PMID-sentid	Pub_year	Sent_text	comp_official_name	comp_offset	protein_name	organism	prot_offset
31601032-0	2019	GLABRA2, A Common Regulator for Epidermal Cell Fate Determination and Anthocyanin Biosynthesis in Arabidopsis.	Anthocyanins	70-81	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	0-7
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
32064614-8	2020	We reveal that an O-glycosylated AGP21 peptide, which is positively regulated by BZR1, a transcription factor activated by BR signaling, affects RH cell fate by altering GL2 expression in a BIN2-dependent manner.	insulin, glycosylated	18-32	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	170-173
31601032-9	2019	In particular, more regulators of GL2 have been identified, and GL2 has been shown to be involved in the regulation of anthocyanin biosynthesis.	Anthocyanins	119-130	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	64-67
31601032-10	2019	This review focuses on the research progress on the regulation of GL2 expression, and the roles of GL2 in the regulation of epidermal cell fate determination and anthocyanin biosynthesis in Arabidopsis.	Anthocyanins	162-173	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	99-102
31209339-3	2019	The GL2 gene encode a transcription factor controlling the balance between the biosynthesis of fatty acids in the embryo and the production of mucilage and flavonoid pigments in the seed coat.	Fatty Acids	95-106	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	4-7
31509941-0	2019	Effect of Salt Stress on Cytosine Methylation within GL2, An Arabidopsis thaliana Gene Involved in Root Epidermal Cell Differentiation.	Salts	10-14	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	53-56
31509941-0	2019	Effect of Salt Stress on Cytosine Methylation within GL2, An Arabidopsis thaliana Gene Involved in Root Epidermal Cell Differentiation.	Cytosine	25-33	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	53-56
31209339-3	2019	The GL2 gene encode a transcription factor controlling the balance between the biosynthesis of fatty acids in the embryo and the production of mucilage and flavonoid pigments in the seed coat.	Flavonoids	156-165	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	4-7
29288621-8	2018	Genes encoding homeodomain-leucine zipper IV transcription factors (HDG5, HDG10, HDG11 and GLABRA2), which potentially bind phospholipids/sterols, were transcribed aberrantly.	Phospholipids	124-137	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	91-98
29940863-13	2018	Enhanced anthocyanin accumulation and reduced trichome production were related to the enhanced MYB75 and suppressed GL2 and some other differentially expressed genes associated with the TTG1/bHLH/MYB complexes.	Anthocyanins	9-20	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	116-119
29288621-8	2018	Genes encoding homeodomain-leucine zipper IV transcription factors (HDG5, HDG10, HDG11 and GLABRA2), which potentially bind phospholipids/sterols, were transcribed aberrantly.	Sterols	138-145	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	91-98
29422671-5	2018	This compromises recruitment of TTG1 to the GLABRA2 locus and downregulates GLABRA2 expression, which enhances biosynthesis of fatty acids in the embryo, but reduces production of mucilage and flavonoid pigments in the seed coat.	Fatty Acids	127-138	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	76-83
29422671-5	2018	This compromises recruitment of TTG1 to the GLABRA2 locus and downregulates GLABRA2 expression, which enhances biosynthesis of fatty acids in the embryo, but reduces production of mucilage and flavonoid pigments in the seed coat.	Flavonoids	193-202	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	76-83
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
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.	Sterols	240-247	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	114-117
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.	Fatty Acids	232-235	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	114-117
28695957-2	2017	In Arabidopsis thaliana, brassinosteroids, which function upstream of the TTG/bHLHs/MYBs/GL2 transcriptional network, positively regulate stomatal formation in the hypocotyl.	Brassinosteroids	25-41	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	89-92
21883555-4	2012	GL2 has also been shown to regulate seed oil levels, as a loss-of-function mutation in the GL2 gene results in plants with a higher seed oil content than wild-type.	seed oil	36-44	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	91-94
27933081-4	2016	Cd and As(III) downregulated TTG1 and GL2 (negative regulators of fate determination) and upregulated GEM (positive regulator), suggesting that root hair fate determination is stimulated by Cd and As(III).	Cadmium	0-2	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	38-41
23124966-4	2012	Hormone tests, reporter gene studies and mutant analyses revealed that brassinosteroids act upstream of the transcriptional factors CAPRICE and GLABRA2.	Brassinosteroids	71-87	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	144-151
15200643-0	2004	The expression patterns of arabinogalactan-protein AtAGP30 and GLABRA2 reveal a role for abscisic acid in the early stages of root epidermal patterning.	Abscisic Acid	89-102	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	63-70
21477123-9	2011	Both elevated CO(2) and NAA application increased expressions of caprice, triptychon and rho-related protein from plants 2, and decreased expressions of werewolf, GLABRA2, GLABRA3 and the transparent testa glabra 1, genes related to root-hair development, while 1-NOA and NPA application had an opposite effect.	co(2)	14-19	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	163-170
21477123-9	2011	Both elevated CO(2) and NAA application increased expressions of caprice, triptychon and rho-related protein from plants 2, and decreased expressions of werewolf, GLABRA2, GLABRA3 and the transparent testa glabra 1, genes related to root-hair development, while 1-NOA and NPA application had an opposite effect.	1-naphthaleneacetic acid	24-27	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	163-170
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
21883555-4	2012	GL2 has also been shown to regulate seed oil levels, as a loss-of-function mutation in the GL2 gene results in plants with a higher seed oil content than wild-type.	seed oil	36-44	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	0-3
21883555-4	2012	GL2 has also been shown to regulate seed oil levels, as a loss-of-function mutation in the GL2 gene results in plants with a higher seed oil content than wild-type.	seed oil	132-140	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	0-3
21883555-4	2012	GL2 has also been shown to regulate seed oil levels, as a loss-of-function mutation in the GL2 gene results in plants with a higher seed oil content than wild-type.	seed oil	132-140	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	91-94
21883555-5	2012	We have extended this observation by showing that loss-of-function mutations in several positive regulators of GL2 also result in a high seed oil phenotype.	seed oil	137-145	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	111-114
21883555-6	2012	The GL2 gene is expressed in both the seed coat and embryo, but the embryo is the main site of seed oil accumulation.	seed oil	95-103	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	4-7
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
21883555-9	2012	We found that mum4 mutant seeds, like those of gl2 mutants, have an increased seed oil content in comparison with wild-type.	seed oil	78-86	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	47-50
21883555-10	2012	Therefore, GL2 regulates seed oil production at least partly through its influence on MUM4 expression in the seed coat.	seed oil	25-33	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	11-14
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
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.	Carbon	67-73	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	16-19
16514561-0	2006	The homeobox gene GLABRA2 affects seed oil content in Arabidopsis.	seed oil	34-42	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	18-25
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
16514561-8	2006	The result indicates that in addition to its known function in trichome and root hair development, GLABRA2 is involved in the control of seed oil accumulation.	seed oil	137-145	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	99-106
15200643-7	2004	ABA also disrupts the expression pattern of the GL2::GUS (beta-glucuronidase) reporter gene.	Abscisic Acid	0-3	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	48-51
12974811-9	2003	Double mutants of yre and trichome-morphology mutants, glabra2 (gl2) and transparent testa glabra1 (ttg1), showed that the phenotype of the trichome structure was additive, suggesting that the wax-requiring pathway is distinct from the trichome development pathway controlled by GL2 and TTG1.	Waxes	193-196	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	279-282
9576776-7	1998	Like the root, the hypocotyl GL2 activity was shown to be influenced by ttg and 35S::R but not by gl2.	Sulfur-35	80-83	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	29-32
12775839-0	2003	Modulation of phospholipid signaling by GLABRA2 in root-hair pattern formation.	Phospholipids	14-26	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	40-47
12775839-6	2003	We conclude that GL2 exerts its regulatory effect on root-hair development through modulation of phospholipid signaling.	Phospholipids	97-109	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	17-20
10645418-10	1998	Treatment of ttg and gl2 plants with modulators of ethylene biosynthesis indicate that ethylene acts down stream of TTG and GL2 during the fate specification process.	ethylene	51-59	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	21-24
8837505-4	1996	Epistasis tests and reporter gene studies indicated that the hairless cell-promoting genes TTG and GL2 are likely to act early to negatively regulate the ethylene and auxin pathways.	ethylene	154-162	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	99-102
10645418-10	1998	Treatment of ttg and gl2 plants with modulators of ethylene biosynthesis indicate that ethylene acts down stream of TTG and GL2 during the fate specification process.	ethylene	51-59	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	124-127
10645418-10	1998	Treatment of ttg and gl2 plants with modulators of ethylene biosynthesis indicate that ethylene acts down stream of TTG and GL2 during the fate specification process.	ethylene	87-95	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	21-24
10645418-10	1998	Treatment of ttg and gl2 plants with modulators of ethylene biosynthesis indicate that ethylene acts down stream of TTG and GL2 during the fate specification process.	ethylene	87-95	HD-ZIP IV family of homeobox-leucine zipper protein with lipid-binding START domain-containing protein	Arabidopsis thaliana	124-127