PMID-sentid	Pub_year	Sent_text	comp_official_name	comp_offset	protein_name	organism	prot_offset
16317577-9	2006	Results of this study indicated that 2,4-D induced the expression of auxin-response genes (IAA1, IAA13, IAA19) at both auxinic and herbicidal levels of application, whereas the TIR1 and ASK1 genes, which are associated with ubiquitin-mediated auxin signalling, were down-regulated in response to low concentrations of 2,4-D application.	2,4-Dichlorophenoxyacetic Acid	37-42	indole-3-acetic acid inducible 19	Arabidopsis thaliana	104-109
20636903-0	2010	Humic substances induce lateral root formation and expression of the early auxin-responsive IAA19 gene and DR5 synthetic element in Arabidopsis.	Humic Substances	0-16	indole-3-acetic acid inducible 19	Arabidopsis thaliana	92-97
20636903-7	2010	These findings were further supported by the fact that HS used in this study activated the auxin synthetic reporter DR5::GUS and enhanced transcription of the early auxin responsive gene IAA19.	Humic Substances	55-57	indole-3-acetic acid inducible 19	Arabidopsis thaliana	187-192
28771755-8	2017	Furthermore, PKL affects the level of trimethylation of histone H3 Lys 27 associated with INDOLE-3-ACETIC ACID INDUCIBLE 19 (IAA19) and IAA29 and regulates their expression.	Lysine	67-70	indole-3-acetic acid inducible 19	Arabidopsis thaliana	90-123
16244142-4	2005	This mutant showed the same sensitivity to the ethylene precursor 1-aminocyclopropane carboxylic acid as wild-type plants, and retained the ability to induce IAA19 expression in response to exogenously supplied indole-3-acetic acid.	indoleacetic acid	211-231	indole-3-acetic acid inducible 19	Arabidopsis thaliana	158-163
14605219-0	2003	Brassinolide induces IAA5, IAA19, and DR5, a synthetic auxin response element in Arabidopsis, implying a cross talk point of brassinosteroid and auxin signaling.	brassinolide	0-12	indole-3-acetic acid inducible 19	Arabidopsis thaliana	27-32
14605219-2	2003	We studied the expression of IAA5 and IAA19 in response to treatment with indole acetic acid (IAA) or brassinolide (BL), the most active BR.	indoleacetic acid	74-92	indole-3-acetic acid inducible 19	Arabidopsis thaliana	38-43
14605219-2	2003	We studied the expression of IAA5 and IAA19 in response to treatment with indole acetic acid (IAA) or brassinolide (BL), the most active BR.	brassinolide	102-114	indole-3-acetic acid inducible 19	Arabidopsis thaliana	38-43
14605219-2	2003	We studied the expression of IAA5 and IAA19 in response to treatment with indole acetic acid (IAA) or brassinolide (BL), the most active BR.	brassinolide	116-118	indole-3-acetic acid inducible 19	Arabidopsis thaliana	38-43
31492889-3	2019	Here we report that in Arabidopsis, aliphatic GLS levels are regulated by the auxin-sensitive Aux/IAA repressors IAA5, IAA6, and IAA19.	Glucosinolates	46-49	indole-3-acetic acid inducible 19	Arabidopsis thaliana	129-134
31492889-3	2019	Here we report that in Arabidopsis, aliphatic GLS levels are regulated by the auxin-sensitive Aux/IAA repressors IAA5, IAA6, and IAA19.	Indoleacetic Acids	78-83	indole-3-acetic acid inducible 19	Arabidopsis thaliana	129-134
28771755-8	2017	Furthermore, PKL affects the level of trimethylation of histone H3 Lys 27 associated with INDOLE-3-ACETIC ACID INDUCIBLE 19 (IAA19) and IAA29 and regulates their expression.	Lysine	67-70	indole-3-acetic acid inducible 19	Arabidopsis thaliana	125-130
23757399-5	2013	Furthermore, we demonstrate that PIF4 directly activates the expression of the auxin/indole-3-acetic acid (IAA) genes IAA19 and IAA29 by binding to the G-box (CACGTG) motifs in their promoters.	indoleacetic acid	85-105	indole-3-acetic acid inducible 19	Arabidopsis thaliana	118-123
23757399-5	2013	Furthermore, we demonstrate that PIF4 directly activates the expression of the auxin/indole-3-acetic acid (IAA) genes IAA19 and IAA29 by binding to the G-box (CACGTG) motifs in their promoters.	indoleacetic acid	107-110	indole-3-acetic acid inducible 19	Arabidopsis thaliana	118-123
21543725-4	2011	We show that the modulation occurs through induction of the expression of the negative regulator of auxin signaling INDOLE-3-ACETIC ACID INDUCIBLE19/MASSUGU2.	indoleacetic acid	116-136	indole-3-acetic acid inducible 19	Arabidopsis thaliana	149-157
23125315-0	2013	Brassinosteroids regulate the differential growth of Arabidopsis hypocotyls through auxin signaling components IAA19 and ARF7.	Brassinosteroids	0-16	indole-3-acetic acid inducible 19	Arabidopsis thaliana	111-116
23125315-3	2013	Here, we demonstrate that high BR concentration or enhanced BR signaling induce the differential growth of etiolated hypocotyls and result in the morphological changes, while auxin-resistant mutants, msg2 (dominant mutant of IAA19) and arf7, are insensitive to the BR effect and can partially suppress the phenotype of bzr1-D (dominant mutant of BZR1 with enhanced BR signaling).	Brassinosteroids	31-33	indole-3-acetic acid inducible 19	Arabidopsis thaliana	200-204
23125315-3	2013	Here, we demonstrate that high BR concentration or enhanced BR signaling induce the differential growth of etiolated hypocotyls and result in the morphological changes, while auxin-resistant mutants, msg2 (dominant mutant of IAA19) and arf7, are insensitive to the BR effect and can partially suppress the phenotype of bzr1-D (dominant mutant of BZR1 with enhanced BR signaling).	Brassinosteroids	31-33	indole-3-acetic acid inducible 19	Arabidopsis thaliana	225-230
23125315-3	2013	Here, we demonstrate that high BR concentration or enhanced BR signaling induce the differential growth of etiolated hypocotyls and result in the morphological changes, while auxin-resistant mutants, msg2 (dominant mutant of IAA19) and arf7, are insensitive to the BR effect and can partially suppress the phenotype of bzr1-D (dominant mutant of BZR1 with enhanced BR signaling).	Brassinosteroids	60-62	indole-3-acetic acid inducible 19	Arabidopsis thaliana	225-230
23125315-3	2013	Here, we demonstrate that high BR concentration or enhanced BR signaling induce the differential growth of etiolated hypocotyls and result in the morphological changes, while auxin-resistant mutants, msg2 (dominant mutant of IAA19) and arf7, are insensitive to the BR effect and can partially suppress the phenotype of bzr1-D (dominant mutant of BZR1 with enhanced BR signaling).	Brassinosteroids	60-62	indole-3-acetic acid inducible 19	Arabidopsis thaliana	225-230
23125315-3	2013	Here, we demonstrate that high BR concentration or enhanced BR signaling induce the differential growth of etiolated hypocotyls and result in the morphological changes, while auxin-resistant mutants, msg2 (dominant mutant of IAA19) and arf7, are insensitive to the BR effect and can partially suppress the phenotype of bzr1-D (dominant mutant of BZR1 with enhanced BR signaling).	Brassinosteroids	60-62	indole-3-acetic acid inducible 19	Arabidopsis thaliana	225-230
23125315-5	2013	Systemic microarray analysis revealed that a number of BR-responsive genes showed reduced BR response in msg2, confirming that BR employs auxin signaling components IAA19 and ARF7 to modulate the specific downstream processes.	Brassinosteroids	55-57	indole-3-acetic acid inducible 19	Arabidopsis thaliana	105-109
23125315-5	2013	Systemic microarray analysis revealed that a number of BR-responsive genes showed reduced BR response in msg2, confirming that BR employs auxin signaling components IAA19 and ARF7 to modulate the specific downstream processes.	Brassinosteroids	55-57	indole-3-acetic acid inducible 19	Arabidopsis thaliana	165-170
23125315-5	2013	Systemic microarray analysis revealed that a number of BR-responsive genes showed reduced BR response in msg2, confirming that BR employs auxin signaling components IAA19 and ARF7 to modulate the specific downstream processes.	Brassinosteroids	90-92	indole-3-acetic acid inducible 19	Arabidopsis thaliana	105-109
23125315-5	2013	Systemic microarray analysis revealed that a number of BR-responsive genes showed reduced BR response in msg2, confirming that BR employs auxin signaling components IAA19 and ARF7 to modulate the specific downstream processes.	Brassinosteroids	90-92	indole-3-acetic acid inducible 19	Arabidopsis thaliana	165-170
21252300-6	2011	An alanine-for-leucine substitution in the LxLxL (where L is leucine and x is another amino acid) repression domain of IAA3, IAA6, or IAA19 confers enhanced auxin response gene expression and "high-auxin" phenotypes when expressed from the 35S or IAA19 promoter (as tested with IAA19) in transformed Arabidopsis plants.	Alanine	3-10	indole-3-acetic acid inducible 19	Arabidopsis thaliana	134-139
21252300-6	2011	An alanine-for-leucine substitution in the LxLxL (where L is leucine and x is another amino acid) repression domain of IAA3, IAA6, or IAA19 confers enhanced auxin response gene expression and "high-auxin" phenotypes when expressed from the 35S or IAA19 promoter (as tested with IAA19) in transformed Arabidopsis plants.	Alanine	3-10	indole-3-acetic acid inducible 19	Arabidopsis thaliana	247-252
21252300-6	2011	An alanine-for-leucine substitution in the LxLxL (where L is leucine and x is another amino acid) repression domain of IAA3, IAA6, or IAA19 confers enhanced auxin response gene expression and "high-auxin" phenotypes when expressed from the 35S or IAA19 promoter (as tested with IAA19) in transformed Arabidopsis plants.	Alanine	3-10	indole-3-acetic acid inducible 19	Arabidopsis thaliana	247-252
21252300-6	2011	An alanine-for-leucine substitution in the LxLxL (where L is leucine and x is another amino acid) repression domain of IAA3, IAA6, or IAA19 confers enhanced auxin response gene expression and "high-auxin" phenotypes when expressed from the 35S or IAA19 promoter (as tested with IAA19) in transformed Arabidopsis plants.	Leucine	15-22	indole-3-acetic acid inducible 19	Arabidopsis thaliana	134-139
21252300-6	2011	An alanine-for-leucine substitution in the LxLxL (where L is leucine and x is another amino acid) repression domain of IAA3, IAA6, or IAA19 confers enhanced auxin response gene expression and "high-auxin" phenotypes when expressed from the 35S or IAA19 promoter (as tested with IAA19) in transformed Arabidopsis plants.	Leucine	15-22	indole-3-acetic acid inducible 19	Arabidopsis thaliana	247-252
21252300-6	2011	An alanine-for-leucine substitution in the LxLxL (where L is leucine and x is another amino acid) repression domain of IAA3, IAA6, or IAA19 confers enhanced auxin response gene expression and "high-auxin" phenotypes when expressed from the 35S or IAA19 promoter (as tested with IAA19) in transformed Arabidopsis plants.	Leucine	15-22	indole-3-acetic acid inducible 19	Arabidopsis thaliana	247-252
21252300-6	2011	An alanine-for-leucine substitution in the LxLxL (where L is leucine and x is another amino acid) repression domain of IAA3, IAA6, or IAA19 confers enhanced auxin response gene expression and "high-auxin" phenotypes when expressed from the 35S or IAA19 promoter (as tested with IAA19) in transformed Arabidopsis plants.	Leucine	61-68	indole-3-acetic acid inducible 19	Arabidopsis thaliana	134-139
21252300-6	2011	An alanine-for-leucine substitution in the LxLxL (where L is leucine and x is another amino acid) repression domain of IAA3, IAA6, or IAA19 confers enhanced auxin response gene expression and "high-auxin" phenotypes when expressed from the 35S or IAA19 promoter (as tested with IAA19) in transformed Arabidopsis plants.	Leucine	61-68	indole-3-acetic acid inducible 19	Arabidopsis thaliana	247-252
21252300-6	2011	An alanine-for-leucine substitution in the LxLxL (where L is leucine and x is another amino acid) repression domain of IAA3, IAA6, or IAA19 confers enhanced auxin response gene expression and "high-auxin" phenotypes when expressed from the 35S or IAA19 promoter (as tested with IAA19) in transformed Arabidopsis plants.	Leucine	61-68	indole-3-acetic acid inducible 19	Arabidopsis thaliana	247-252