PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
24144549-1	2014	A single central injection of angiotensin II (AngII) potently increases water intake; however, a growing body of research suggests that repeated, acute intracerebroventricular injections of AngII cause a reduction in the dipsogenic response to subsequent AngII.	Water	72-77	angiotensinogen	Homo sapiens	30-44	
25388457-3	2015	Their mechanism of action involves the adjustment of balance between vasoconstrictive, hypertrophic and salt/water-retentive angiotensin II and vasodilatory and natriuretic bradykinin by the inhibition of angiotensin II biosynthesis and bradykinin degradation.	Water	109-114	angiotensinogen	Homo sapiens	125-139	
25374825-2	2014	Mediators that play a significant role in regulating the transport of solutes and water include angiotensin II (AngII) and nitric oxide (NO).	Water	82-87	angiotensinogen	Homo sapiens	96-110	
25374825-2	2014	Mediators that play a significant role in regulating the transport of solutes and water include angiotensin II (AngII) and nitric oxide (NO).	Water	82-87	angiotensinogen	Homo sapiens	112-117	
27358027-3	2016	The haemodynamic and non-haemodynamic effects of Ang II, including its ability to regulate blood pressure, maintain water-electrolyte balance and promote vasoconstriction and cellular growth are well-documented to be mediated primarily by the AT1R.	Water	116-121	angiotensinogen	Homo sapiens	49-55	
25858030-11	2015	Pharmacological blockade of the AT1 receptor with losartan prior to RNS abolished both the functional and the molecular responses, suggesting that intrarenal Ang II acting via the AT1 receptor is a major factor for NHE3-mediated sodium and water reabsorption induced by RNS.	Water	240-245	angiotensinogen	Homo sapiens	158-164	
25477821-3	2014	In addition, inactivation of the LPBN induces overdrinking of water in response to a range of dipsogenic treatments primarily, but not exclusively, those associated with endogenous centrally acting angiotensin II.	Water	62-67	angiotensinogen	Homo sapiens	198-212	
25024004-5	2014	Essentially, T-lymphocytes determine an increase in angiotensin ii production which raises sodium and water retention.	Water	102-107	angiotensinogen	Homo sapiens	52-66	
24144549-1	2014	A single central injection of angiotensin II (AngII) potently increases water intake; however, a growing body of research suggests that repeated, acute intracerebroventricular injections of AngII cause a reduction in the dipsogenic response to subsequent AngII.	Water	72-77	angiotensinogen	Homo sapiens	46-51	
24144549-1	2014	A single central injection of angiotensin II (AngII) potently increases water intake; however, a growing body of research suggests that repeated, acute intracerebroventricular injections of AngII cause a reduction in the dipsogenic response to subsequent AngII.	Water	72-77	angiotensinogen	Homo sapiens	190-195	
24144549-1	2014	A single central injection of angiotensin II (AngII) potently increases water intake; however, a growing body of research suggests that repeated, acute intracerebroventricular injections of AngII cause a reduction in the dipsogenic response to subsequent AngII.	Water	72-77	angiotensinogen	Homo sapiens	190-195	
24144549-6	2014	In support of this hypothesis, we found that repeated injections of AngII into the AV3V reduced water intake stimulated by a test injection of AngII given into this region.	Water	96-101	angiotensinogen	Homo sapiens	68-73	
24144549-6	2014	In support of this hypothesis, we found that repeated injections of AngII into the AV3V reduced water intake stimulated by a test injection of AngII given into this region.	Water	96-101	angiotensinogen	Homo sapiens	143-148	
24144549-7	2014	Moreover, repeated AngII injections in the AV3V reduced water intake after AngII was injected into the lateral ventricle.	Water	56-61	angiotensinogen	Homo sapiens	19-24	
24015756-7	2013	By contrast, a series of positively selected amino acid residues identified in the ACE and AGT (two key members of the renin-angiotensin-aldosterone system, RAAS) proteins of cetaceans suggests that RAAS might have been adapted to maintain the water and salt balance in response to a hyperosmotic environment.	Water	244-249	angiotensinogen	Homo sapiens	91-94	
24015756-7	2013	By contrast, a series of positively selected amino acid residues identified in the ACE and AGT (two key members of the renin-angiotensin-aldosterone system, RAAS) proteins of cetaceans suggests that RAAS might have been adapted to maintain the water and salt balance in response to a hyperosmotic environment.	Water	244-249	angiotensinogen	Homo sapiens	119-155	
23797335-2	2013	In eels, Ang II acts on the area postrema, a sensory circumventricular organ (CVO) and elicits water intake but other sensory CVOs have not yet been found in the eel forebrain.	Water	95-100	angiotensinogen	Homo sapiens	9-15	
23856493-3	2013	Intracerebroventricular infusion of Ang II at 1.0, 2.5, and 12.5 ng/min for 2 weeks caused dose-related increases in water intake, Ang II concentration in the cerebrospinal fluid, and blood pressure.	Water	117-122	angiotensinogen	Homo sapiens	36-42	
23180052-3	2013	In the kidney, Ang II stimulates renal tubular water and salt reabsorption causing antinatriuresis and antidiuresis.	Water	47-52	angiotensinogen	Homo sapiens	15-21	
23782508-6	2013	This updating seems to be mediated by the activation of angiotensin AT1 receptors in the dorsal hippocampus and local infusion of human angiotensin II (ANGII) was shown to mimic the water deprivation effects on memory reconsolidation.	Water	182-187	angiotensinogen	Homo sapiens	136-150	
23782508-6	2013	This updating seems to be mediated by the activation of angiotensin AT1 receptors in the dorsal hippocampus and local infusion of human angiotensin II (ANGII) was shown to mimic the water deprivation effects on memory reconsolidation.	Water	182-187	angiotensinogen	Homo sapiens	152-157	
22773836-7	2012	Studies using the H(2)O(2) biosensor HyPer2 reveal that angiotensin-II promotes increases in intracellular H(2)O(2).	Water	18-23	angiotensinogen	Homo sapiens	56-70	
23176210-1	2013	The octapeptide angiotensin II (Ang II) plays a homeostatic role in the regulation of blood pressure and water and electrolyte balance, and also contributes to the progression of cardiovascular remodeling.	Water	105-110	angiotensinogen	Homo sapiens	16-30	
23176210-1	2013	The octapeptide angiotensin II (Ang II) plays a homeostatic role in the regulation of blood pressure and water and electrolyte balance, and also contributes to the progression of cardiovascular remodeling.	Water	105-110	angiotensinogen	Homo sapiens	32-38	
20346964-4	2010	The second set of experiments focused on the role of intracellular signaling pathways in water and saline intakes that are stimulated by angiotensin II (AngII).	Water	89-94	angiotensinogen	Homo sapiens	137-151	
21029392-6	2011	These studies have identified plasma volume and urinary bladder stores as intrinsic stimuli that activate the formation of angiotensin II (AII) to stimulate water absorption behaviour.	Water	157-162	angiotensinogen	Homo sapiens	123-137	
21029392-6	2011	These studies have identified plasma volume and urinary bladder stores as intrinsic stimuli that activate the formation of angiotensin II (AII) to stimulate water absorption behaviour.	Water	157-162	angiotensinogen	Homo sapiens	139-142	
21412242-1	2011	Angiotensin (Ang) II, the main effector peptide of the renin-Ang system, increases arterial blood pressure through Ang II type 1A (AT(1a)) receptor-dependent arterial vasoconstriction and by decreasing renal salt and water excretion through extrarenal and intrarenal mechanisms.	Water	217-222	angiotensinogen	Homo sapiens	0-20	
21528478-1	2011	INTRODUCTION: Angiotensin II (AngII), a peptide that regulates the water-electrolytic balance and blood pressure, is also known to influence cell proliferation.	Water	67-72	angiotensinogen	Homo sapiens	14-28	
21528478-1	2011	INTRODUCTION: Angiotensin II (AngII), a peptide that regulates the water-electrolytic balance and blood pressure, is also known to influence cell proliferation.	Water	67-72	angiotensinogen	Homo sapiens	30-35	
20486869-5	2010	With such combinations, while ARB inhibits the vasoconstricting action and aldosterone-secreting effects of angiotensin II, hydrochlorothiazide affects the renal tubular mechanisms of electrolyte reabsorption and directly increases excretion of sodium and chloride in the distal tubule, and promotes water excretion.	Water	300-305	angiotensinogen	Homo sapiens	108-122	
20346964-4	2010	The second set of experiments focused on the role of intracellular signaling pathways in water and saline intakes that are stimulated by angiotensin II (AngII).	Water	89-94	angiotensinogen	Homo sapiens	153-158	
19948673-2	2009	In the kidney, angiotensin II exerts its effects to conserve salt and water through a combination of the hemodynamic control of renal blood flow and glomerular filtration rate and tubular epithelial cell sodium chloride and water transport mechanisms.	Water	70-75	angiotensinogen	Homo sapiens	15-29	
21029011-1	2010	Accumulated studies reported that the natruretic dopamine (DA) and the anti-natruretic angiotensin II (Ang II) represent an important mechanism to regulate renal Na(+) and water excretion through intracellular secondary messengers to inhibit or activate renal proximal tubule (PT) Na(+), K(+)-ATPase (NKA).	Water	172-177	angiotensinogen	Homo sapiens	87-101	
21029011-1	2010	Accumulated studies reported that the natruretic dopamine (DA) and the anti-natruretic angiotensin II (Ang II) represent an important mechanism to regulate renal Na(+) and water excretion through intracellular secondary messengers to inhibit or activate renal proximal tubule (PT) Na(+), K(+)-ATPase (NKA).	Water	172-177	angiotensinogen	Homo sapiens	103-109	
19948673-2	2009	In the kidney, angiotensin II exerts its effects to conserve salt and water through a combination of the hemodynamic control of renal blood flow and glomerular filtration rate and tubular epithelial cell sodium chloride and water transport mechanisms.	Water	224-229	angiotensinogen	Homo sapiens	15-29	
19118280-0	2009	Suppression of peroxisome proliferator-activated receptor-gamma activity by angiotensin II in vascular smooth muscle involves Bcr kinase: the fire that drowns the water.	Water	163-168	angiotensinogen	Homo sapiens	76-90	
19805637-7	2009	Our results demonstrate that both Nox2 and Nox4 are required for the full vasopressor effects of brain Ang-II but that only Nox2 is coupled to the Ang-II-induced water intake response.	Water	162-167	angiotensinogen	Homo sapiens	147-153	
19348229-1	2009	The octapeptide angiotensin II (AngII) plays a homeostatic role in the regulation of blood pressure and water and electrolyte balance, and contributes to the progression of cardiovascular remodeling.	Water	104-109	angiotensinogen	Homo sapiens	16-30	
19348229-1	2009	The octapeptide angiotensin II (AngII) plays a homeostatic role in the regulation of blood pressure and water and electrolyte balance, and contributes to the progression of cardiovascular remodeling.	Water	104-109	angiotensinogen	Homo sapiens	32-37	
17596524-0	2007	The thiazide-sensitive NaCl cotransporter: a new target for acute regulation of salt and water transport by angiotensin II.	Water	89-94	angiotensinogen	Homo sapiens	108-122	
19728302-10	2009	CD spectra showed that although both AII and TOAC1-AII presented flexible conformations in water, TOAC3-AII displayed conformational restriction because of the TOAC-imposed bend (Schreier et al., Biopolymers 2004, 74, 389).	Water	91-96	angiotensinogen	Homo sapiens	37-40	
19728302-10	2009	CD spectra showed that although both AII and TOAC1-AII presented flexible conformations in water, TOAC3-AII displayed conformational restriction because of the TOAC-imposed bend (Schreier et al., Biopolymers 2004, 74, 389).	Water	91-96	angiotensinogen	Homo sapiens	51-54	
19728302-10	2009	CD spectra showed that although both AII and TOAC1-AII presented flexible conformations in water, TOAC3-AII displayed conformational restriction because of the TOAC-imposed bend (Schreier et al., Biopolymers 2004, 74, 389).	Water	91-96	angiotensinogen	Homo sapiens	51-54	
20641953-3	2004	Angiotensin II also stimulates the production of aldosterone from the adrenal glands, which promotes retention of sodium and water.	Water	125-130	angiotensinogen	Homo sapiens	0-14	
18543871-0	2008	Solvent interactions with [Val(5)]angiotensin II in ethanol-water.	Water	60-65	angiotensinogen	Homo sapiens	34-48	
20641324-3	2004	Angiotensin II also stimulates the production of aldosterone from the adrenal glands that promotes sodium and water retention.	Water	110-115	angiotensinogen	Homo sapiens	0-14	
18186457-7	2008	In addition, linearity in the range 9.5-95 nM was obtained for the peptide angiotensin-II in deionized water with a correlation of estimation of 0.992 using an internal standard.	Water	103-108	angiotensinogen	Homo sapiens	75-89	
18687780-1	2008	Circulating angiotensin II (ANGII) elicits water intake and activates the hypothalamic-pituitary-adrenal (HPA) axis by stimulating angiotensin type 1 receptors (AT1Rs) within circumventricular organs.	Water	43-48	angiotensinogen	Homo sapiens	12-26	
18687780-1	2008	Circulating angiotensin II (ANGII) elicits water intake and activates the hypothalamic-pituitary-adrenal (HPA) axis by stimulating angiotensin type 1 receptors (AT1Rs) within circumventricular organs.	Water	43-48	angiotensinogen	Homo sapiens	28-33	
18360029-0	2008	A water-soluble fullerene vesicle alleviates angiotensin II-induced oxidative stress in human umbilical venous endothelial cells.	Water	2-7	angiotensinogen	Homo sapiens	45-59	
18360029-9	2008	These observations show that the PhK water-soluble fullerene vesicle is promising as a compound controlling not only exogenous ROS, but also endogenous AII-mediated pathophysiological conditions.	Water	37-42	angiotensinogen	Homo sapiens	152-155	
17329311-3	2007	Thus, it is not surprising that angiotensin II, which is synthesized in response to hypovolaemia, acts centrally to increase both water and NaCl intake.	Water	130-135	angiotensinogen	Homo sapiens	32-46	
17631057-0	2007	Inhibitory effects of Zoagumhwan water extract and berberine on angiotensin II-induced monocyte chemoattractant protein (MCP)-1 expression and monocyte adhesion to endothelial cells.	Water	33-38	angiotensinogen	Homo sapiens	64-78	
17556883-1	2007	PURPOSE OF REVIEW: Angiotensin II regulates vasoconstriction, homeostasis of salt and water, and cardiovascular hypertrophy and remodeling.	Water	86-91	angiotensinogen	Homo sapiens	19-33	
16650887-9	2006	The results described in this paper provide evidence that calcium channels play important roles in the ANGII-induced behavioral water intake.	Water	128-133	angiotensinogen	Homo sapiens	103-108	
16256193-1	2006	We used the in vitro dually perfused human placental lobule to test the hypothesis that known vasoconstrictors of the fetal placental circulation, angiotensin II and the thromboxane mimetic U46619 could induce fetomaternal water transfer.	Water	223-228	angiotensinogen	Homo sapiens	147-161	
16650887-2	2006	We have show previously the central involvement of angiotensin II (ANGII) in water intake.	Water	77-82	angiotensinogen	Homo sapiens	51-65	
16650887-2	2006	We have show previously the central involvement of angiotensin II (ANGII) in water intake.	Water	77-82	angiotensinogen	Homo sapiens	67-72	
15993982-4	2005	Under a drying condition where the water inflow from outside the body was eliminated, Ang II suppressed body weight loss, but Ang III did not.	Water	35-40	angiotensinogen	Homo sapiens	86-92	
16601568-2	2006	RESULTS: AT1-receptor activation by angiotensin II is not only involved in the regulation of blood pressure, water and sodium homeostasis, and control of other neurohumoral systems, but also leads to excessive production of reactive oxygen species and to hypertrophy, proliferation, migration, and apoptosis of vascular cells.	Water	109-114	angiotensinogen	Homo sapiens	36-50	
16142301-1	2005	Angiotensin II, a potent vasoconstrictor, also participates in the regulation of renal sodium and water excretion, not only via a myriad of effects on renal hemodynamics, glomerular filtration rate, and regulation of aldosterone secretion, but also via direct effects on renal tubule transport.	Water	98-103	angiotensinogen	Homo sapiens	0-14	
16197516-0	2005	Memory strengthening by a real-life episode during reconsolidation: an outcome of water deprivation via brain angiotensin II.	Water	82-87	angiotensinogen	Homo sapiens	110-124	
16197516-8	2005	We show that memory reconsolidation, induced by training context re-exposure, is facilitated by a concurrent episode of water deprivation, which induces a raise in endogenous brain angiotensin II.	Water	120-125	angiotensinogen	Homo sapiens	181-195	
15976682-4	2005	Most, if not all, of the peripheral and central actions of angiotensin II, including vasoconstriction, renal salt and water retention, facilitation of sympathetic transmission, modification of vascular and cardiac structure, oxydative stress stimulation and proinflammatory action were all thought to be mediated by the angiotensin type 1 receptor, AT1.	Water	118-123	angiotensinogen	Homo sapiens	59-73	
16080698-0	2005	Condensation reaction between angiotensin II and dicarboxylic acid in water at high temperature without any catalytic agent additive.	Water	70-75	angiotensinogen	Homo sapiens	30-44	
16080698-1	2005	The condensation reaction of angiotensin II and tartaric acid in water at 100-140 degrees C proceeded without any added catalytic agent.	Water	65-70	angiotensinogen	Homo sapiens	29-43	
15740899-3	2005	cIEF-MS employing 1% Pharmalyte 3-10 and a sheath liquid containing water/methanol/acetic acid (50/49/1) resolved angiotensin I and II (5 microM each, DeltapI=0.2) at an Rs value of 2.29.	Water	68-73	angiotensinogen	Homo sapiens	114-134	
16041122-0	2005	Angiotensin III as well as angiotensin II regulates water flow through aquaporins in a clam worm.	Water	52-57	angiotensinogen	Homo sapiens	27-41	
16041122-7	2005	Since tetrachloroaurate (III) is a representative blocker of aquaporins, these results indicate that angiotensin III as well as angiotensin II regulates water flow through aquaporins in clam worms.	Water	153-158	angiotensinogen	Homo sapiens	101-115	
15614025-1	2004	OBJECTIVE: Angiotensin II and aldosterone, generated by the angiotensin-converting enzyme (ACE) and aldosterone synthase (CYP11B2), respectively, not only regulate sodium and water homeostasis, but also influence vascular remodeling in response to high blood pressure.	Water	175-180	angiotensinogen	Homo sapiens	11-25	
15090867-9	2004	When inappropriately stimulated, high intrarenal angiotensin II levels contribute to excessive salt and water retention, the development of hypertension, and long-term proliferative effects leading to renal injury.	Water	104-109	angiotensinogen	Homo sapiens	49-63	
15500134-2	2004	All classic physiological effects of AII, such as vasoconstriction, aldosterone and vasopressin release, sodium and water retention and sympathetic facilitation, are mediated by the AT1 receptor.	Water	116-121	angiotensinogen	Homo sapiens	37-40	
15099911-0	2004	Interaction between supraoptic nucleus and septal area in the control of water, sodium intake and arterial blood pressure induced by injection of angiotensin II.	Water	73-78	angiotensinogen	Homo sapiens	146-160	
14988040-1	2004	Our recent results showed that angiotensin II or III (AII, AIII) microinjected into the zona incerta (ZI) significantly increased water intake.	Water	130-135	angiotensinogen	Homo sapiens	31-52	
12746271-2	2003	Indeed, some of the properties of the physiologically active component of the RAS, angiotensin II, include vasoconstriction, regulation of renal sodium and water absorption, and increasing thirst.	Water	156-161	angiotensinogen	Homo sapiens	83-97	
12759348-2	2003	Dopamine and angiotensin II have antagonistic effects on renal Na+ and water excretion, which involves regulation of the Na+,K+-ATPase activity.	Water	71-76	angiotensinogen	Homo sapiens	13-27	
12752436-2	2003	Conformational analysis of angiotensin I (AI) and II (AII) peptides has been performed through 2D 1H-NMR spectroscopy in dimethylsulfoxide and 2,2,2-trifluoroethanol/H2O.	Water	166-169	angiotensinogen	Homo sapiens	27-52	
12676175-6	2003	Centrally administered AT(1) receptor antagonists or angiotensinogen antisense oligonucleotides inhibit sympathetic activity and reduce arterial blood pressure in certain physiological or pathophysiological conditions, as well as disrupting water drinking and sodium appetite, vasopressin secretion, sodium excretion, renin release and thermoregulation.	Water	241-246	angiotensinogen	Homo sapiens	53-68	
12763668-1	2003	Angiotensin II is shown by nuclear magnetic resonance (NMR) to form a complex in water at pH 4.0 with cerium(III), the ideal paramagnetic probe for Ca(2+).	Water	81-86	angiotensinogen	Homo sapiens	0-14	
12563518-1	2003	Angiotensin II and atrial natriuretic peptide (ANP) play important and opposite roles in the control of water and salt intake, with angiotensin II promoting the intake of both and ANP inhibiting the intake of both.	Water	104-109	angiotensinogen	Homo sapiens	0-14	
12642017-5	2003	In the cortical collecting duct, AT(1) receptors stimulate transport through apical sodium channels, and in the inner medulla, urea transport is enhanced by Ang II, contributing to increased sodium and water reabsorption.	Water	202-207	angiotensinogen	Homo sapiens	157-163	
11785064-9	2002	Also, activation of the renin-angiotensin system increases the levels of angiotensin II in the plasma, leading to generalized vasoconstriction, or locally in the kidneys, leading to salt and water retention.	Water	191-196	angiotensinogen	Homo sapiens	73-87	
12573139-1	2002	Angiotensin II has been shown to participate in both physiological processes, such as sodium and water homeostasis and vascular contraction, and pathophysiological processes, including atherosclerosis and hypertension.	Water	97-102	angiotensinogen	Homo sapiens	0-14	
11983705-5	2002	Here we use modification of reporter cysteines to measure water accessibility at specific residues in TM2 of the type 1 receptor for the octapeptide hormone angiotensin II.	Water	58-63	angiotensinogen	Homo sapiens	157-171	
12069945-0	2002	Angiotensin II attenuates the natriuresis of water immersion in humans.	Water	45-50	angiotensinogen	Homo sapiens	0-14	
11799146-1	2002	Angiotensin II (Ang II) regulates water and sodium transport in renal tubules and gastrointestinal tract.	Water	34-39	angiotensinogen	Homo sapiens	0-14	
11799146-1	2002	Angiotensin II (Ang II) regulates water and sodium transport in renal tubules and gastrointestinal tract.	Water	34-39	angiotensinogen	Homo sapiens	16-22	
12036388-1	2002	The octapeptide angiotensin II (Ang II), the potent effector molecule of the renin-angiotensin-aldosterone system (RAAS), is involved in the control of blood pressure, cardiac and vascular function as well as sodium and water homeostasis.	Water	220-225	angiotensinogen	Homo sapiens	16-30	
12036388-1	2002	The octapeptide angiotensin II (Ang II), the potent effector molecule of the renin-angiotensin-aldosterone system (RAAS), is involved in the control of blood pressure, cardiac and vascular function as well as sodium and water homeostasis.	Water	220-225	angiotensinogen	Homo sapiens	32-38	
11231042-0	2001	Atypical angiotensin receptors may mediate water intake induced by central injections of angiotensin II and of serotonin in pigeons.	Water	43-48	angiotensinogen	Homo sapiens	89-103	
11828179-2	2001	In this regard, angiotensin II maintains and regulates salt and water balance, is critically involved in cardiovascular function, and governs thirst.	Water	64-69	angiotensinogen	Homo sapiens	16-30	
11231042-9	2001	At the doses presently used both 5-HT and ANGII treatments evoked comparable water intake amounts with similar behavioral profiles.	Water	77-82	angiotensinogen	Homo sapiens	42-47	
11231042-10	2001	While pretreatment with SAR dose-dependently reduced the water intake evoked by both 5-HT and ANGII, neither losartan nor PD 123,319 pretreatment affected the drinking induced by these treatments.	Water	57-62	angiotensinogen	Homo sapiens	94-99	
10904236-5	2000	The renin-angiotensin system (RAS), through the important effector peptide, angiotensin II (Ang II), has potent effects on blood pressure, salt and water homeostasis, and target-organ damage.	Water	148-153	angiotensinogen	Homo sapiens	76-90	
11403985-0	2001	Role of the alpha(1)- and alpha(2)-adrenoceptors of the paraventricular nucleus on the water and salt intake, renal excretion, and arterial pressure induced by angiotensin II injection into the medial septal area.	Water	87-92	angiotensinogen	Homo sapiens	160-174	
11403985-2	2001	ANG II injection into the MSA induced water and sodium intake, diuresis, natriuresis, and pressor responses.	Water	38-43	angiotensinogen	Homo sapiens	0-6	
11403985-4	2001	Previous injection of a nonselective alpha-adrenergic antagonist, regitin, into the PVN blocked the urinary excretion, and reduced the water and sodium intake, sodium intake, and pressor responses induced by ANG II injected into the MSA.	Water	135-140	angiotensinogen	Homo sapiens	208-214	
11259763-1	2001	Angiotensin II (ANG-II) and atrial natriuretic peptide (ANP) have opposing actions on water and salt intake and excretion.	Water	86-91	angiotensinogen	Homo sapiens	0-14	
11259763-1	2001	Angiotensin II (ANG-II) and atrial natriuretic peptide (ANP) have opposing actions on water and salt intake and excretion.	Water	86-91	angiotensinogen	Homo sapiens	16-22	
11259763-5	2001	Injection of ANG-II (12.5 ng) into the anteroventral region of the third ventricle (AV3V) at the effective dose to increase water intake increased plasma ANP concentrations (P<0.01) within 5 min.	Water	124-129	angiotensinogen	Homo sapiens	13-19	
11259763-6	2001	As described before, previous injection of phenylephrine (an alpha(1)-adrenergic agonist) or clonidine (an alpha(2)-adrenergic agonist) into the AV3V region significantly reduced ANG-II-induced water intake.	Water	194-199	angiotensinogen	Homo sapiens	179-185	
11259763-8	2001	These results suggest that the inhibitory effect of both alpha-adrenergic agonists on ANG-II-induced water intake can be explained, at least in part, by the increase in ANP content and presumed release from these neural structures.	Water	101-106	angiotensinogen	Homo sapiens	86-92	
11441521-1	2001	Angiotensin II plays an important role in blood pressure control and in water and salt homeosthasis.	Water	72-77	angiotensinogen	Homo sapiens	0-14	
10718175-2	2000	Angiotensin II (A II) is well-known in the systemic control of water and electrolyte homeostasis and haemodynamics, but recent evidence points to an additional local renin-angiotensin system (RAS) with possible long-term trophic effects including carcinogenesis.	Water	63-68	angiotensinogen	Homo sapiens	0-14	
10718175-2	2000	Angiotensin II (A II) is well-known in the systemic control of water and electrolyte homeostasis and haemodynamics, but recent evidence points to an additional local renin-angiotensin system (RAS) with possible long-term trophic effects including carcinogenesis.	Water	63-68	angiotensinogen	Homo sapiens	16-20	
10691781-7	2000	In the gastrointestinal tract, physiological quantities of ANG II stimulate the AT2 receptor releasing NO and cGMP leading to increased sodium and water absorption.	Water	147-152	angiotensinogen	Homo sapiens	59-65	
10766956-1	2000	We used 206.5-nm excited resonance Raman measurements to examine the angiotensin II (AII) secondary structure in H(2)O in the presence of dodecylphosphocholine (DPC) micelles, sodium dodecylsulfate (SDS) monomers and micelles, and in a 70% acetonitrile (ACN-d)-30% water solution.	Water	113-118	angiotensinogen	Homo sapiens	69-83	
10766956-1	2000	We used 206.5-nm excited resonance Raman measurements to examine the angiotensin II (AII) secondary structure in H(2)O in the presence of dodecylphosphocholine (DPC) micelles, sodium dodecylsulfate (SDS) monomers and micelles, and in a 70% acetonitrile (ACN-d)-30% water solution.	Water	113-118	angiotensinogen	Homo sapiens	85-88	
10904236-5	2000	The renin-angiotensin system (RAS), through the important effector peptide, angiotensin II (Ang II), has potent effects on blood pressure, salt and water homeostasis, and target-organ damage.	Water	148-153	angiotensinogen	Homo sapiens	92-98	
10682705-1	2000	Increasing evidence suggests that Angiotensin II, classically known from its many effects regulating salt and water homeostasis, is also involved in brain development and cognitive functions through activation of AT1 Angiotensin II receptors.	Water	110-115	angiotensinogen	Homo sapiens	34-48	
10682705-1	2000	Increasing evidence suggests that Angiotensin II, classically known from its many effects regulating salt and water homeostasis, is also involved in brain development and cognitive functions through activation of AT1 Angiotensin II receptors.	Water	110-115	angiotensinogen	Homo sapiens	217-231	
10619595-2	1999	Because Ang II affects blood pressure control, sodium and water homeostasis, and cardiovascular function and structure, a great deal of research effort has been directed toward blocking the RAS.	Water	58-63	angiotensinogen	Homo sapiens	8-14	
10619573-4	1999	Angiotensin II also alters renal sodium and water absorption through its ability to stimulate the zona glomerulosa cells of the adrenal cortex to synthesize and secrete aldosterone.	Water	44-49	angiotensinogen	Homo sapiens	0-14	
9855025-2	1998	Because angiotensin II affects blood pressure control, sodium and water homeostasis, and cardiovascular function and structure, a great deal of research effort has been directed toward blocking the renin-angiotensin system.	Water	66-71	angiotensinogen	Homo sapiens	8-22	
10437737-2	1999	Angiotensin II is the principal effector hormone in the RAS, causing vasoconstriction and increased sodium and water retention, leading to increased blood pressure.	Water	111-116	angiotensinogen	Homo sapiens	0-14	
10750587-1	1999	Angiotensin II modulates beat-to-beat cardiac performance as a potent vasocontrictor, inotrope, and regulator of water and electrolyte balance.	Water	113-118	angiotensinogen	Homo sapiens	0-14	
10372513-7	1999	Phenylephrine increased the dipsogenic responses produced by ANG II, whereas previous treatment with clonidine injected into the LH reduced the water intake induced by ANG II administration into the SFO.	Water	144-149	angiotensinogen	Homo sapiens	168-174	
9809195-12	1998	Higher levels of AngII in the bloodstream activate additional neurons in the outer parts of the SFO that connect to the supraoptic, paraventricular and median preoptic nuclei and these probably mediate water drinking and vasopressin secretion induced by blood-borne AngII.	Water	202-207	angiotensinogen	Homo sapiens	17-22	
10361429-3	1999	Angiotensin II in the brain increases water and sodium intake, raises blood pressure, attenuates baro-reflex function, and increases vasopressin secretion.	Water	38-43	angiotensinogen	Homo sapiens	0-14	
10372513-0	1999	Effects of the alpha antagonists and agonists injected into the lateral hypothalamus on the water and sodium intake induced by angiotensin II injection into the subfornical organ.	Water	92-97	angiotensinogen	Homo sapiens	127-141	
10372513-1	1999	The subfornical organ (SFO) and the lateral hypothalamus (LH) have been shown to be important for the central action of angiotensin II (ANG II) on water and salt regulation.	Water	147-152	angiotensinogen	Homo sapiens	120-134	
10372513-1	1999	The subfornical organ (SFO) and the lateral hypothalamus (LH) have been shown to be important for the central action of angiotensin II (ANG II) on water and salt regulation.	Water	147-152	angiotensinogen	Homo sapiens	136-142	
10372513-3	1999	The present experiments were conducted to investigate the role of the alpha-adrenergic antagonists and agonists injected into the LH on the water and salt intake elicited by injections of ANG II into the SFO.	Water	140-145	angiotensinogen	Homo sapiens	188-194	
10372513-6	1999	Previous treatment with prazosin and propranolol reduced the water intake induced by ANG II.	Water	61-66	angiotensinogen	Homo sapiens	85-91	
9679185-2	1998	The hypothesis was tested that in hydrated humans the release of arginine vasopressin and angiotensin II is suppressed by water immersion (WI) and that this is a mechanism of the immersion-induced diuresis and natriuresis.	Water	122-127	angiotensinogen	Homo sapiens	90-104	
9692673-2	1998	Neuronal AT1 receptors mediate the stimulatory actions of Ang II on blood pressure, water and salt intake, and secretion of vasopressin.	Water	84-89	angiotensinogen	Homo sapiens	58-64	
9326738-0	1997	Effect of rilmenidine injection into the paraventricular nucleus of the hypothalamus on the water intake induced by application of angiotensin II to the subfornical organ.	Water	92-97	angiotensinogen	Homo sapiens	131-145	
9548645-4	1998	The water absorption response could be induced by intraperitoneal and intracerebroventricular injection of angiotensin II, demonstrating that components of the renin-angiotensin system on both sides of the blood-brain barrier have a dipsogenic function in amphibians.	Water	4-9	angiotensinogen	Homo sapiens	107-121	
9251761-2	1997	These neurons act to inhibit water and salt intake by blocking the action of angiotensin II.	Water	29-34	angiotensinogen	Homo sapiens	77-91	
9248673-7	1997	In addition, an interaction between TGF and angiotensin II (AngII) seems to be essential to maintaining GFR despite large variations in daily intake of salt and water.	Water	161-166	angiotensinogen	Homo sapiens	44-58	
8738251-0	1996	Role of the alpha 1-, and alpha 2- and beta-adrenoceptors of the median preoptic area on the water intake, renal excretion, and arterial pressure induced by ANG II.	Water	93-98	angiotensinogen	Homo sapiens	157-163	
9296068-12	1997	Angiotensiongen is the substrate of renin, and the renin-angiotensinogen reaction is the first and limiting step in the pathway that leads to production of angiotensin II, a peptide with important effects on blood pressure control and the metabolism of water and sodium.	Water	253-258	angiotensinogen	Homo sapiens	57-72	
9296068-12	1997	Angiotensiongen is the substrate of renin, and the renin-angiotensinogen reaction is the first and limiting step in the pathway that leads to production of angiotensin II, a peptide with important effects on blood pressure control and the metabolism of water and sodium.	Water	253-258	angiotensinogen	Homo sapiens	156-170	
8987761-1	1997	The activation of neurons in the subfornical organ (SFO) by angiotensin II (AngII) is well established and is widely regarded as the basis for the AngII-induced increase in water intake.	Water	173-178	angiotensinogen	Homo sapiens	147-152	
8987761-7	1997	These electrophysiological results suggest an important role for NO in SFO-mediated responses and offer a plausible explanation for the in vivo-observed opposite effects of AngII and NO on water intake.	Water	189-194	angiotensinogen	Homo sapiens	173-178	
9022280-2	1996	Angiotensin II, the end product of the reaction, is an extremely potent vasoconstrictor and a major determinant of salt and water homeostasis.	Water	124-129	angiotensinogen	Homo sapiens	0-14	
21143283-2	1996	The effects of angiotensin II (AngII) on water and electrolyte transport are biphasic and dose-dependent, such that low concentrations (10(-12) to 10(-9) mol/L) stimulate reabsorption and high concentrations (10(-7) to 10(-6) mol/L) inhibit reabsorption.	Water	41-46	angiotensinogen	Homo sapiens	15-29	
21143283-2	1996	The effects of angiotensin II (AngII) on water and electrolyte transport are biphasic and dose-dependent, such that low concentrations (10(-12) to 10(-9) mol/L) stimulate reabsorption and high concentrations (10(-7) to 10(-6) mol/L) inhibit reabsorption.	Water	41-46	angiotensinogen	Homo sapiens	31-36	
8987761-1	1997	The activation of neurons in the subfornical organ (SFO) by angiotensin II (AngII) is well established and is widely regarded as the basis for the AngII-induced increase in water intake.	Water	173-178	angiotensinogen	Homo sapiens	60-74	
8987761-1	1997	The activation of neurons in the subfornical organ (SFO) by angiotensin II (AngII) is well established and is widely regarded as the basis for the AngII-induced increase in water intake.	Water	173-178	angiotensinogen	Homo sapiens	76-81	
8738251-2	1996	Prazosin (an alpha 1-adrenergic receptor antagonist) and yohimbine (an alpha 2-adrenergic receptor antagonist) antagonized the water ingestion, Na+, K+, and urine excretion induced by ANG II.	Water	127-132	angiotensinogen	Homo sapiens	184-190	
8993849-2	1996	The effects of angiotensin II (AngII) on water and electrolyte transport are biphasic and dose-dependent, such that low concentrations (10(-12) to 10(-9) mol/L) stimulate reabsorption and high concentrations (10(-7) to 10(-6) mol/L) inhibit reabsorption.	Water	41-46	angiotensinogen	Homo sapiens	15-29	
8993849-2	1996	The effects of angiotensin II (AngII) on water and electrolyte transport are biphasic and dose-dependent, such that low concentrations (10(-12) to 10(-9) mol/L) stimulate reabsorption and high concentrations (10(-7) to 10(-6) mol/L) inhibit reabsorption.	Water	41-46	angiotensinogen	Homo sapiens	31-36	
8105791-8	1993	Angiotensin II releases vasopressin; this could explain water intoxication, which occurs later in the syndrome.	Water	56-61	angiotensinogen	Homo sapiens	0-14	
8617893-8	1996	Previous work from this laboratory reported that osmotic water permeability in the skin of the toad Bufo arenarum was increased by angiotensin II, the effect being blocked by the peptide antagonist Leu8 angiotensin II.	Water	57-62	angiotensinogen	Homo sapiens	131-145	
8617893-8	1996	Previous work from this laboratory reported that osmotic water permeability in the skin of the toad Bufo arenarum was increased by angiotensin II, the effect being blocked by the peptide antagonist Leu8 angiotensin II.	Water	57-62	angiotensinogen	Homo sapiens	203-217	
7611515-2	1995	ANG II (10 ng) microinjected into the OCPLT significantly increased water consumption but did not induce intake of a hypertonic (3%) NaCl solution.	Water	68-73	angiotensinogen	Homo sapiens	0-6	
7611515-6	1995	These findings suggest that water intake produced by microinjection of ANG II into the OCPLT is mediated by AT1 receptors uniquely and that, in contrast to other regions of the brain, these receptors do not induce salt intake when stimulated by ANG II.	Water	28-33	angiotensinogen	Homo sapiens	71-77	
7624014-1	1995	Angiotensin II (ANGII) is known to activate neurons in the subfornical organ (SFO) of mammals and birds and this activation is regarded as the basis for the ANGII induced increase in water intake.	Water	183-188	angiotensinogen	Homo sapiens	0-14	
7624014-1	1995	Angiotensin II (ANGII) is known to activate neurons in the subfornical organ (SFO) of mammals and birds and this activation is regarded as the basis for the ANGII induced increase in water intake.	Water	183-188	angiotensinogen	Homo sapiens	16-21	
7624014-1	1995	Angiotensin II (ANGII) is known to activate neurons in the subfornical organ (SFO) of mammals and birds and this activation is regarded as the basis for the ANGII induced increase in water intake.	Water	183-188	angiotensinogen	Homo sapiens	157-162	
7624014-3	1995	These data, in combination with the histochemical detection of NO synthase in the duck SFO, demonstrate the involvement of NO in SFO mediated responses and might represent the cellular basis for the observed opposite effects of ANGII and NO on water intake.	Water	244-249	angiotensinogen	Homo sapiens	228-233	
8590217-1	1995	The peptide hormones angiotensin II and vasopressin play a major role in water and electrolyte homeostasis.	Water	73-78	angiotensinogen	Homo sapiens	21-35	
7634256-3	1994	Angiotensin II and renin also regulate the input of water and salt through an unequivocal dipsogenic effect.	Water	52-57	angiotensinogen	Homo sapiens	0-14	
8203370-3	1994	Mechanisms by which angiotensin II, hypokalemia, and proteinuria can affect salt and water balances, and the role of angiotensin II as a cause of heavy proteinuria are discussed.	Water	85-90	angiotensinogen	Homo sapiens	20-34	
1516268-4	1992	The effects of AII on water and electrolyte transport are biphasic and dose-dependent, such that low concentrations (10(-12)-10(-9) mol/L) stimulate reabsorption whereas high concentrations (10(-7)-10(-6) mol/L) inhibit reabsorption.	Water	22-27	angiotensinogen	Homo sapiens	15-18	
8396270-9	1993	As well, change in osmolality and/or angiotensin II level, associated with alterations in water and electrolyte balance, act as stimuli to ventilation and interact with chemical control.	Water	90-95	angiotensinogen	Homo sapiens	37-51	
1336524-8	1992	Angiotensin II alone also increased fractional reabsorption of sodium delivered to the distal nephron, as evaluated by both the CLi method and by estimation of solute-free water clearance.	Water	172-177	angiotensinogen	Homo sapiens	0-14	
1614946-0	1992	Response to angiotensin II after selective lesioning of brain regions believed to be involved in water intake regulation.	Water	97-102	angiotensinogen	Homo sapiens	12-26	
1614946-9	1992	Feed intake was suppressed and water intake increased by ANGII injection.	Water	31-36	angiotensinogen	Homo sapiens	57-62	
1614946-10	1992	The present study indicates that the SFO, but not the OVLT, plays a role in ANGII-induced water intake in broiler chicks.	Water	90-95	angiotensinogen	Homo sapiens	76-81	
1516268-2	1992	Independent of its effects on renal haemodynamics and glomerular filtration, angiotensin II (AII) has direct actions on the proximal tubule involving transepithelial Na+, H+, HCO3-, and water reabsorption, ammoniagenesis, gluconeogenesis and renal growth.	Water	186-191	angiotensinogen	Homo sapiens	77-91	
1516268-2	1992	Independent of its effects on renal haemodynamics and glomerular filtration, angiotensin II (AII) has direct actions on the proximal tubule involving transepithelial Na+, H+, HCO3-, and water reabsorption, ammoniagenesis, gluconeogenesis and renal growth.	Water	186-191	angiotensinogen	Homo sapiens	93-96	
1654278-1	1991	The interaction of Zn2+ with angiotensin I, a decapeptide containing two histidyl residues, has been studied by 1H-NMR spectroscopy in both water and dimethylsulfoxide.	Water	140-145	angiotensinogen	Homo sapiens	29-42	
1652115-6	1991	In conclusion, reduced water and sodium excretion after frusemide in the nephrotic syndrome is accompanied by a diminished reduction of blood volume, a delayed decrease in atrial natriuretic peptide, and a blunted increase in angiotensin II and aldosterone compared with healthy subjects.	Water	23-28	angiotensinogen	Homo sapiens	226-240	
34575135-5	2021	In addition, ET-1 is involved in the complex regulation of BP through synergistic interactions with angiotensin II, regulates the production of catecholamines and sympathetic activity, affects renal hemodynamics and water-salt balance, and regulates baroreceptor activity and myocardial contractility.	Water	216-221	angiotensinogen	Homo sapiens	100-114	
2185149-1	1990	Angiotensin II has recently been shown to exert potent control over sodium and water absorption in the proximal convoluted tubule.	Water	79-84	angiotensinogen	Homo sapiens	0-14	
2188439-2	1990	This class of agents effectively inhibits the conversion of angiotensin I to the active vasoconstrictor angiotensin II, a hormone that also promotes, via aldosterone stimulation, increased sodium and water retention.	Water	200-205	angiotensinogen	Homo sapiens	60-73	
2188439-2	1990	This class of agents effectively inhibits the conversion of angiotensin I to the active vasoconstrictor angiotensin II, a hormone that also promotes, via aldosterone stimulation, increased sodium and water retention.	Water	200-205	angiotensinogen	Homo sapiens	104-118	
2532457-4	1989	In many physiologic situations including postural changes, volume expansion, water immersion, high altitude, and lower body negative pressure, the plasma levels of ANP and angiotensin II change inversely.	Water	77-82	angiotensinogen	Homo sapiens	172-186	
2626449-1	1989	The subfornical organ plays a role in a number of the effects of blood-borne angiotensin II (ANG II) including the increase in water drinking and blood pressure and the release of vasopressin from the pituitary.	Water	127-132	angiotensinogen	Homo sapiens	77-91	
2626449-5	1989	This effect was not due to a lesion-induced change in the pharmacokinetics of alcohol and was observed only in those animals whose lesions produced a functional deficit, i.e., abolishing the increase in water drinking produced by ANG II.	Water	203-208	angiotensinogen	Homo sapiens	230-236	
2626449-1	1989	The subfornical organ plays a role in a number of the effects of blood-borne angiotensin II (ANG II) including the increase in water drinking and blood pressure and the release of vasopressin from the pituitary.	Water	127-132	angiotensinogen	Homo sapiens	93-99	
2655608-2	1989	Angiotensin II (AII) acts as a potent pressor agent directly, by virtue of its vasoconstrictor activity and indirectly, by the volume expansion resulting from stimulation of aldosterone release from the adrenal cortex, leading to sodium and water retention.	Water	241-246	angiotensinogen	Homo sapiens	0-14	
2736884-12	1989	ANG II also reduced fractional distal delivery [(sodium clearance plus free water clearance) divided by creatinine clearance], another measure of proximal tubular outflow.	Water	76-81	angiotensinogen	Homo sapiens	0-6	
2727248-1	1989	Angiotensin II (AII; 300 ng) injected into the lateral cerebral ventricle produced significant drinking responses and also stimulated release of lysine vasopressin (LVP) in conscious, water replete, unrestrained minipigs.	Water	184-189	angiotensinogen	Homo sapiens	0-14	
2727248-1	1989	Angiotensin II (AII; 300 ng) injected into the lateral cerebral ventricle produced significant drinking responses and also stimulated release of lysine vasopressin (LVP) in conscious, water replete, unrestrained minipigs.	Water	184-189	angiotensinogen	Homo sapiens	16-19	
2727248-3	1989	At the end of the experiment the level was inversely proportional to the volume of water drunk in response to the AII, and not to changes in plasma osmolality.	Water	83-88	angiotensinogen	Homo sapiens	114-117	
2655608-2	1989	Angiotensin II (AII) acts as a potent pressor agent directly, by virtue of its vasoconstrictor activity and indirectly, by the volume expansion resulting from stimulation of aldosterone release from the adrenal cortex, leading to sodium and water retention.	Water	241-246	angiotensinogen	Homo sapiens	16-19	
2474096-6	1989	Angiotensin II, by its hemodynamic and tubular effects, modulates renal sodium and water excretion and has an important role in blood pressure regulation.	Water	83-88	angiotensinogen	Homo sapiens	0-14	
2965232-3	1987	In this study we investigated a further possible interaction between ANP and angiotensin II (ANG II) in the control of renal water and electrolyte excretion.	Water	125-130	angiotensinogen	Homo sapiens	77-91	
2965633-0	1988	Effects of angiotensin II and atrial natriuretic peptide alone and in combination on urinary water and electrolyte excretion in man.	Water	93-98	angiotensinogen	Homo sapiens	11-25	
2965232-3	1987	In this study we investigated a further possible interaction between ANP and angiotensin II (ANG II) in the control of renal water and electrolyte excretion.	Water	125-130	angiotensinogen	Homo sapiens	93-99	
2965232-7	1987	These results suggest that ANP and ANG II interact within the kidney in the control of water and electrolyte excretion.	Water	87-92	angiotensinogen	Homo sapiens	35-41	
3555207-3	1987	Clinical consequences of these neurohumoral changes are: excessive increase of aortic impedance and myocardial work, salt and water retention a processus which is angiotensin II-dependent, and eventually, hyponatremia.	Water	126-131	angiotensinogen	Homo sapiens	163-177	
3035468-7	1987	Renal effects of angiotensin II and aldosterone are responsible for sodium and water retention.	Water	79-84	angiotensinogen	Homo sapiens	17-31	
3037891-2	1987	Angiotensin II supported systemic BP by direct systemic vasoconstriction, by facilitating the central and peripheral effects of the sympathetic nervous system, by promoting renal sodium retention by the production of aldosterone, and by increasing total body water by enhancing thirst and the synthesis of vasopressin.	Water	259-264	angiotensinogen	Homo sapiens	0-14	
3025536-0	1986	Enhancing effects of angiotensin I on the vasopressin-stimulated water flow of toad bladder through increased cyclic AMP in mucosal cells.	Water	65-70	angiotensinogen	Homo sapiens	21-34	
3025536-2	1986	Angiotensin I at concentrations of 10(-6) and 10(-7) M enhanced the water flow, but angiotensin II failed to do so at these concentrations.	Water	68-73	angiotensinogen	Homo sapiens	0-13	
3025536-6	1986	These results indicate that angiotensin I enhances vasopressin-stimulated water flow by increasing cyclic AMP production in bladder cells and that angiotensin II may possibly interfere with angiotensin I in a competitive manner.	Water	74-79	angiotensinogen	Homo sapiens	28-41	
3769519-1	1986	Because cholecystokinin octapeptide and angiotensin II are directly involved in intestinal food and water absorption, the effect of these two compounds on intestinal motor responses of hibernating and alert 13-lined ground squirrels was investigated.	Water	100-105	angiotensinogen	Homo sapiens	40-54	
3536587-2	1986	Recent studies, however, have demonstrated that in several forms of chronic hypertension caused by aldosterone, angiotensin II (AngII), vasopressin, or norepinephrine and adrenocorticotropin, increased renal arterial pressure is essential for maintaining normal excretion of sodium and water in the face of reduced renal excretory capability.	Water	286-291	angiotensinogen	Homo sapiens	128-133	
3514280-7	1986	Thus, the intrarenal effects of AngII provide a mechanism for stabilizing the GFR and excretion of metabolic waste products while causing sodium and water retention, thereby helping to regulate body fluid volumes and arterial pressure.	Water	149-154	angiotensinogen	Homo sapiens	32-37	
6325596-1	1984	The interaction between human angiotensin-II and Mn(II) ions in water solution has been delineated by nmr and esr experiments.	Water	64-69	angiotensinogen	Homo sapiens	30-44	
2943141-12	1986	Angiotensin II exerts about the same effects as norepinephrine--vasoconstriction, rerouting of blood within the kidney and preferential vasoconstriction of the efferent arterioles--all changes contributing to the retention of salt and water.	Water	235-240	angiotensinogen	Homo sapiens	0-14	
3887946-4	1985	Micropuncture and microperfusion studies have demonstrated that proximal tubular sodium and water transport are stimulated by physiological concentrations (10(-12) to 10(-10) M) of ANG II on the peritubular side, whereas higher doses (10(-7) M) cause inhibition.	Water	92-97	angiotensinogen	Homo sapiens	181-187	
2579567-1	1985	Receptor occupation by a variety of Ca2+-mobilizing hormones, such as alpha 1-adrenergic agents, vasopressin and angiotensin II, causes a rapid phosphodiesterase-mediated hydrolysis of phosphatidylinositol-4,5-bisphosphate in the plasma membrane with the production of the water soluble compound myo-inositol-1,4,5-trisphosphate (IP3) and the lipophilic molecule 1,2-diacylglycerol (DG).	Water	273-278	angiotensinogen	Homo sapiens	113-127	
3519238-5	1986	Water loading-induced suppression of Ang II and AVP was inhibited by captopril therapy.	Water	0-5	angiotensinogen	Homo sapiens	37-43	
3893156-2	1985	At low doses, ANG II stimulates sodium (Na) and water absorption from all intestinal areas.	Water	48-53	angiotensinogen	Homo sapiens	14-20	
3893156-8	1985	ANG II also exerts a dose-dependent dual action on intestinal ion and water absorption in vitro.	Water	70-75	angiotensinogen	Homo sapiens	0-6	
6824944-0	1983	Chronic infusion of angiotensin II into the olfactory bulb elicits an increase in water intake.	Water	82-87	angiotensinogen	Homo sapiens	20-34	
6824944-1	1983	Chronic infusion of angiotensin II (ANG II) into the olfactory bulb (OB) elicited a moderate dipsogenesis which occurred only during the dark phase, essentially doubling the water-to-food intake ratio.	Water	174-179	angiotensinogen	Homo sapiens	20-34	
6824944-1	1983	Chronic infusion of angiotensin II (ANG II) into the olfactory bulb (OB) elicited a moderate dipsogenesis which occurred only during the dark phase, essentially doubling the water-to-food intake ratio.	Water	174-179	angiotensinogen	Homo sapiens	36-42	
6824944-2	1983	Removal of the food from the ANG II-OB group reduced water consumption to the level of the saline-infused/food-deprived controls.	Water	53-58	angiotensinogen	Homo sapiens	29-35	
7248274-2	1981	The peptide amide hydrogen exchange rate of human angiotensin II in H2O have been measured at room temperature by the transfer of solvent saturation method.	Water	68-71	angiotensinogen	Homo sapiens	50-64	
7129754-4	1982	The comparison of computed and experimental properties related to non radiative energy transfer of angiotensin II analogs, assuming that an ensemble of conformers is a satisfactory representation of the state of these molecules in water, provides further support for the model.	Water	231-236	angiotensinogen	Homo sapiens	99-113	
6802291-5	1982	At the higher dose of the diuretic this fall in blood pressure correlated with weight loss, suggesting that when the diuretic-induced compensatory rise in angiotensin II is prevented by captopril the fall in blood pressure becomes dependent on loss of sodium and water.	Water	263-268	angiotensinogen	Homo sapiens	155-169	
6764737-11	1982	Severe volume depletion may induce RAS hyperactivity to such an extent that generated angiotensin II stimulates the ADH release and water intake.	Water	132-137	angiotensinogen	Homo sapiens	86-100	
7428699-0	1980	Stimulation of intestinal sodium and water transport in vivo by angiotensin II and analogs.	Water	37-42	angiotensinogen	Homo sapiens	64-78	
7212095-3	1981	Although there are without question multiple mediators of thirst associated with extracellular thirst challenges, one of the major factors responsible for water intake has been hypothesized to be the action of angiotensin II.	Water	155-160	angiotensinogen	Homo sapiens	210-224	
7212095-1	1981	The systemic administration of angiotensin II or its precursors will result in increased water intake.	Water	89-94	angiotensinogen	Homo sapiens	31-45	
4375541-0	1974	Effect of ablation of the subfornical organ on water intake elicited by systemically administered angiotensin-II.	Water	47-52	angiotensinogen	Homo sapiens	98-112	
19604991-3	1977	Even after a delay of 1.0 h, A-II-injected animals showed increased water consumption compared to controls.	Water	68-73	angiotensinogen	Homo sapiens	29-33	
19604991-4	1977	Animals injected with A-II and tested immediately consumed significantly more water than the 1 h delay animals.	Water	78-83	angiotensinogen	Homo sapiens	22-26	
1255068-0	1976	Proceedings: Evidence that the salt- and water-retaining actions of angiotensin II upon the kidney in vivo are not affected by the protein synthesis inhibitor cycloheximide.	Water	41-46	angiotensinogen	Homo sapiens	68-82	
391545-4	1979	Water intake is increased after venous administration of angiotensin-II within physiological concentrations.	Water	0-5	angiotensinogen	Homo sapiens	57-71	
30650-4	1978	Recently, it has been shown that angiotensin II, infused intravenously or through the carotid artery at rates that produce increases in plasma angiotensin II levels similar to those that occur in mild sodium depletion, causes the water-replete animal to drink.	Water	230-235	angiotensinogen	Homo sapiens	33-47	
30650-4	1978	Recently, it has been shown that angiotensin II, infused intravenously or through the carotid artery at rates that produce increases in plasma angiotensin II levels similar to those that occur in mild sodium depletion, causes the water-replete animal to drink.	Water	230-235	angiotensinogen	Homo sapiens	143-157	
191849-2	1976	If the cannulae in the preoptice region were angled to bypass the lateral ventricles water intake elicited by ANG II was less and pretreating the cerebral ventricles with saralasin acetate did not reduce the drinking response.	Water	85-90	angiotensinogen	Homo sapiens	110-116	
1013169-7	1976	Results demonstrate that angiotensin II decreased lever pressing and increased schedule induced water consumption without a concomitant increase in licking.	Water	96-101	angiotensinogen	Homo sapiens	25-39	
1013169-9	1976	Under these conditions angiotensin II increased water consumption.	Water	48-53	angiotensinogen	Homo sapiens	23-37	
4377498-0	1974	Effect of a competitive antagonist (8-leu-angiotensin II) of angiotensin II on sodium and water transport in toad skin.	Water	90-95	angiotensinogen	Homo sapiens	42-56	
4377498-0	1974	Effect of a competitive antagonist (8-leu-angiotensin II) of angiotensin II on sodium and water transport in toad skin.	Water	90-95	angiotensinogen	Homo sapiens	61-75	
14284891-0	1965	[THE EFFECT OF COMBINED INFUSION OF L-NORADRENALINE AND ANGIOTENSIN II ON THE RENAL WATER-ELECTROLYTE EXCRETION IN NORMAL PERSONS.	Water	84-89	angiotensinogen	Homo sapiens	56-70	
4332863-0	1971	Effects of centrally administered angiotensin II on salt and water excretion.	Water	61-66	angiotensinogen	Homo sapiens	34-48	
30702925-2	2019	Previously, our lab showed in vitro heteromer formation between angiotensin II receptor type 1 subtype a (AT1aR) and secretin receptor (SCTR), which is involved in in vivo control of hyperosmolality-induced water drinking behavior.	Water	207-212	angiotensinogen	Homo sapiens	64-78	
31237219-5	2020	RESULTS: Angiotensin II (ANG II), beside stimulating aldosterone, vasopressin and CRH-ACTH release, sodium and water retention, thirst, and sympathetic nerve activity, exerts its effects on the immune system via the Angiotensin Type 1 Receptor (AT 1R) that is located in the brain, pituitary adrenal gland, and kidney.	Water	111-116	angiotensinogen	Homo sapiens	9-23	
31237219-5	2020	RESULTS: Angiotensin II (ANG II), beside stimulating aldosterone, vasopressin and CRH-ACTH release, sodium and water retention, thirst, and sympathetic nerve activity, exerts its effects on the immune system via the Angiotensin Type 1 Receptor (AT 1R) that is located in the brain, pituitary adrenal gland, and kidney.	Water	111-116	angiotensinogen	Homo sapiens	25-31	
33745438-17	2021	CONCLUSION: Hormonal imbalance between ANG II, VP, and SNS may induce hypertension and impaired water-electrolyte balance in cardiovascular diseases.	Water	96-101	angiotensinogen	Homo sapiens	39-45	
30702925-5	2019	The results from this study not only are consistent with our hypothesis that SCT and ANGII interact at the receptor level to mediate their water homeostatic activities but also provide evidence for in vivo functions of cross-class GPCR heteromers.-Mak, S. O. K., Zhang, L., Chow, B. K. C. In vivo actions of SCTR/AT1aR heteromer in controlling Vp expression and release via cFos/cAMP/CREB pathway in magnocellular neurons of PVN.	Water	139-144	angiotensinogen	Homo sapiens	85-90	
27279485-4	2017	Some of the better-characterized regulators of water and salt homeostasis include angiotensin II, aldosterone, arginine vasopressin, and oxytocin.	Water	47-52	angiotensinogen	Homo sapiens	82-96	
29556787-6	2018	Thirdly, the cooperative action of Ang II acting on AT1R and AVP stimulating both V1aR and V2 receptors in the kidney is necessary for the appropriate regulation of renal blood flow and the efficient resorption of sodium and water.	Water	225-230	angiotensinogen	Homo sapiens	35-41	
29556787-8	2018	In this review, we (1) point attention to the role of the cooperative action of Ang II and AVP for the regulation of blood pressure and the water-electrolyte balance under physiological conditions, (2) present the subcellular mechanisms underlying interactions of these two peptides, and (3) provide evidence that dysregulation of the cooperative action of Ang II and AVP significantly contributes to the development of disturbances in the regulation of blood pressure and the water-electrolyte balance in cardiovascular diseases.	Water	140-145	angiotensinogen	Homo sapiens	80-86	
29556787-8	2018	In this review, we (1) point attention to the role of the cooperative action of Ang II and AVP for the regulation of blood pressure and the water-electrolyte balance under physiological conditions, (2) present the subcellular mechanisms underlying interactions of these two peptides, and (3) provide evidence that dysregulation of the cooperative action of Ang II and AVP significantly contributes to the development of disturbances in the regulation of blood pressure and the water-electrolyte balance in cardiovascular diseases.	Water	477-482	angiotensinogen	Homo sapiens	80-86