PMID-sentid	Pub_year	Sent_text	comp_official_name	comp_offset	protein_name	organism	prot_offset
35203367-11	2022	The upstream regulatory elements of the miR172-AP2-WUS pathway might involve the miR156-controlled SPL9/SPL10, which control the level of mature miR172 in an embryogenic culture.	mir156	81-87	MIR172a	Arabidopsis thaliana	40-46
35203367-11	2022	The upstream regulatory elements of the miR172-AP2-WUS pathway might involve the miR156-controlled SPL9/SPL10, which control the level of mature miR172 in an embryogenic culture.	mir156	81-87	MIR172a	Arabidopsis thaliana	145-151
24388512-11	2014	In addition, a miR156 target SQUAMOSA PROMOTER BINDING PROTEIN-LIKE 3 directly activates TOE3 expression, revealing a novel signaling interaction between miR156 and miR172 in floral patterning.	mir156	15-21	MIR172a	Arabidopsis thaliana	165-171
35039839-3	2022	In this study, we show that transgenic apple plants over-expressing miR172 show a reduction in red coloration and anthocyanin accumulation in various tissue types.	Anthocyanins	114-125	MIR172a	Arabidopsis thaliana	68-74
35039839-7	2022	In Arabidopsis, over-expression of miR172 reduced flavonoid (including anthocyanins and flavonols) concentration and RNA transcript abundance of flavonoid genes in plantlets cultured on medium containing 7% sucrose.	Flavonoids	50-59	MIR172a	Arabidopsis thaliana	35-41
35039839-7	2022	In Arabidopsis, over-expression of miR172 reduced flavonoid (including anthocyanins and flavonols) concentration and RNA transcript abundance of flavonoid genes in plantlets cultured on medium containing 7% sucrose.	Anthocyanins	71-83	MIR172a	Arabidopsis thaliana	35-41
35039839-7	2022	In Arabidopsis, over-expression of miR172 reduced flavonoid (including anthocyanins and flavonols) concentration and RNA transcript abundance of flavonoid genes in plantlets cultured on medium containing 7% sucrose.	Flavonols	88-97	MIR172a	Arabidopsis thaliana	35-41
35039839-7	2022	In Arabidopsis, over-expression of miR172 reduced flavonoid (including anthocyanins and flavonols) concentration and RNA transcript abundance of flavonoid genes in plantlets cultured on medium containing 7% sucrose.	Flavonoids	145-154	MIR172a	Arabidopsis thaliana	35-41
35039839-7	2022	In Arabidopsis, over-expression of miR172 reduced flavonoid (including anthocyanins and flavonols) concentration and RNA transcript abundance of flavonoid genes in plantlets cultured on medium containing 7% sucrose.	Sucrose	207-214	MIR172a	Arabidopsis thaliana	35-41
35039839-9	2022	These results indicate that miR172 inhibits flavonoid biosynthesis through suppressing the expression of an AP2 transcription factor that positively regulates MdMYB10.	Flavonoids	44-53	MIR172a	Arabidopsis thaliana	28-34
31310397-2	2019	miR156 negatively regulates several SPL genes, which promote the juvenile-to-adult and floral transitions in part through upregulation of miR172.	mir156	0-6	MIR172a	Arabidopsis thaliana	138-144
24732353-0	2014	Overexpression of miR172 suppresses the brassinosteroid signaling defects of bak1 in Arabidopsis.	Brassinosteroids	40-55	MIR172a	Arabidopsis thaliana	18-24
24732353-6	2014	Taken together with its increased BR sensitivity, these results suggest that miR172 regulates vegetative growth patterns by modulating BR sensitivity as well as by the previously identified developmental phase transition.	Brassinosteroids	34-36	MIR172a	Arabidopsis thaliana	77-83
24732353-6	2014	Taken together with its increased BR sensitivity, these results suggest that miR172 regulates vegetative growth patterns by modulating BR sensitivity as well as by the previously identified developmental phase transition.	Brassinosteroids	135-137	MIR172a	Arabidopsis thaliana	77-83
19703400-5	2009	miR172 acts downstream of miR156 to promote adult epidermal identity.	mir156	26-32	MIR172a	Arabidopsis thaliana	0-6
21373962-0	2011	miR172 signals are incorporated into the miR156 signaling pathway at the SPL3/4/5 genes in Arabidopsis developmental transitions.	mir156	41-47	MIR172a	Arabidopsis thaliana	0-6
17890372-5	2007	A late-flowering mutant in which a miR172 target gene, TARGET OF EAT1, is constitutively activated by the nearby insertion of the cauliflower mosaic virus 35S enhancer normally responded to vernalization and gibberellic acid treatments.	gibberellic acid	208-224	MIR172a	Arabidopsis thaliana	35-41