PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
31495858-5	2019	The device could effectively homogenize DI water and fluorescein within a mixing length of 25.2 mum up to a flow rate of 116 muL min-1 at a driving voltage of 40 Vpp, corresponding to a mixing time of 0.8 ms.	Water	43-48	CD59 molecule (CD59 blood group)	Homo sapiens	129-134	
30726978-4	2019	The measured incident energy of the alpha-particles was 3.3 +- 0.5 MeV (LET in water = 120 keV mum-1), with a maximum incident dose rate of 1.28 +- 0.02 Gy min-1, which for a 5 mum cell monolayer corresponds to a mean dose rate of 1.57 +- 0.02 Gy min-1 and a mean LET in water of 154 keV mum-1.	Water	271-276	CD59 molecule (CD59 blood group)	Homo sapiens	156-161	
31160095-5	2019	A sheath liquid composed of isopropanol - water - acetic acid with a flow rate of 10 muL min-1 and mild MS conditions allowed optimal signal intensities.	Water	42-47	CD59 molecule (CD59 blood group)	Homo sapiens	89-94	
30949471-4	2019	Ni-Zn/SiO2 showed a high catalytic activity when water was used as a solvent, where the reaction was completed within 6 min at room temperature with a specific reaction rate of 4.3 ml min-1 mmol-cat-1 mM-AB-1.	Water	49-54	CD59 molecule (CD59 blood group)	Homo sapiens	184-189	
30455014-9	2018	In addition, the increased air-flow rates greatly accelerated water removal with high bio-energy efficiencies, especially at 0.8 L min-1 kg-1.	Water	62-67	CD59 molecule (CD59 blood group)	Homo sapiens	131-141	
30242837-10	2018	We found that (1) plasma hyperosmolality suppressed both components in hyperthermia, (2) the suppression was released by drinking 200 mL of water simultaneously with enhanced cutaneous vasodilatation and sweating responses, and (3) a rapid infusion at 1.0 and 0.2 ml min-1  kg-1 for the first 10 min and the following 20 min, respectively, increased the synchronized component and cutaneous vasodilatation in diuretic-induced hypovolaemia greater than those in a time control; at 0.1 ml min-1  kg-1 for 30 min no greater increases in the non-synchronized component and sweating responses were observed during rapid infusion than in the time control.	Water	140-145	CD59 molecule (CD59 blood group)	Homo sapiens	267-278	
30242837-10	2018	We found that (1) plasma hyperosmolality suppressed both components in hyperthermia, (2) the suppression was released by drinking 200 mL of water simultaneously with enhanced cutaneous vasodilatation and sweating responses, and (3) a rapid infusion at 1.0 and 0.2 ml min-1  kg-1 for the first 10 min and the following 20 min, respectively, increased the synchronized component and cutaneous vasodilatation in diuretic-induced hypovolaemia greater than those in a time control; at 0.1 ml min-1  kg-1 for 30 min no greater increases in the non-synchronized component and sweating responses were observed during rapid infusion than in the time control.	Water	140-145	CD59 molecule (CD59 blood group)	Homo sapiens	487-498	
30042570-7	2018	The rehydration constant value was found as 16.5 min-1, showing the rapidity with that the water diffused into the powder in the most suitable condition.	Water	91-96	CD59 molecule (CD59 blood group)	Homo sapiens	49-54	
29710576-4	2018	With an external resistance of 7.8 Omega and a water (hot side) flow rate of 75 mL min-1, a maximum normalized energy recovery of 4.5 x 10-4 kWh m-3 was achieved under a 2.8  C temperature gradient (DeltaT).	Water	47-52	CD59 molecule (CD59 blood group)	Homo sapiens	83-88	
29873890-6	2018	The Ir-coordinated assemblies showed a turnover frequency of 13 min-1 , which was comparable to those previously reported for molecular water oxidation catalysts.	Water	136-141	CD59 molecule (CD59 blood group)	Homo sapiens	64-69	
29611289-6	2018	The results show that the apparent kinetic rate constant of catalytic reduction of 4-nitrophenol (4-NP) in water by reductant sodium borohydride (NaBH4 ), is ranging from 3.7 to 37.9 min-1 at temperatures from 20 to 45 oC and the molar ratio of NaBH4 to 4-NP from 100:1 to 500:1.	Water	107-112	CD59 molecule (CD59 blood group)	Homo sapiens	183-188	
30728987-6	2018	The average OP was 8.90 +- 7.15 and 1.41 +- 0.35 and was 11.4 +- 3.97 and 19.9 +- 8.67 (nmol min-1 mug PM10 -1) for water and methanol extracts on dusty and regular days, respectively, with the lowest value occurring on dusty days.	Water	116-121	CD59 molecule (CD59 blood group)	Homo sapiens	93-98	
29567193-4	2018	The analyte solution was injected with an injection valve (2 muL volume) and a ternary solution of water/acetonitrile/ethyl acetate (3:8:2 vol ratio) was delivered as the eluent to the capillary tube at a flow rate of 8.6 muL min-1.	Water	99-104	CD59 molecule (CD59 blood group)	Homo sapiens	226-231	
29709810-5	2018	A continuous aeration rate of 0.5 L kg-1 dry matter min-1 gave the best biodrying performance (the highest water-removal rate, biodrying index, and sorting efficiency, 0.5 kg kg-1, 4.12, and 86.87%, respectively, and the highest lower heat value (LHV) and heat utilization rate, 9440 kJ kg-1 and 68.3%, respectively).	Water	107-112	CD59 molecule (CD59 blood group)	Homo sapiens	52-57	
29709810-6	2018	There was an optimum aeration rate, water loss reaching a maximum at an aeration rate of 0.5 L kg-1 DM min-1 and not increasing further as the aeration rate increased further.	Water	36-41	CD59 molecule (CD59 blood group)	Homo sapiens	103-108	
27977866-10	2017	Groups with flow rates at 1 and 0.5 mL min-1 had a significantly lower temperature rise when compared to the group without water flow (P < 0.001).	Water	123-128	CD59 molecule (CD59 blood group)	Homo sapiens	39-44	
29965683-5	2018	The Freundlich isotherm showed that activated carbon had better adsorption properties for NH4+-N, TP, and permanganate index in water.When the disk speed was 3 r min-1, the removal efficiency was the best, and the removal rates of NH4+-N, TP and permanganate index were the best at 86.05%, 81.28%, and 77.09%, respectively.	Water	128-133	CD59 molecule (CD59 blood group)	Homo sapiens	162-167	
28500969-6	2017	For fresh water, marine culture water and sea water, the reaction rate constant was 0.066 min-1, 0.466 min-1 and 1.241 min-1, respectively.	Water	10-15	CD59 molecule (CD59 blood group)	Homo sapiens	103-114	
28937782-13	2017	CONCLUSIONS:   With cold-water immersion, the cooling rate in CCs (0.255 C min-1) was greater than in FBs (0.156 C min-1); however, both were considered ideal (>=0.155 C min-1).	Water	25-30	CD59 molecule (CD59 blood group)	Homo sapiens	75-80	
28001158-3	2017	Here, we focus on the mechanism of a water-head-driven oscillator and analyze the functions of its flow-switching period (T) and flow rate (Q) in a wide range (0.1 s-5.9 h and 2 muL min-1-2 mL min-1).	Water	37-42	CD59 molecule (CD59 blood group)	Homo sapiens	182-189	
28467070-4	2017	In aqueous media (1% dimethyl sulfoxide in H2O), the two photodecarbonylation steps proceed much more slowly (k1 = 0.46-1.3 min-1 and k2 = 0.026-0.035 min-1, respectively) and the influence of the carboxyl groups is less pronounced.	Water	43-46	CD59 molecule (CD59 blood group)	Homo sapiens	124-129	
28467070-4	2017	In aqueous media (1% dimethyl sulfoxide in H2O), the two photodecarbonylation steps proceed much more slowly (k1 = 0.46-1.3 min-1 and k2 = 0.026-0.035 min-1, respectively) and the influence of the carboxyl groups is less pronounced.	Water	43-46	CD59 molecule (CD59 blood group)	Homo sapiens	151-156	
28259812-7	2017	Reducing the intensity of the solution recirculation from 60 to 10 mL min-1 significantly reduced specific energy consumption of the e-FO system from 0.693 +- 0.127 to 0.022 +- 0.004 kWh m-3 extracted water or from 1.103 +- 0.059 to 0.044 +- 0.002 kWh kg-1 reduced reversed solute.	Water	201-206	CD59 molecule (CD59 blood group)	Homo sapiens	70-75	
28094471-3	2017	The desorption rate of water molecules increases from 10 to 18 mg min-1 , while the diameters of polyacrylonitrile fibers reduce from 1.02 to 0.14 microm.	Water	23-28	CD59 molecule (CD59 blood group)	Homo sapiens	66-71	
28001158-3	2017	Here, we focus on the mechanism of a water-head-driven oscillator and analyze the functions of its flow-switching period (T) and flow rate (Q) in a wide range (0.1 s-5.9 h and 2 muL min-1-2 mL min-1).	Water	37-42	CD59 molecule (CD59 blood group)	Homo sapiens	182-187	
27213514-7	2017	The water consumption rate was approximately 2.35 L min-1, while the total power consumed was 270 W. This study demonstrates that the ESWS could be a potentially effective and feasible tool in controlling PM emissions for commercial poultry facilities.	Water	4-9	CD59 molecule (CD59 blood group)	Homo sapiens	52-57	
28067397-2	2017	This complex promoted chemical and photochemical water oxidation efficiently with turnover frequencies of 0.28 s-1 and 5 min-1, respectively.	Water	49-54	CD59 molecule (CD59 blood group)	Homo sapiens	121-126	
26274605-7	2015	The rate constants for BDE-47 and BDE-28 (9.01 and 17.52 x 10-3 min-1), added to isopropyl alcohol, were very close to those (9.65 and 18.42 x 10-3 min-1) in water, proving the less indirect photolytic contribution of  OH in water.	Water	158-163	CD59 molecule (CD59 blood group)	Homo sapiens	64-69	
26592619-11	2016	The detection limits of 1.2 and 1.6mg L(-1) for benomyl and aldicarb were obtained when the separation was performed at 120 C with flow rate of 0.4mL min(-1) water.	Water	158-163	CD59 molecule (CD59 blood group)	Homo sapiens	150-156	
26053965-6	2015	The maximum flow rates and pressures generated by the pump using DI water as a working buffer are 10 nL min(-1) and 30 Pa, respectively.	Water	65-73	CD59 molecule (CD59 blood group)	Homo sapiens	104-110	
26274605-7	2015	The rate constants for BDE-47 and BDE-28 (9.01 and 17.52 x 10-3 min-1), added to isopropyl alcohol, were very close to those (9.65 and 18.42 x 10-3 min-1) in water, proving the less indirect photolytic contribution of  OH in water.	Water	158-163	CD59 molecule (CD59 blood group)	Homo sapiens	148-153	
26274605-7	2015	The rate constants for BDE-47 and BDE-28 (9.01 and 17.52 x 10-3 min-1), added to isopropyl alcohol, were very close to those (9.65 and 18.42 x 10-3 min-1) in water, proving the less indirect photolytic contribution of  OH in water.	Water	225-230	CD59 molecule (CD59 blood group)	Homo sapiens	64-69	
26274605-7	2015	The rate constants for BDE-47 and BDE-28 (9.01 and 17.52 x 10-3 min-1), added to isopropyl alcohol, were very close to those (9.65 and 18.42 x 10-3 min-1) in water, proving the less indirect photolytic contribution of  OH in water.	Water	225-230	CD59 molecule (CD59 blood group)	Homo sapiens	148-153	
25423832-3	2014	Water was used as mobile phase, the flow rate was 0.7 mL x min(-1), and the temperature was set at 30 C. The evaporated light scattering detector was adopted.	Water	0-5	CD59 molecule (CD59 blood group)	Homo sapiens	59-65	
21994916-4	2011	Under the optimum SPE conditions, all target analytes in 50 mL environmental water samples can be completely extracted by 1.5 mg Nylon 6 nanofibers mat at flow rate of 3.0 mL min(-1) and easily eluted by passage of 500 muL mobile phase.	Water	77-82	CD59 molecule (CD59 blood group)	Homo sapiens	175-181	
24468357-4	2014	The reduction of water content in the carrier gas to 2.2-2.4 g m(-3) and to 1.8-2.0 g m(-3) for the short and long desolvation unit, respectively, was achieved at an electrospray flow rate of 1000 nL min(-1).	Water	17-22	CD59 molecule (CD59 blood group)	Homo sapiens	200-206	
24199617-5	2013	A normalized rate of hydrate formation of 64.48 (+-3.82) mol x min(-1) x m(-3) was obtained at 6.0 MPa and 274.2 K. Based on a morphological study, the mechanism of hydrate formation from water dispersed in interstitial pore space of the porous medium is presented.	Water	188-193	CD59 molecule (CD59 blood group)	Homo sapiens	63-69	
23108344-5	2012	Furthermore, a designed concept test shows that the as-prepared membranes could load 1.5 kg water or oil at the same time maintained an extremely high air permeability of 2 L min(-1), suggesting their use as promising materials for a variety of potential applications in protective clothing, bioseparation, water purification, tissue engineering, microfluidic systems, etc., and also provided new insight into the design and development of functional hybrid membranes based on FPU.	Water	92-97	CD59 molecule (CD59 blood group)	Homo sapiens	175-181	
22494379-6	2012	Based on the model obtained in this study, optimum H(2)O(2) dosage rate and Fe(3+) dosage were found to be 4 mg L(-1) min(-1) and 20 mg L(-1), respectively, for 51 mg L(-1) of carbofuran concentration.	Water	51-56	CD59 molecule (CD59 blood group)	Homo sapiens	118-124	
21299210-4	2011	The pumping of water is efficient: 13 000 water molecules are pumped per reacted electron and 4.8 mL of water are pumped per joule at a flow rate of 0.13 mL min(-1) V(-1) cm(-2), and a flow rate per unit of power is 290 mL min(-1) W(-1).	Water	15-20	CD59 molecule (CD59 blood group)	Homo sapiens	157-163	
21299210-4	2011	The pumping of water is efficient: 13 000 water molecules are pumped per reacted electron and 4.8 mL of water are pumped per joule at a flow rate of 0.13 mL min(-1) V(-1) cm(-2), and a flow rate per unit of power is 290 mL min(-1) W(-1).	Water	15-20	CD59 molecule (CD59 blood group)	Homo sapiens	223-229	
20155763-3	2010	Gamma radiolysis of water was used to generate HO*/O(2)(*-) free radicals (I = 10 Gy.min(-1), dose = 400 Gy).	Water	20-25	CD59 molecule (CD59 blood group)	Homo sapiens	85-91	
19458858-8	2009	With an applied voltage of 2.5 V, the maximum pumping rate for DI water and whole blood were 121 nl min(-1) and 88 nl min(-1), respectively, with a channel cross section of 100 x 50 microm.	Water	66-71	CD59 molecule (CD59 blood group)	Homo sapiens	100-106	
19458858-8	2009	With an applied voltage of 2.5 V, the maximum pumping rate for DI water and whole blood were 121 nl min(-1) and 88 nl min(-1), respectively, with a channel cross section of 100 x 50 microm.	Water	66-71	CD59 molecule (CD59 blood group)	Homo sapiens	118-124	
17896021-2	2007	A fiber-tip cantilever transduces flow rates to optical signal readout, and we demonstrate a dynamic range from 0 to 1500 microL min(-1) for operation in water.	Water	154-159	CD59 molecule (CD59 blood group)	Homo sapiens	129-135	
19420447-7	2009	The vertical rate of growth can reach 300 nm min(-1) in an environment containing argon, hydrogen, and traces of water vapour.	Water	113-118	CD59 molecule (CD59 blood group)	Homo sapiens	45-51	
19713609-2	2009	In medicine and biotechnology the permeability is given usually as the amount of water (ml x cm(-2) x min(-1)) permeating per area and time unit through the material.	Water	81-86	CD59 molecule (CD59 blood group)	Homo sapiens	102-108	
17048623-3	2006	A mixture of water-acetonitrile-sodium dodecyl sulfate-phosphorous acid (650:350:5:1) was used as the mobile phase at flow rate of 1.5 mL x min(-1).	Water	13-18	CD59 molecule (CD59 blood group)	Homo sapiens	140-146	
17134154-6	2006	For a solvent of 50:50 methanol/water (v/v), lowering the flow from 200 to 50 microL min-1 results in a 10x increase in charge exchange ionization efficiency--further flow reductions provide even greater enhancements.	Water	32-37	CD59 molecule (CD59 blood group)	Homo sapiens	85-90	
16094632-6	2005	The membrane was demonstrated to resist physiological transmural pressure (burst pressure resistance >500 mm Hg) and presented a high-water permeation resistance (1 mL/cm(2) min(-1) at 120 mmHg).	Water	137-142	CD59 molecule (CD59 blood group)	Homo sapiens	177-183	
16240034-2	2005	DSC scans of glassy water prepared at 140 K exhibit on heating an endothermic step assignable to glass --> liquid transition, with an onset temperature (T(g)) of 136 +/- 2 K on heating at 30 K min(-1).	Water	20-25	CD59 molecule (CD59 blood group)	Homo sapiens	196-202	
12083551-4	2002	A flow rate of 1.15 ml min(-1) at a column temperature of 43.5 degrees C using 63.7% methanol in water gave the most efficient separation.	Water	97-102	CD59 molecule (CD59 blood group)	Homo sapiens	23-29	
15449549-9	2004	The free water clearance decreased significantly during octreotide administration (3.12 ml/min+/-1.04 SE vs 0.88+/-0.39, p<.03).	Water	9-14	CD59 molecule (CD59 blood group)	Homo sapiens	91-98	
15638162-5	2004	Water samples need a pH adjustment to values lower than 3 units and must be percolated through the cartridges with flow rates over 5 mL min(-1).	Water	0-5	CD59 molecule (CD59 blood group)	Homo sapiens	136-142	
11348089-5	2001	The optimized gas and water flow rates were approximately 1.2 and approximately 14 mL min(-1), respectively, giving a response time of less than 15 min and a CO-extraction yield of approximately 80%.	Water	22-27	CD59 molecule (CD59 blood group)	Homo sapiens	86-92	
12774323-2	2002	METHOD: HPLC method was used, with Alltech C18 column, acetonitrile-methol-water (43:5:52) as mobile phase with a flow rate of 0.8 mL.min-1, detecting wavelength 280 nm, and column temperature 35 degrees C. RESULT: Retained time of 6-gingerol was near 19 min, showing a good recovery (98.2%) and linear correlation (r = 0.9999).	Water	75-80	CD59 molecule (CD59 blood group)	Homo sapiens	134-139	
12580109-3	2001	The mobile phase consisted of acetonitrile-water-formic acid (20:80:1), at a flow-rate of 0.4 mL.min-1.	Water	43-48	CD59 molecule (CD59 blood group)	Homo sapiens	97-102	
11788859-1	2001	The dynamic phase diagrams of the water-ethylene glycol (EG) system have been plotted at the warming rate of 0.4 degrees C/min(-1) after cooling of samples down to -196 degrees C by quenching in liquid nitrogen or slow cooling at the rate of approximately 0.15 degrees C/min(-1).	Water	34-39	CD59 molecule (CD59 blood group)	Homo sapiens	123-129	
12528518-2	2001	METHOD: A RP-HPLC method was set up, using Hypersil-18 column, acetonitrile: water(30:70) as mobile phase with a flow rate of 0.8 ml.min-1.	Water	77-82	CD59 molecule (CD59 blood group)	Homo sapiens	133-138	
10784090-4	2000	Simulated impulse responses from the system, analogous to tracer water outflow dilution curves, showed flow-limited behavior over a range of flows from about 2 to 5 ml min(-1) g(-1), as is observed for water in the heart in vivo.	Water	202-207	CD59 molecule (CD59 blood group)	Homo sapiens	168-174	
18967890-4	2000	A flow-rate of 0.9 ml min(-1) with a water fraction of 0.64 in the ACN-water mixture and a column temperature of 10 degrees C gave the most efficient separation conditions.	Water	37-42	CD59 molecule (CD59 blood group)	Homo sapiens	22-28	
11394278-3	2001	The best pilot plant operational condition was obtained applying only 4.0 g/m3 (S*) with Vh around 18 cm.min-1 for treatment of water coagulated with a Al2(SO4)3 dosage of 40 mg.l-1.	Water	128-133	CD59 molecule (CD59 blood group)	Homo sapiens	105-110	
10909729-2	2000	The rate of OH radical formation from water is 19.8 microM min-1 under argon and 14.7 microM min-1 under air in the same sonolysis conditions.	Water	38-43	CD59 molecule (CD59 blood group)	Homo sapiens	59-64	
10909729-2	2000	The rate of OH radical formation from water is 19.8 microM min-1 under argon and 14.7 microM min-1 under air in the same sonolysis conditions.	Water	38-43	CD59 molecule (CD59 blood group)	Homo sapiens	93-98	
10518920-10	1998	cm-2.min-1/degree C. The results of this study clearly demonstrated the temperature-dependency of flux rates of water across vaginal mucosa, and this should be taken into account whenever the in vitro vaginal/buccal model is used at room temperature for predicting in vivo buccal drug absorption kinetics.	Water	112-117	CD59 molecule (CD59 blood group)	Homo sapiens	5-10	
10709930-6	2000	Lysine uptake occurred by a transport mechanism with a Km of approximately 1.4 mM and a Vmax of 7.9 mmol x kg cell water(-1) x 30 min(-1).	Water	115-120	CD59 molecule (CD59 blood group)	Homo sapiens	130-136	
8547853-10	1995	The water-soluble fraction contained a substance with hRf = 20 which was the same as that of authentic SMFA.	Water	4-9	CD59 molecule (CD59 blood group)	Homo sapiens	54-62	
9721005-7	1998	Following repeated immersions in water at 15 degrees C, the fR, VI and fH responses of the H group over the first 30 s of immersion were reduced (P < 0.01) from 33.3 breaths x min(-1), 50.5 l x min(-1) and 114 beats x min(-1) respectively, to 19.8 breaths x min(-1) 26.41 x min(-1) and 98 beats x min(-1), respectively.	Water	33-38	CD59 molecule (CD59 blood group)	Homo sapiens	179-185	
9721005-7	1998	Following repeated immersions in water at 15 degrees C, the fR, VI and fH responses of the H group over the first 30 s of immersion were reduced (P < 0.01) from 33.3 breaths x min(-1), 50.5 l x min(-1) and 114 beats x min(-1) respectively, to 19.8 breaths x min(-1) 26.41 x min(-1) and 98 beats x min(-1), respectively.	Water	33-38	CD59 molecule (CD59 blood group)	Homo sapiens	197-203	
9721005-7	1998	Following repeated immersions in water at 15 degrees C, the fR, VI and fH responses of the H group over the first 30 s of immersion were reduced (P < 0.01) from 33.3 breaths x min(-1), 50.5 l x min(-1) and 114 beats x min(-1) respectively, to 19.8 breaths x min(-1) 26.41 x min(-1) and 98 beats x min(-1), respectively.	Water	33-38	CD59 molecule (CD59 blood group)	Homo sapiens	197-203	
9721005-7	1998	Following repeated immersions in water at 15 degrees C, the fR, VI and fH responses of the H group over the first 30 s of immersion were reduced (P < 0.01) from 33.3 breaths x min(-1), 50.5 l x min(-1) and 114 beats x min(-1) respectively, to 19.8 breaths x min(-1) 26.41 x min(-1) and 98 beats x min(-1), respectively.	Water	33-38	CD59 molecule (CD59 blood group)	Homo sapiens	197-203	
9721005-7	1998	Following repeated immersions in water at 15 degrees C, the fR, VI and fH responses of the H group over the first 30 s of immersion were reduced (P < 0.01) from 33.3 breaths x min(-1), 50.5 l x min(-1) and 114 beats x min(-1) respectively, to 19.8 breaths x min(-1) 26.41 x min(-1) and 98 beats x min(-1), respectively.	Water	33-38	CD59 molecule (CD59 blood group)	Homo sapiens	197-203	
9721005-7	1998	Following repeated immersions in water at 15 degrees C, the fR, VI and fH responses of the H group over the first 30 s of immersion were reduced (P < 0.01) from 33.3 breaths x min(-1), 50.5 l x min(-1) and 114 beats x min(-1) respectively, to 19.8 breaths x min(-1) 26.41 x min(-1) and 98 beats x min(-1), respectively.	Water	33-38	CD59 molecule (CD59 blood group)	Homo sapiens	197-203	
9721005-8	1998	In water at 10 degrees C these responses were reduced (P < 0.01) from 47.3 breaths x min(-1), 67.61 x min(-1) and 128 beats x min(-1) to 24.0 breaths x min(-1), 29.5 l x min(-1) and 109 beats x min(-1), respectively over a corresponding period of immersion.	Water	3-8	CD59 molecule (CD59 blood group)	Homo sapiens	88-94	
8780523-3	1996	Evidence for Mn2+ as an electrophilic catalyst was supported by the observation that the nonenzymatic transfer of L-fucose from GDP-Fuc to the hydroxyl group of water in the presence of 10 mM MnCl2 at 20 degrees C was accelerated from K(obs)= 3.5 x 10(-6) to 3.8 x 10(-5) min-1.	Water	161-166	CD59 molecule (CD59 blood group)	Homo sapiens	272-277	
9721005-8	1998	In water at 10 degrees C these responses were reduced (P < 0.01) from 47.3 breaths x min(-1), 67.61 x min(-1) and 128 beats x min(-1) to 24.0 breaths x min(-1), 29.5 l x min(-1) and 109 beats x min(-1), respectively over a corresponding period of immersion.	Water	3-8	CD59 molecule (CD59 blood group)	Homo sapiens	105-111	
9721005-8	1998	In water at 10 degrees C these responses were reduced (P < 0.01) from 47.3 breaths x min(-1), 67.61 x min(-1) and 128 beats x min(-1) to 24.0 breaths x min(-1), 29.5 l x min(-1) and 109 beats x min(-1), respectively over a corresponding period of immersion.	Water	3-8	CD59 molecule (CD59 blood group)	Homo sapiens	105-111	
9721005-8	1998	In water at 10 degrees C these responses were reduced (P < 0.01) from 47.3 breaths x min(-1), 67.61 x min(-1) and 128 beats x min(-1) to 24.0 breaths x min(-1), 29.5 l x min(-1) and 109 beats x min(-1), respectively over a corresponding period of immersion.	Water	3-8	CD59 molecule (CD59 blood group)	Homo sapiens	105-111	
9721005-8	1998	In water at 10 degrees C these responses were reduced (P < 0.01) from 47.3 breaths x min(-1), 67.61 x min(-1) and 128 beats x min(-1) to 24.0 breaths x min(-1), 29.5 l x min(-1) and 109 beats x min(-1), respectively over a corresponding period of immersion.	Water	3-8	CD59 molecule (CD59 blood group)	Homo sapiens	105-111	
9721005-8	1998	In water at 10 degrees C these responses were reduced (P < 0.01) from 47.3 breaths x min(-1), 67.61 x min(-1) and 128 beats x min(-1) to 24.0 breaths x min(-1), 29.5 l x min(-1) and 109 beats x min(-1), respectively over a corresponding period of immersion.	Water	3-8	CD59 molecule (CD59 blood group)	Homo sapiens	105-111	
21639331-3	1997	The background due to diffusion of water from the air was normally in the range 0.3-0.9 mug of water min(-1) depending on environmental humidity.	Water	35-40	CD59 molecule (CD59 blood group)	Homo sapiens	101-107	
21639331-3	1997	The background due to diffusion of water from the air was normally in the range 0.3-0.9 mug of water min(-1) depending on environmental humidity.	Water	95-100	CD59 molecule (CD59 blood group)	Homo sapiens	101-107	
9074995-8	1997	Examples from a recording of a 13-wk-old full-term infant obtained by using the system give evaporative water loss rates of approximately 0.02 mgH2O.cm-2.min-1 for normothermic baseline conditions and values up to 0.4 mgH2O.cm-2.	Water	104-109	CD59 molecule (CD59 blood group)	Homo sapiens	154-159	
8752313-5	1996	The rates of formation of both hydrogen atoms and hydroxyl radicals were estimated to be equal to 25 microM min-1 in the sonolysis of pure water under argon.	Water	139-144	CD59 molecule (CD59 blood group)	Homo sapiens	108-113	
8599674-1	1995	For hydrated metmyoglobin, methemoglobin, and lysozyme powders, the freezable water fraction of between approximately 0.3-0.4 g water/g protein up to approximately 0.7-0.8 g water/g protein has been fully vitrified by cooling at rates up to approximately 1500 K min-1 and the influence of cooling rate characterized by x-ray diffractograms.	Water	78-83	CD59 molecule (CD59 blood group)	Homo sapiens	262-267	
8599674-3	1995	Measurements by differential scanning calorimetry have shown that this vitreous but freezable water fraction undergoes, on reheating at a rate of 30 K min-1, a glass-->liquid transition with an onset temperature of between approximately 164 and approximately 174 K, with a width of between approximately 9 and approximately 16 degrees and an increase in heat capacity of between approximately 20 and approximately 40 J K-1 (mol of freezable water)-1 but that the glass transition disappears upon crystallization of the freezable water.	Water	94-99	CD59 molecule (CD59 blood group)	Homo sapiens	151-156	
7985515-4	1994	A mixture of acetonitrile and water (80: 20) as mobile phase was used at a flow rate of 1 ml.min-1.	Water	30-35	CD59 molecule (CD59 blood group)	Homo sapiens	93-98	
8262701-5	1993	However, at similar lactate levels, heart rate during rowing on the water was approximately 10 beats.min-1 higher than during the ergometer multistage step test, due to the different duration of exercise.	Water	68-73	CD59 molecule (CD59 blood group)	Homo sapiens	101-106	
8287854-6	1993	The average ventilation rate at this workload is below 25 l.min-1, with predicted inspiratory mouth pressure equal to, or less than, 20 mm H2O.	Water	139-142	CD59 molecule (CD59 blood group)	Homo sapiens	60-65	
1572354-7	1992	The expression of lactate dehydrogenase activity in the low-water system was higher with the heart than with the muscle enzyme compared to their activities in all-water media (about 260 and 600 mumol min-1 mg-1 in the heart and muscle enzymes respectively).	Water	60-65	CD59 molecule (CD59 blood group)	Homo sapiens	200-210	
1435164-5	1992	For a given VO2, heart rate was 8-11 beats.min-1 lower during water running than during treadmill running, irrespective of exercise intensity.	Water	62-67	CD59 molecule (CD59 blood group)	Homo sapiens	43-48	
35398811-6	2022	The in vitro heat transfer experiment showed that the BHE efficiently cooled the simulated blood from the initial 37  C-5.8  C within 150 s by using cold water (200 ml min-1, 0  C).	Water	154-159	CD59 molecule (CD59 blood group)	Homo sapiens	168-179	
1951063-3	1991	Under similar conditions, however, the rate of hydrolysis for tetramethoxysilane in deionized water was measured to be considerably slower (k = 0.022 min-1; t 1/2 = 32 min) than that of trimethoxysilane (k greater than 8.1 min-1, t 1/2 less than 0.09 min).	Water	94-99	CD59 molecule (CD59 blood group)	Homo sapiens	150-155	
1951063-3	1991	Under similar conditions, however, the rate of hydrolysis for tetramethoxysilane in deionized water was measured to be considerably slower (k = 0.022 min-1; t 1/2 = 32 min) than that of trimethoxysilane (k greater than 8.1 min-1, t 1/2 less than 0.09 min).	Water	94-99	CD59 molecule (CD59 blood group)	Homo sapiens	223-228	
1951063-4	1991	However, the rates of hydrolysis for methyltrimethoxysilane in water, sodium phosphate buffer at pH 7.4, and 10% rat serum were measured to be 0.03 min-1 (t 1/2 = 24 min), 0.10 min-1 (t 1/2 = 6.7 min), and 0.08 min-1 (t 1/2 = 8.6 min), respectively.	Water	63-68	CD59 molecule (CD59 blood group)	Homo sapiens	148-153	
2049253-10	1991	Whatever the dose, PGE1 induced secretion of water, Na+, K+ and Cl- which was dose-dependent and saturable, with a mean Km of congruent to 6-8 pmol kg-1 min-1, suggesting that at the pharmacological doses used, enterocytes have a saturable membrane site similar to a single class of receptor for PGE1.	Water	45-50	CD59 molecule (CD59 blood group)	Homo sapiens	153-158	
34715525-7	2021	The bioinspired material exhibited an efficient water collection rate (WCR) of 14.9 +- 0.2 mg min-1 cm-2, which was 5.3 and 2.5 times larger than that on uniformed superhydrophilic and superhydrophobic surfaces, respectively.	Water	48-53	CD59 molecule (CD59 blood group)	Homo sapiens	94-104	
6317014-5	1983	The rate constant for the water reaction was found to be very small, approximately equal to 2.5 X 10(-6) min-1.	Water	26-31	CD59 molecule (CD59 blood group)	Homo sapiens	105-110	
3659605-3	1987	When they propelled themselves under water for 33 sec by kicking their legs and breathed through a snorkel tube, heart rate increased progressively to a value of 118 +/- 4.1 beats X min-1 at 28 sec.	Water	37-42	CD59 molecule (CD59 blood group)	Homo sapiens	182-187	
3769414-4	1986	The resistance of the valve to a flow of air at a rate of 20 l min-1 is 2.2 mm of water at the inlet and 4.2 mm of water at the outlet.	Water	82-87	CD59 molecule (CD59 blood group)	Homo sapiens	63-68	
3769414-4	1986	The resistance of the valve to a flow of air at a rate of 20 l min-1 is 2.2 mm of water at the inlet and 4.2 mm of water at the outlet.	Water	115-120	CD59 molecule (CD59 blood group)	Homo sapiens	63-68	
3769414-5	1986	At a rate of flow of 100 l min-1 the corresponding figures are 8.9 and 24.6 mm of water.	Water	82-87	CD59 molecule (CD59 blood group)	Homo sapiens	27-32	
3457670-6	1986	After indomethacin, fractional free water clearance was reduced by an average of 26% at the zero, 2 and 4 fmol min-1 kg-1 infusion rates of AVP.	Water	36-41	CD59 molecule (CD59 blood group)	Homo sapiens	111-121	
3956133-4	1986	Decreases in the water thermal gradient (from 6.06 to 5.33 degrees C, P less than 0.05) in maximal value of heat loss (from 22.5 to 18.75 w.m-2, P less than 0.01) and in plethysmographic wave amplitude (from 25.8 to 14.6 mm, P less than 0.01) and increased HR (from 72 to 83 beats min-1) were observed in smokers.	Water	17-22	CD59 molecule (CD59 blood group)	Homo sapiens	281-286	
2912969-4	1989	Application of a deuterium isotope effect of 2.8 led to rate constants in H2O for kC of 0.092 min-1 and kD of 0.73 min-1.	Water	74-77	CD59 molecule (CD59 blood group)	Homo sapiens	94-99	
2912969-4	1989	Application of a deuterium isotope effect of 2.8 led to rate constants in H2O for kC of 0.092 min-1 and kD of 0.73 min-1.	Water	74-77	CD59 molecule (CD59 blood group)	Homo sapiens	115-120	
2783663-3	1989	Extubation from a continuous positive airway pressure (CPAP) of 5 cm H2O was associated with a statistically significant rise in cardiac index from 3.44 +/- 0.23 L.min-1.m-2 to 3.73 +/- 0.15 L.min-1.m-2 related to an increase in stroke index, without significant changes in heart rate, mean arterial and pulmonary capillary wedge pressure.	Water	69-72	CD59 molecule (CD59 blood group)	Homo sapiens	164-169	
2783663-3	1989	Extubation from a continuous positive airway pressure (CPAP) of 5 cm H2O was associated with a statistically significant rise in cardiac index from 3.44 +/- 0.23 L.min-1.m-2 to 3.73 +/- 0.15 L.min-1.m-2 related to an increase in stroke index, without significant changes in heart rate, mean arterial and pulmonary capillary wedge pressure.	Water	69-72	CD59 molecule (CD59 blood group)	Homo sapiens	193-198	
1139445-3	1975	While holding-still, metabolic heat production (Hm,kcal-min--1) was inversely related to water temperature (Tw, degrees C) according to the equation Hm equals 4.19 minus-0.117 Tw.	Water	89-94	CD59 molecule (CD59 blood group)	Homo sapiens	56-62	
7284228-3	1981	Air samples could be aspirated into the collection bag at flow rates of as low as 1 ml min-1 by allowing the water to drain from the cylinder at a controlled rate.	Water	109-114	CD59 molecule (CD59 blood group)	Homo sapiens	87-92	
7293923-6	1981	For an inspiratory flow rate of 30 L min-1, the total deposition efficiency of H2SO4-and-H2O droplets, resulting from water condensation upon H2SO4 particles of initial geometric diameter D0, is greater than inspired nonhygroscopic particles of identical aerodynamic diameter when D0 greater than 0.1 mu m. The opposite is found when D0 less than 0.1 mu m. The effects of hygroscopic growth are explained in terms of the changing deposition efficiencies of the inertial impaction, sedimentation and diffusion mechanisms.	Water	89-92	CD59 molecule (CD59 blood group)	Homo sapiens	37-42	
7293923-6	1981	For an inspiratory flow rate of 30 L min-1, the total deposition efficiency of H2SO4-and-H2O droplets, resulting from water condensation upon H2SO4 particles of initial geometric diameter D0, is greater than inspired nonhygroscopic particles of identical aerodynamic diameter when D0 greater than 0.1 mu m. The opposite is found when D0 less than 0.1 mu m. The effects of hygroscopic growth are explained in terms of the changing deposition efficiencies of the inertial impaction, sedimentation and diffusion mechanisms.	Water	118-123	CD59 molecule (CD59 blood group)	Homo sapiens	37-42	
6625257-3	1983	min-1 with a correlation coefficient of 0.999 between measured and independently verified rates and amounts of water evaporation.	Water	111-116	CD59 molecule (CD59 blood group)	Homo sapiens	0-5	
7378935-4	1980	Alcohol intoxication in conjunction with cold water immersion caused a further large increase in urine flow to 8.03 mL min-1.	Water	46-51	CD59 molecule (CD59 blood group)	Homo sapiens	119-124	
32045803-3	2020	By rationally controlling synthetic parameters, we find that optimum Cu0.3@Cu0.7CoOx@GO achieves a superior catalytic activity with a turnover frequency of 44.6 molH2 molM-1 min-1 in H2O and 98.2 molH2 molM-1 min-1 in 0.2 M NaOH, better than most of previously reported NM-free nanocatalysts.	Water	183-186	CD59 molecule (CD59 blood group)	Homo sapiens	174-179	
33297175-10	2021	An aeration rate >0.3 L min-1 kg-1 DOM reduces the kCOD likely due to excess water evaporation and ventilation cooling.	Water	77-82	CD59 molecule (CD59 blood group)	Homo sapiens	24-34	
32045803-3	2020	By rationally controlling synthetic parameters, we find that optimum Cu0.3@Cu0.7CoOx@GO achieves a superior catalytic activity with a turnover frequency of 44.6 molH2 molM-1 min-1 in H2O and 98.2 molH2 molM-1 min-1 in 0.2 M NaOH, better than most of previously reported NM-free nanocatalysts.	Water	183-186	CD59 molecule (CD59 blood group)	Homo sapiens	209-214