PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
29344830-5	2018	The jasmonic acid-responsive genes AOS and JAZ10 were transiently expressed immediately after grafting.	jasmonic acid	4-17	jasmonate-zim-domain protein 10	Arabidopsis thaliana	43-48	
32388423-5	2020	Correspondingly, the JA biosynthesis genes (AtAOC1 and AtOPR3) and signaling genes (AtJAZ5, AtJAZ10 and AtMYB15) are down-regulated in the ROC1S58F mutant compared with the WT.	jasmonic acid	21-23	jasmonate-zim-domain protein 10	Arabidopsis thaliana	92-99	
34329770-5	2021	Interestingly, an activation of the expression of the jasmonic acid-related reporter genes JAZ1/TIFY10A-GFP and JAZ10pro::JAZ10-GFP suggests that the halted growth of the primary root inversely correlated with expression patterns underlying the defense reaction, which may be of adaptive importance to protect roots against biotic stress.	jasmonic acid	54-67	jasmonate-zim-domain protein 10	Arabidopsis thaliana	112-117	
34329770-5	2021	Interestingly, an activation of the expression of the jasmonic acid-related reporter genes JAZ1/TIFY10A-GFP and JAZ10pro::JAZ10-GFP suggests that the halted growth of the primary root inversely correlated with expression patterns underlying the defense reaction, which may be of adaptive importance to protect roots against biotic stress.	jasmonic acid	54-67	jasmonate-zim-domain protein 10	Arabidopsis thaliana	122-127	
25103816-1	2014	Low red : far-red ratios reduce jasmonate sensitivity in Arabidopsis seedlings by promoting DELLA degradation and increasing JAZ10 stability.	jasmonic acid	32-41	jasmonate-zim-domain protein 10	Arabidopsis thaliana	125-130	
27943325-3	2017	In Arabidopsis, the protein JAZ10 is thought to play a key role connecting the inactivation of the photoreceptor phytochrome B (phyB), which takes place under competition for light, with the repression of jasmonate-mediated plant defences.	jasmonic acid	205-214	jasmonate-zim-domain protein 10	Arabidopsis thaliana	28-33	
19151223-5	2009	We have also identified an alternatively spliced form (JAZ10.4) of JAZ10 that lacks the Jas domain and, as a consequence, is highly resistant to JA-induced degradation.	jasmonic acid	55-57	jasmonate-zim-domain protein 10	Arabidopsis thaliana	67-72	
23632853-6	2013	We show that the amino-terminal region of JAZ10.4 contains a cryptic MYC2-binding site that resembles the Jas motif and that the ZIM motif of JAZ10.4 functions as a transferable repressor domain whose activity is associated with the recruitment of NINJA.	jasmonic acid	106-109	jasmonate-zim-domain protein 10	Arabidopsis thaliana	42-47	
23632853-8	2013	Moreover, treatment of these complemented lines with JA resulted in the rapid accumulation of JAZ10.4 protein.	jasmonic acid	53-55	jasmonate-zim-domain protein 10	Arabidopsis thaliana	94-99	
23632853-9	2013	Our results provide an explanation for how the unique domain architecture of JAZ10.4 links transcription factors to a corepressor complex and suggest how JA-induced transcription and alternative splicing of JAZ10 premessenger RNA creates a regulatory circuit to attenuate JA responses.	jasmonic acid	77-79	jasmonate-zim-domain protein 10	Arabidopsis thaliana	207-212	
19151223-6	2009	Strong JA-insensitive phenotypes conferred by overexpression of JAZ10.4 were suppressed by mutations in the TIFY motif that block JAZ10.4-JAZ interactions.	jasmonic acid	7-9	jasmonate-zim-domain protein 10	Arabidopsis thaliana	64-69	
19151223-6	2009	Strong JA-insensitive phenotypes conferred by overexpression of JAZ10.4 were suppressed by mutations in the TIFY motif that block JAZ10.4-JAZ interactions.	jasmonic acid	7-9	jasmonate-zim-domain protein 10	Arabidopsis thaliana	130-135