PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
28500265-10	2017	Consistent with the corresponding transcriptional alteration of GL2 targets, high-oil, low-mucilage phenotypes of gl2 were phenocopied in ACBP1+/-smo1-1 Thus, ACBP1 appears to modulate the metabolism of two important lipid classes (FAs and sterols) influencing cellular signaling.	Oils	82-85	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	114-117	
33098089-5	2021	AtMIF1 functioned as a positive regulator that increases oil content by attenuating GL2 inhibition.	Oils	57-60	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	84-87	
21883555-0	2012	Arabidopsis glabra2 mutant seeds deficient in mucilage biosynthesis produce more oil.	Oils	81-84	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	12-19	
21883555-7	2012	Surprisingly, our results indicate that it is loss of GL2 activity in the seed coat, not the embryo, that contributes to the high seed oil phenotype.	Oils	135-138	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	54-57	
21883555-11	2012	We propose that gl2 mutant seeds produce more oil due to increased carbon allocation to the embryo in the absence of seed coat mucilage biosynthesis.	Oils	46-49	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	16-19	
16514561-6	2006	The high-oil phenotype is caused by the disruption of the GLABRA2 gene, a previously identified gene that encodes a homeobox protein required for normal trichome and root hair development.	Oils	9-12	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	58-65