PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
9425108-7	1998	After being cultured in differentiation medium, mock- and H-FABP-cDNA-transfected cells showed a lower fatty acid-oxidation rate, in contrast with A-FABP-cDNA-transfected clones.	Fatty Acids	103-113	fatty acid binding protein 3	Rattus norvegicus	58-64	
10833372-4	2000	Several fatty acid transport regulatory genes have been identified in the rat including; cytoplasmic heart fatty acid binding protein (hFABP), plasma membrane fatty acid binding protein (FABPpm), fatty acid translocase (FAT) and fatty acid transport protein (FATP).	Fatty Acids	8-18	fatty acid binding protein 3	Rattus norvegicus	101-133	
9250607-6	1997	Some aspects of this model system are illustrated by showing the effects of different fatty acid species on cell viability and the effects of fatty acids on the expression of heart type fatty acid-binding protein (H-FABP), a 15 kDa protein thought to be involved in intracellular trafficking of fatty acids.	Fatty Acids	295-306	fatty acid binding protein 3	Rattus norvegicus	175-212	
9250607-6	1997	Some aspects of this model system are illustrated by showing the effects of different fatty acid species on cell viability and the effects of fatty acids on the expression of heart type fatty acid-binding protein (H-FABP), a 15 kDa protein thought to be involved in intracellular trafficking of fatty acids.	Fatty Acids	295-306	fatty acid binding protein 3	Rattus norvegicus	214-220	
9250607-10	1997	Accordingly, the combination of C16:0/C18:1 was used to examine the effects of fatty acids on the expression of H-FABP.	Fatty Acids	79-90	fatty acid binding protein 3	Rattus norvegicus	112-118	
9250607-12	1997	Incubation with fatty acids (with or without glucose) resulted in a nearly four-fold increase of the H-FABP mRNA level.	Fatty Acids	16-27	fatty acid binding protein 3	Rattus norvegicus	101-107	
9250607-14	1997	In hypertrophic cardiomyocytes (stimulated with the alpha1-adrenergic agonist phenylephrine) the stimulatory effect of fatty acids on H-FABP expression was mitigated.	Fatty Acids	119-130	fatty acid binding protein 3	Rattus norvegicus	134-140	
9250607-6	1997	Some aspects of this model system are illustrated by showing the effects of different fatty acid species on cell viability and the effects of fatty acids on the expression of heart type fatty acid-binding protein (H-FABP), a 15 kDa protein thought to be involved in intracellular trafficking of fatty acids.	Fatty Acids	142-153	fatty acid binding protein 3	Rattus norvegicus	175-212	
8907613-11	1996	The increasing H-FABP content may relate to an increasing fatty acid oxidation that has been reported for differentiated L6 cells, a related muscle cell line from rat.	Fatty Acids	58-68	fatty acid binding protein 3	Rattus norvegicus	15-21	
9250607-6	1997	Some aspects of this model system are illustrated by showing the effects of different fatty acid species on cell viability and the effects of fatty acids on the expression of heart type fatty acid-binding protein (H-FABP), a 15 kDa protein thought to be involved in intracellular trafficking of fatty acids.	Fatty Acids	142-153	fatty acid binding protein 3	Rattus norvegicus	214-220	
2674666-12	1989	H-FABP may also protect the heart against the toxic effects of high intracellular levels of fatty acid intermediates that arise during ischemia.	Fatty Acids	92-102	fatty acid binding protein 3	Rattus norvegicus	0-6	
7710139-1	1995	BACKGROUND: The ovary of adult rats expresses two types of cytoplasmic fatty acid binding proteins (FABP), i.e., heart FABP (H-FABP) and intestinal 15 kDa protein (I-15P).	Fatty Acids	71-81	fatty acid binding protein 3	Rattus norvegicus	125-131	
2032944-7	1991	From the rather wide distribution of H-FABP, it is suggested that H-FABP plays some fundamental roles in the active metabolism of fatty acids in the body.	Fatty Acids	130-141	fatty acid binding protein 3	Rattus norvegicus	37-43	
2032944-7	1991	From the rather wide distribution of H-FABP, it is suggested that H-FABP plays some fundamental roles in the active metabolism of fatty acids in the body.	Fatty Acids	130-141	fatty acid binding protein 3	Rattus norvegicus	66-72	
33039626-12	2021	Bioinformatic analysis of these differentially expressed proteins revealed that the proteins involved in cellular mitochondrial energy metabolism processes, such as fatty acid beta-oxidation and aerobic respiration, were significantly regulated under SBP treatment, of which fatty acid-binding protein 3 (FABP3) and myoglobin (MB) were significantly downregulated in the MI model group compared with the SOG group and returned to the basal level with SBP treatment, confirmed by Western blotting.	Fatty Acids	165-175	fatty acid binding protein 3	Rattus norvegicus	275-303	
3036869-10	1987	The postnatal increase in myocardial H-FABP mRNA concentration and its relative distribution in adult fast and slow twitch skeletal muscle are consistent with its previously proposed function in facilitating mitochondrial beta-oxidation of fatty acids.	Fatty Acids	240-251	fatty acid binding protein 3	Rattus norvegicus	37-43	
26380273-7	2015	In addition, key players in fatty acids metabolism (Lpl and Fabp3) responded to both SCI induced inactivity and reloading with training.	Fatty Acids	28-39	fatty acid binding protein 3	Rattus norvegicus	60-65	
19720296-2	2009	INTRODUCTION: Our group has synthesized technetium-labeled fatty acids (FA) that are extracted into the myocardium and sequestered due to heart-type fatty acid binding protein (H-FABP) binding.	Fatty Acids	59-70	fatty acid binding protein 3	Rattus norvegicus	138-175	
19720296-2	2009	INTRODUCTION: Our group has synthesized technetium-labeled fatty acids (FA) that are extracted into the myocardium and sequestered due to heart-type fatty acid binding protein (H-FABP) binding.	Fatty Acids	59-70	fatty acid binding protein 3	Rattus norvegicus	177-183