PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
31963591-10	2020	In summary, TaTDRL may respond to dark or light treatment and negatively regulate chlorophyll biosynthesis by interacting with AtPIF1 in transgenic Arabidopsis.	Chlorophyll	82-93	phytochrome interacting factor 3-like 5	Arabidopsis thaliana	127-133	
27865928-7	2017	Taken together, our data indicate that the chromatin-remodeling enzyme BRM modulates PORC expression through interacting with PIF1, providing a novel regulatory mechanism by which plants fine-tune chlorophyll biosynthesis during the transition from heterotrophic to autotrophic growth.	Chlorophyll	197-208	phytochrome interacting factor 3-like 5	Arabidopsis thaliana	126-130	
18591656-0	2008	PIF1 directly and indirectly regulates chlorophyll biosynthesis to optimize the greening process in Arabidopsis.	Chlorophyll	39-50	phytochrome interacting factor 3-like 5	Arabidopsis thaliana	0-4	
18591656-4	2008	PIF1 negatively regulates chlorophyll biosynthesis and seed germination in the dark, and light-induced degradation of PIF1 relieves this negative regulation to promote photomorphogenesis.	Chlorophyll	26-37	phytochrome interacting factor 3-like 5	Arabidopsis thaliana	0-4	
18591656-5	2008	Here, we report that PIF1 regulates expression of a discrete set of genes in the dark, including protochlorophyllide oxidoreductase (POR), ferrochelatase (FeChII), and heme oxygenase (HO3), which are involved in controlling the chlorophyll biosynthetic pathway.	Chlorophyll	102-113	phytochrome interacting factor 3-like 5	Arabidopsis thaliana	21-25	
18591656-8	2008	These data strongly suggest that PIF1 directly and indirectly regulates key genes involved in chlorophyll biosynthesis to optimize the greening process in Arabidopsis.	Chlorophyll	94-105	phytochrome interacting factor 3-like 5	Arabidopsis thaliana	33-37