previously shown to elevate food and water intake in ring doves.	Water	90-95	prolactin	Homo sapiens	38-41	
2780875-3	1989	PRL increased food consumption by 35-50% over baseline levels in water deprived and nondeprived doves, although response latencies (10 hr) and durations (greater than 24 hr) were considerably longer than those reported for other orexigenic peptides.	Water	65-70	prolactin	Homo sapiens	0-3	
2780875-5	1989	In contrast to this pattern, water intake remained unchanged in food deprived doves and was only marginally increased in nondeprived doves following PRL treatment.	Water	29-34	prolactin	Homo sapiens	149-152	
4007798-5	1985	However, gonadal and reproductive tract tissue weights were markedly reduced and food and water consumption were significantly elevated in PRL-treated birds.	Water	90-95	prolactin	Homo sapiens	139-142	
3324681-2	1987	Prolactin may be important in the regulation of water and ion transport across the amnion, the production of surfactant by the fetal lung, and the immune response during pregnancy.	Water	48-53	prolactin	Homo sapiens	0-9	
3516535-5	1986	On the contrary, plasma prolactin levels, previously suppressed during water immersion alone, were significantly stimulated during water immersion plus domperidone, thus indirectly suggesting a role of dopamine in mediating the blunted natriuresis seen during water immersion.	Water	71-76	prolactin	Homo sapiens	24-33	
3516535-5	1986	On the contrary, plasma prolactin levels, previously suppressed during water immersion alone, were significantly stimulated during water immersion plus domperidone, thus indirectly suggesting a role of dopamine in mediating the blunted natriuresis seen during water immersion.	Water	131-136	prolactin	Homo sapiens	24-33	
3516535-5	1986	On the contrary, plasma prolactin levels, previously suppressed during water immersion alone, were significantly stimulated during water immersion plus domperidone, thus indirectly suggesting a role of dopamine in mediating the blunted natriuresis seen during water immersion.	Water	131-136	prolactin	Homo sapiens	24-33	
3735922-0	1986	[Role of prolactin in disorders of water and salt metabolism in patients with hypertension].	Water	35-40	prolactin	Homo sapiens	9-18	
3735922-1	1986	The relationship between water-salt balance and blood prolactin (Prl) level was examined in 22 male patients with essential hypertension, stages IB-IIA.	Water	25-30	prolactin	Homo sapiens	54-63	
3004215-1	1986	The permeability of human amnion to tritiated water is reduced in the presence of both human and ovine prolactin.	Water	46-51	prolactin	Homo sapiens	103-112	
3004215-3	1986	The present study sought to confirm an epithelial site of action of prolactin on the permeability of amnionic membrane to tritiated water.	Water	132-137	prolactin	Homo sapiens	68-77	
3004215-6	1986	However, when ovine prolactin was presented to the fetal surface of amnion, only intact membrane displayed decreased permeability to tritiated water.	Water	143-148	prolactin	Homo sapiens	20-29	
3004215-8	1986	The results indicate that the permeability of human amnion to water is influenced principally by cells of the epithelium in response to prolactin.	Water	62-67	prolactin	Homo sapiens	136-145	
6326414-5	1983	The possibility that prolactin, a proven osmoregulatory hormone in submammalian species but not in mammals and primates, may have an important role in this process is suggested by recent evidence that prolactin regulates tissue water in fetal and newborn animals.	Water	228-233	prolactin	Homo sapiens	21-30	
6695975-1	1984	As evidence continues to accumulate supporting a specific effect of prolactin on the permeability of reflected fetal membranes to tritiated water, no information on the role of decidual prolactin in this process is available.	Water	140-145	prolactin	Homo sapiens	68-77	
6695975-7	1984	These in vitro results may suggest that the accumulation of decidual prolactin at the choriodecidual interface in vivo supports bulk water flow across fetal membrane from the amniotic to the maternal compartments.	Water	133-138	prolactin	Homo sapiens	69-78	
6326414-5	1983	The possibility that prolactin, a proven osmoregulatory hormone in submammalian species but not in mammals and primates, may have an important role in this process is suggested by recent evidence that prolactin regulates tissue water in fetal and newborn animals.	Water	228-233	prolactin	Homo sapiens	201-210	
6326414-6	1983	If this hormone assists in the regulation of water and electrolyte content of the brain during the perinatal period then prolactin receptors might be expected at blood-brain and blood-CSF barriers.	Water	45-50	prolactin	Homo sapiens	121-130	
7076803-1	1982	The presence of PRL in high concentration in human amniotic fluid has been related to changes in water transport across amnion but not chorion leave.	Water	97-102	prolactin	Homo sapiens	16-19	
6689332-4	1983	A direct effect of 1,25 (OH)2-D on PRL secretion may exist.	Water	24-29	prolactin	Homo sapiens	35-38	
6247216-5	1980	Prolactin seems able to cause a prolonged reduction in water, sodium, and potassium excretion, a pattern that is imitated by no other hormone with the possible exception of growth hormone.	Water	55-60	prolactin	Homo sapiens	0-9	
6247216-8	1980	This is particularly so with the effects of prolactin on water movements across fetal skin, the amniotic membrane, and in the eye where prolactin and vasopressin have diametrically opposite effects.	Water	57-62	prolactin	Homo sapiens	44-53	
6247216-8	1980	This is particularly so with the effects of prolactin on water movements across fetal skin, the amniotic membrane, and in the eye where prolactin and vasopressin have diametrically opposite effects.	Water	57-62	prolactin	Homo sapiens	136-145	
842694-0	1977	Prolactin and fetal osmoregulation: water transport across isolated human amnion.	Water	36-41	prolactin	Homo sapiens	0-9	
434010-1	1979	The addition of ovine prolactin (oPRL) to the fetal side of human term amnion in vitro is associated with a decrease in membrane permeability to tritiated water (THO).	Water	155-160	prolactin	Homo sapiens	22-31	
412766-1	1977	The effect of TRH induced secretion of TSH and prolactin (hPrl) on plasma renin activity (PRA), water and electrolyte excretion, was studied in 7 normal males before and after an intravenous injection of 2 ml normal saline or 200 microgram TRH.	Water	96-101	prolactin	Homo sapiens	58-62	
870513-0	1977	The effects of ovine prolactin on water and electrolyte excretion in man are attributable to vasopressin contamination.	Water	34-39	prolactin	Homo sapiens	21-30	
842694-7	1977	The results imply an active role for prolactin on water transport across human amnion.	Water	50-55	prolactin	Homo sapiens	37-46	
401926-2	1977	An oral water load of 20 ml/kg had no effect on basal serum PRL or TSH levels but did result in an increased PRL response to methyl-TRH in the ten euthyroid patients.	Water	8-13	prolactin	Homo sapiens	109-112	
895996-1	1977	Plasma prolactin was determined in a longitudinal study, where -9 manic-depressive patients were examined before lithium treatment and at various times during the treatment with the aim of unravelling a possible association between initial changes in water and sodium balance during lithium treatment and changes in plasma prolactin level.	Water	251-256	prolactin	Homo sapiens	7-16	
821964-2	1976	The effect of TRH induced acute elevation of endogenous serum prolactin on renal water, sodium, potassium and total solute excretion was investigated during metabolic balance conditions and during escape form mineralocorticoid excess in 8 normal volunteers (6 males, 2 females)...	Water	81-86	prolactin	Homo sapiens	62-71	
32827513-1	2020	In fishes, Prl signaling underlies the homeostatic regulation of hydromineral balance by controlling essential solute and water transporting functions performed by the gill, gastrointestinal tract, kidney, urinary bladder, and integument.	Water	122-127	prolactin	Homo sapiens	11-14	
32827513-2	2020	Comparative studies spanning over 60 years have firmly established that Prl promotes physiological activities that enable euryhaline and stenohaline teleosts to reside in freshwater environments; nonetheless, the specific molecular and cellular targets of Prl in ion- and water-transporting tissues are still being resolved.	Water	176-181	prolactin	Homo sapiens	72-75	
32373171-0	2020	Assessment of Changes in Concentration of Total Antioxidant Status, Acute-Phase Protein, and Prolactin in Patients with Osteoarthritis Subjected to a Complex Spa Treatment with Radon Water: Preliminary Results.	Water	183-188	prolactin	Homo sapiens	93-102	
1036731-1	1976	The possible role of endogenous prolactin (hPRL) in the regulation of renal water, Na and K excretion during sleep was tested in a group of 10 healthy female volunteers.	Water	76-81	prolactin	Homo sapiens	32-41	
1036731-1	1976	The possible role of endogenous prolactin (hPRL) in the regulation of renal water, Na and K excretion during sleep was tested in a group of 10 healthy female volunteers.	Water	76-81	prolactin	Homo sapiens	43-47	
1159050-2	1975	In 10 normal men there was a small but statistically significant rise in mean prolactin, from 7.6 to 12.3 ng/ml, occurring within half an hour after the ingestion of a water load of 20 ml/kg.	Water	168-173	prolactin	Homo sapiens	78-87	
1171026-1	1975	Previous observations by other workers indicating suppression of serum prolactin (hPRL) by water loading could not be confirmed.	Water	91-96	prolactin	Homo sapiens	71-80	
1171026-1	1975	Previous observations by other workers indicating suppression of serum prolactin (hPRL) by water loading could not be confirmed.	Water	91-96	prolactin	Homo sapiens	82-86	
1171026-3	1975	It was of interest that the acute ingestion of water resulted in a triphasic response in serum hPRL levels.	Water	47-52	prolactin	Homo sapiens	95-99	
4724931-2	1973	Mean serum prolactin fell to 10.5 percent of baseline after oral water loading and to 15 percent of baseline after intravenous hypotonic saline infusion.	Water	65-70	prolactin	Homo sapiens	11-20	
32612510-13	2020	The different types of pituitary prolactin in fish play particularly important roles in the adaptation of eutherian species to fresh water environments.	Water	133-138	prolactin	Homo sapiens	33-42	
32612510-15	2020	In turn, the released prolactin acts on branchial epithelia, especially ionocytes of the gill to retain salt and excrete water.	Water	121-126	prolactin	Homo sapiens	22-31