PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
10766803-2	2000	Binding of aquo-, cyano-, or azidocobalamin (Cbl.OH(2), Cbl.CN, and Cbl.N(3), respectively) to the recombinant human transcobalamin (TC) and haptocorrin from human plasma was investigated via stopped-flow spectroscopy.	Water	49-54	Cbl proto-oncogene	Homo sapiens	45-48	
15913339-3	2005	Our magnetic circular dichroism and electron paramagnetic resonance spectroscopic studies reported here reveal that, in the absence of ATP, the interaction between Co2+Cbl and hATR promotes partial conversion of the cofactor to its "base-off" form in which a water molecule occupies the lower axial position.	Water	259-264	Cbl proto-oncogene	Homo sapiens	168-171	
10766803-5	2000	The second step of Cbl.OH(2) binding was interpreted as a transformation of the initial "open" intermediate TC.Cbl.OH(2) to the "closed" conformation TC(Cbl) with displaced water.	Water	23-28	Cbl proto-oncogene	Homo sapiens	19-22	
10766803-5	2000	The second step of Cbl.OH(2) binding was interpreted as a transformation of the initial "open" intermediate TC.Cbl.OH(2) to the "closed" conformation TC(Cbl) with displaced water.	Water	23-28	Cbl proto-oncogene	Homo sapiens	111-114	
10766803-5	2000	The second step of Cbl.OH(2) binding was interpreted as a transformation of the initial "open" intermediate TC.Cbl.OH(2) to the "closed" conformation TC(Cbl) with displaced water.	Water	23-28	Cbl proto-oncogene	Homo sapiens	111-114	
10766803-5	2000	The second step of Cbl.OH(2) binding was interpreted as a transformation of the initial "open" intermediate TC.Cbl.OH(2) to the "closed" conformation TC(Cbl) with displaced water.	Water	115-120	Cbl proto-oncogene	Homo sapiens	19-22	
10766803-5	2000	The second step of Cbl.OH(2) binding was interpreted as a transformation of the initial "open" intermediate TC.Cbl.OH(2) to the "closed" conformation TC(Cbl) with displaced water.	Water	115-120	Cbl proto-oncogene	Homo sapiens	111-114	
10766803-5	2000	The second step of Cbl.OH(2) binding was interpreted as a transformation of the initial "open" intermediate TC.Cbl.OH(2) to the "closed" conformation TC(Cbl) with displaced water.	Water	115-120	Cbl proto-oncogene	Homo sapiens	111-114	
10766803-5	2000	The second step of Cbl.OH(2) binding was interpreted as a transformation of the initial "open" intermediate TC.Cbl.OH(2) to the "closed" conformation TC(Cbl) with displaced water.	Water	173-178	Cbl proto-oncogene	Homo sapiens	19-22	
10766803-5	2000	The second step of Cbl.OH(2) binding was interpreted as a transformation of the initial "open" intermediate TC.Cbl.OH(2) to the "closed" conformation TC(Cbl) with displaced water.	Water	173-178	Cbl proto-oncogene	Homo sapiens	111-114	
10766803-5	2000	The second step of Cbl.OH(2) binding was interpreted as a transformation of the initial "open" intermediate TC.Cbl.OH(2) to the "closed" conformation TC(Cbl) with displaced water.	Water	173-178	Cbl proto-oncogene	Homo sapiens	111-114	
10766803-6	2000	The backward transition from the closed to the open conformation was the reason for the identical rate-limiting steps during substitution of H(2)O in TC.Cbl.OH(2) for cyanide or azide according to the reaction TC(Cbl) --> TC.Cbl.OH(2) + CN(-)/N(3)(-).	Water	141-146	Cbl proto-oncogene	Homo sapiens	153-156	
10766803-6	2000	The backward transition from the closed to the open conformation was the reason for the identical rate-limiting steps during substitution of H(2)O in TC.Cbl.OH(2) for cyanide or azide according to the reaction TC(Cbl) --> TC.Cbl.OH(2) + CN(-)/N(3)(-).	Water	141-146	Cbl proto-oncogene	Homo sapiens	213-216	
10766803-6	2000	The backward transition from the closed to the open conformation was the reason for the identical rate-limiting steps during substitution of H(2)O in TC.Cbl.OH(2) for cyanide or azide according to the reaction TC(Cbl) --> TC.Cbl.OH(2) + CN(-)/N(3)(-).	Water	141-146	Cbl proto-oncogene	Homo sapiens	213-216	
10766803-6	2000	The backward transition from the closed to the open conformation was the reason for the identical rate-limiting steps during substitution of H(2)O in TC.Cbl.OH(2) for cyanide or azide according to the reaction TC(Cbl) --> TC.Cbl.OH(2) + CN(-)/N(3)(-).	Water	157-162	Cbl proto-oncogene	Homo sapiens	153-156	
10766803-6	2000	The backward transition from the closed to the open conformation was the reason for the identical rate-limiting steps during substitution of H(2)O in TC.Cbl.OH(2) for cyanide or azide according to the reaction TC(Cbl) --> TC.Cbl.OH(2) + CN(-)/N(3)(-).	Water	157-162	Cbl proto-oncogene	Homo sapiens	213-216	
10766803-6	2000	The backward transition from the closed to the open conformation was the reason for the identical rate-limiting steps during substitution of H(2)O in TC.Cbl.OH(2) for cyanide or azide according to the reaction TC(Cbl) --> TC.Cbl.OH(2) + CN(-)/N(3)(-).	Water	157-162	Cbl proto-oncogene	Homo sapiens	213-216	
10766803-6	2000	The backward transition from the closed to the open conformation was the reason for the identical rate-limiting steps during substitution of H(2)O in TC.Cbl.OH(2) for cyanide or azide according to the reaction TC(Cbl) --> TC.Cbl.OH(2) + CN(-)/N(3)(-).	Water	232-237	Cbl proto-oncogene	Homo sapiens	153-156	
10766803-6	2000	The backward transition from the closed to the open conformation was the reason for the identical rate-limiting steps during substitution of H(2)O in TC.Cbl.OH(2) for cyanide or azide according to the reaction TC(Cbl) --> TC.Cbl.OH(2) + CN(-)/N(3)(-).	Water	232-237	Cbl proto-oncogene	Homo sapiens	213-216	
10766803-6	2000	The backward transition from the closed to the open conformation was the reason for the identical rate-limiting steps during substitution of H(2)O in TC.Cbl.OH(2) for cyanide or azide according to the reaction TC(Cbl) --> TC.Cbl.OH(2) + CN(-)/N(3)(-).	Water	232-237	Cbl proto-oncogene	Homo sapiens	213-216	
27864634-1	2017	Reactions of aquacobalamin (H2O-Cbl(III)) and its one-electron reduced form (cob(II)alamin, Cbl(II)) with chlorite (ClO2-) and chlorine dioxide (ClO 2  ) were studied by conventional and stopped-flow UV-Vis spectroscopies and matrix-assisted laser desorption/ionization-mass spectrometry (MALDI-MS).	Water	28-31	Cbl proto-oncogene	Homo sapiens	32-35	
10502361-1	1999	This report describes an investigation aimed at preparation of radioiodinated cyanocobalamin (CN-Cbl) monomers and dimers with improved water solubility and decreased nonspecific binding.	Water	136-141	Cbl proto-oncogene	Homo sapiens	97-100	
11670948-6	1999	The packing motif of CF(2)Cbl is very similar to that described for wet vitamin B(12), a distorted hexagonal close packing of the cobalamin, with channels of water running parallel to the crystallographic c axis through the crystal at x = (1)/(4), y = 0, and x = (3)/(4), y = (1)/(2), respectively.	Water	158-163	Cbl proto-oncogene	Homo sapiens	26-29	
35337623-1	2022	Vitamin B12 (cobalamin, Cbl, B12) is a water-soluble micronutrient synthesized exclusively by a group of microorganisms.	Water	39-44	Cbl proto-oncogene	Homo sapiens	24-32	
8781445-5	1996	In addition, electron paramagnetic resonance spectroscopy of H2O-Cbl preparations showed the presence of a small amount of Cob-(II)alamin that was capable of combining with NO.	Water	61-64	Cbl proto-oncogene	Homo sapiens	65-68	
22568547-12	2012	The BP86 method shows more spectral features, and the best fit was found for a GS-Cbl model with 5,6-dimethylbenzimidazole at the BP86/6-311G(d,p) level with a water cpcm solvent model.	Water	160-165	Cbl proto-oncogene	Homo sapiens	82-85	
27446930-1	2016	Vitamin B12 (cobalamin, Cbl, B12) is an indispensable water-soluble micronutrient that serves as a coenzyme for cytosolic methionine synthase (MS) and mitochondrial methylmalonyl-CoA mutase (MCM).	Water	54-59	Cbl proto-oncogene	Homo sapiens	24-27	
25074859-6	2014	Intrinsic water-use efficiency scaled negatively with carbon isotope discrimination (Delta13Cbl) and positively with the ratio between mesophyll diffusion conductance (gm) and stomatal conductance.	Water	10-15	Cbl proto-oncogene	Homo sapiens	92-95	
16961380-1	2006	The reaction between aquacobalamin, Cbl(H2O), and NO was studied at low pH.	Water	40-43	Cbl proto-oncogene	Homo sapiens	36-39	
16961380-2	2006	As previously reported, the final product of the reaction is the same as that obtained in the reaction of NO and reduced Cbl(H2O), viz.	Water	125-128	Cbl proto-oncogene	Homo sapiens	121-124