PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
15926679-9	2005	The diffusion coefficient of hGH through degraded PLG films was 5.0 x 10(-13) m2/s, which is in the range that could be expected, i.e., several orders of magnitude smaller than its the diffusivity in pure water.	Water	205-210	plasminogen	Homo sapiens	50-53	
15926679-12	2005	Although the PLG film contains a large amount of water, a considerable time elapsed before pores of sufficient size formed and diffusion through the film started.	Water	49-54	plasminogen	Homo sapiens	13-16	
4339394-2	1972	Synthetic angiotensin II (Hypertensin, Ciba, Basel) was incubated with a water-insoluble preparation of plasmin (E.C.	Water	73-78	plasminogen	Homo sapiens	104-111	
33925363-1	2021	Inquiries into the participation of short hydrogen bonds in stabilizing transition states and intermediate states in the thrombin, factor Xa, plasmin and activated protein C-catalyzed reactions revealed that specific binding of effectors at Sn, n = 1-4 and S"n, n = 1-3 and at remote exosites elicit complex patterns of hydrogen bonding and involve water networks.	Water	349-354	plasminogen	Homo sapiens	142-149	
18558783-2	2008	The cationic functionality arises from polycations, such as PEI, poly( L-lysine), trimethyl chitosan, and (dimethylamino)ethyl methacrylate, introduced into the water phase of classical oil-in-water (o/w) solvent evaporation method of PLG microsphere fabrication.	Water	161-166	plasminogen	Homo sapiens	235-238	
1534419-1	1992	Synthetic humic acid, well water humic acid and commercial humic acid (Aldrich) all have the ability to inhibit human plasmin activity.	Water	27-32	plasminogen	Homo sapiens	118-125	
4239805-0	1969	[Use of water-insoluble derivatives of the trypsin-kallikrein inhibitor for the isolation of kallikrein and plasmin].	Water	8-13	plasminogen	Homo sapiens	108-115	
15896947-5	2005	The in situ BAM and ex situ AFM observations demonstrate that the dispersion of PLG at air/water interface becomes good when it mixes with the two cationic surfactants, whereas quite poor due to the phase separation when it mixes with the nonionic amphiphilic molecule.	Water	91-96	plasminogen	Homo sapiens	80-83	
15896947-6	2005	Based on these results we conclude that the cationic surfactants can affect the conformation change of PLG at air/water interface and figure a well miscibility with polymer whereas the nonionic amphiphilic molecule presents poor miscibility.	Water	114-119	plasminogen	Homo sapiens	103-106