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PubMed:30824731 JSON TXT

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Anatomy-MAT

Id	Subject	Object	Predicate	Lexical cue	mat_id
T1	92-101	Body_part	denotes	endosperm	http://purl.obolibrary.org/obo/MAT_0000227
T2	491-500	Body_part	denotes	endosperm	http://purl.obolibrary.org/obo/MAT_0000227

Glycan-GlyCosmos

Id	Subject	Object	Predicate	Lexical cue	image
T1	659-666	Glycan	denotes	amylose	https://api.glycosmos.org/wurcs2image/latest/png/binary/G05740LL

GlyCosmos15-NCBITAXON

Id	Subject	Object	Predicate	Lexical cue	db_id
T1	86-91	OrganismTaxon	denotes	maize	4577
T2	313-318	OrganismTaxon	denotes	maize	4577
T3	407-412	OrganismTaxon	denotes	maize	4577
T4	414-422	OrganismTaxon	denotes	Zea mays	4577
T5	854-859	OrganismTaxon	denotes	maize	4577
T6	1086-1090	OrganismTaxon	denotes	rice	4530

GlyCosmos15-UBERON

Id	Subject	Object	Predicate	Lexical cue	uberon_id
T1	481-485	Body_part	denotes	silk	http://purl.obolibrary.org/obo/UBERON_0012245
T2	548-560	Body_part	denotes	cell nucleus	http://purl.obolibrary.org/obo/GO_0005634

GlyCosmos15-MAT

Id	Subject	Object	Predicate	Lexical cue	mat_id
T1	92-101	Body_part	denotes	endosperm	http://purl.obolibrary.org/obo/MAT_0000227
T2	491-500	Body_part	denotes	endosperm	http://purl.obolibrary.org/obo/MAT_0000227

GlyCosmos15-Sentences

Id	Subject	Object	Predicate	Lexical cue
T1	0-102	Sentence	denotes	Functional analysis of ZmMADS1a reveals its role in regulating starch biosynthesis in maize endosperm.
T2	103-319	Sentence	denotes	MADS-box family proteins play an important role in grain formation and flower development; however, the molecular mechanisms by which transcription factors regulate the starch metabolism pathway are unclear in maize.
T3	320-427	Sentence	denotes	Here, we report a transcription factor, ZmMADS1a, that controls starch biosynthesis in maize (Zea mays L.).
T4	428-561	Sentence	denotes	We demonstrate the expression of ZmMADS1a in tassel, silk, and endosperm, and show that the protein is localized to the cell nucleus.
T5	562-736	Sentence	denotes	Compared with the control, seeds of overexpressing ZmMADS1a increased starch content (especially amylose content), had smaller starch granules and altered chemical structure.
T6	737-860	Sentence	denotes	Meanwhile, overexpression of ZmMADS1a resulted in increases in the contents of soluble sugars and reducing sugars in maize.
T7	861-997	Sentence	denotes	ZmMADS1a plays a positive regulatory role in the starch biosynthesis pathway by up-regulating several starch biosynthesis related genes.
T8	998-1091	Sentence	denotes	We also show that ZmMADS1a has a similar adjustment mechanism of starch biosynthesis in rice.
T9	1092-1280	Sentence	denotes	Collectively, our study suggests that ZmMADS1a functions as a positive regulator of starch biosynthesis by regulating the expression of key starch metabolism genes during seed development.

GlyCosmos15-Glycan

Id	Subject	Object	Predicate	Lexical cue	image
T1	659-666	Glycan	denotes	amylose	https://api.glycosmos.org/wurcs2image/latest/png/binary/G05740LL

NCBITAXON

Id	Subject	Object	Predicate	Lexical cue	db_id
T1	86-91	OrganismTaxon	denotes	maize	4577
T2	313-318	OrganismTaxon	denotes	maize	4577
T3	407-412	OrganismTaxon	denotes	maize	4577
T4	414-422	OrganismTaxon	denotes	Zea mays	4577
T5	854-859	OrganismTaxon	denotes	maize	4577
T6	1086-1090	OrganismTaxon	denotes	rice	4530

Anatomy-UBERON

Id	Subject	Object	Predicate	Lexical cue	uberon_id
T1	481-485	Body_part	denotes	silk	http://purl.obolibrary.org/obo/UBERON_0012245
T2	548-560	Body_part	denotes	cell nucleus	http://purl.obolibrary.org/obo/GO_0005634