PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
27135344-2	2015	We recently reported that in Arabidopsis (Arabidopsis thaliana), Phytochrome-Interacting Factor4 (PIF4) and PIF5 promote dark-induced senescence and natural senescence by directly activating the expression of typical senescence-associated genes (SAGs), including ORESARA1 (ORE1) and ETHYLENE INSENSITIVE3 (EIN3).	ethylene	283-291	NAC domain containing protein 6	Arabidopsis thaliana	263-271	
24135638-8	2014	For example, it was shown that ethylene activity in natural, age-dependent leaf senescence is conferred by the regulatory function of EIN2, an ethylene-signaling component, in the control of the transcription factor oresara 1 (ORE1), which regulates a large set of senescence-associated genes in their expression.	ethylene	31-39	NAC domain containing protein 6	Arabidopsis thaliana	216-225	
24135638-8	2014	For example, it was shown that ethylene activity in natural, age-dependent leaf senescence is conferred by the regulatory function of EIN2, an ethylene-signaling component, in the control of the transcription factor oresara 1 (ORE1), which regulates a large set of senescence-associated genes in their expression.	ethylene	31-39	NAC domain containing protein 6	Arabidopsis thaliana	227-231	
24135638-8	2014	For example, it was shown that ethylene activity in natural, age-dependent leaf senescence is conferred by the regulatory function of EIN2, an ethylene-signaling component, in the control of the transcription factor oresara 1 (ORE1), which regulates a large set of senescence-associated genes in their expression.	ethylene	143-151	NAC domain containing protein 6	Arabidopsis thaliana	216-225	
24135638-8	2014	For example, it was shown that ethylene activity in natural, age-dependent leaf senescence is conferred by the regulatory function of EIN2, an ethylene-signaling component, in the control of the transcription factor oresara 1 (ORE1), which regulates a large set of senescence-associated genes in their expression.	ethylene	143-151	NAC domain containing protein 6	Arabidopsis thaliana	227-231	
34303024-0	2021	Verticillium dahliae Secretory Effector PevD1 Induces Leaf Senescence by Promoting ORE1-Mediated Ethylene Biosynthesis.	ethylene	97-105	NAC domain containing protein 6	Arabidopsis thaliana	83-87	
34303024-8	2021	Overexpression of ORE1 or PevD1 led to enhanced ethylene production, and ORE1 mediated PevD1-induced ethylene biosynthesis by directly binding to the ACS6 promoter.	ethylene	48-56	NAC domain containing protein 6	Arabidopsis thaliana	18-22	
34303024-8	2021	Overexpression of ORE1 or PevD1 led to enhanced ethylene production, and ORE1 mediated PevD1-induced ethylene biosynthesis by directly binding to the ACS6 promoter.	ethylene	101-109	NAC domain containing protein 6	Arabidopsis thaliana	18-22	
34303024-8	2021	Overexpression of ORE1 or PevD1 led to enhanced ethylene production, and ORE1 mediated PevD1-induced ethylene biosynthesis by directly binding to the ACS6 promoter.	ethylene	101-109	NAC domain containing protein 6	Arabidopsis thaliana	73-77	
32732458-7	2020	Increased PIF4 protein then binds to the ORE1 promoter and activates its expression together with ABA and ethylene signaling, accelerating leaf senescence at high ambient temperature.	ethylene	106-114	NAC domain containing protein 6	Arabidopsis thaliana	41-45	
27135344-2	2015	We recently reported that in Arabidopsis (Arabidopsis thaliana), Phytochrome-Interacting Factor4 (PIF4) and PIF5 promote dark-induced senescence and natural senescence by directly activating the expression of typical senescence-associated genes (SAGs), including ORESARA1 (ORE1) and ETHYLENE INSENSITIVE3 (EIN3).	ethylene	283-291	NAC domain containing protein 6	Arabidopsis thaliana	273-277	
26218222-14	2015	Moreover, ORE1 activated the expression of ACS2, a major ethylene biosynthesis gene, and subsequently promoted ethylene production.	ethylene	57-65	NAC domain containing protein 6	Arabidopsis thaliana	10-14	
26218222-14	2015	Moreover, ORE1 activated the expression of ACS2, a major ethylene biosynthesis gene, and subsequently promoted ethylene production.	ethylene	111-119	NAC domain containing protein 6	Arabidopsis thaliana	10-14	
26218222-15	2015	Collectively, our work reveals that EIN3, ORE1 and CCGs constitute a coherent feed-forward loop involving in the robust regulation of ethylene-mediated chlorophyll degradation during leaf senescence in Arabidopsis.	ethylene	134-142	NAC domain containing protein 6	Arabidopsis thaliana	42-46