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PubMed:25627160 / 110-592 JSON TXT

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PubMed_Structured_Abstracts

Id	Subject	Object	Predicate	Lexical cue
T1	0-482	BACKGROUND	denotes	The molecular mechanisms underlying autistic behaviors remain to be elucidated. Mutations in genes linked to autism adversely affect molecules regulating dendritic spine formation, function and plasticity, and some increase the mammalian target of rapamycin, mTOR, a regulator of protein synthesis at spines. Here, we investigated whether the Akt/mTOR pathway is disrupted in idiopathic autism and in rats exposed to valproic acid, an animal model exhibiting autistic-like behavior.

PubmedHPO

Id	Subject	Object	Predicate	Lexical cue
T1	36-54	HP_0000729	denotes	autistic behaviors
T2	36-44	HP_0000717	denotes	autistic
T3	109-115	HP_0000717	denotes	autism
T4	387-393	HP_0000717	denotes	autism
T5	459-467	HP_0000717	denotes	autistic

NEUROSES

Id	Subject	Object	Predicate	Lexical cue
T5	406-413	PATO_0001646	denotes	exposed
T9	406-413	PATO_0002425	denotes	exposed
T17	133-142	CHEBI_25367	denotes	molecules
T19	154-163	PATO_0002045	denotes	dendritic
T20	181-189	PATO_0000173	denotes	function
T22	248-257	CHEBI_9168	denotes	rapamycin
T23	280-287	CHEBI_16541	denotes	protein
T26	280-287	CHEBI_36080	denotes	protein
T29	363-372	PATO_0001507	denotes	disrupted

BLAH2015_Annotations_test_5

Id	Subject	Object	Predicate	Lexical cue
T10	133-142	CHEBI_25367	denotes	molecules
T12	154-163	PATO_0002045	denotes	dendritic
T13	181-189	PATO_0000173	denotes	function
T15	248-257	CHEBI_9168	denotes	rapamycin
T16	280-287	CHEBI_36080	denotes	protein
T35	280-287	PM7566	denotes	protein
T19	280-287	CHEBI_16541	denotes	protein
T22	363-372	PATO_0001507	denotes	disrupted
T2	406-413	PATO_0002425	denotes	exposed
T6	417-430	CHEBI_39867	denotes	valproic acid