PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
23400702-0	2013	Chromoplast-specific carotenoid-associated protein appears to be important for enhanced accumulation of carotenoids in hp1 tomato fruits.	Carotenoids	104-115	DNA damage-binding protein 1	Solanum lycopersicum	119-122	
33245438-8	2020	Interestingly, we noticed significant increase in several photosynthetic-related parameters in hp1 under chilling stress that include photosynthetic rate, stomatal conductance, stomatal aperture, transpiration rate, chlorophyll a and carotenoids.	Carotenoids	234-245	DNA damage-binding protein 1	Solanum lycopersicum	95-98	
30729005-3	2019	Here we report that the high pigment 1 (hp1) mutation at the UV-DAMAGED DNA BINDING PROTEIN 1 (DDB1) locus, previously shown to influence carotenoid and additional phytonutrient accumulation via altered light signal transduction, also results in delayed ripening and firmer texture, resulting at least in part from decreased ethylene evolution.	Carotenoids	138-148	DNA damage-binding protein 1	Solanum lycopersicum	24-38	
30729005-3	2019	Here we report that the high pigment 1 (hp1) mutation at the UV-DAMAGED DNA BINDING PROTEIN 1 (DDB1) locus, previously shown to influence carotenoid and additional phytonutrient accumulation via altered light signal transduction, also results in delayed ripening and firmer texture, resulting at least in part from decreased ethylene evolution.	Carotenoids	138-148	DNA damage-binding protein 1	Solanum lycopersicum	40-43	
30729005-3	2019	Here we report that the high pigment 1 (hp1) mutation at the UV-DAMAGED DNA BINDING PROTEIN 1 (DDB1) locus, previously shown to influence carotenoid and additional phytonutrient accumulation via altered light signal transduction, also results in delayed ripening and firmer texture, resulting at least in part from decreased ethylene evolution.	Carotenoids	138-148	DNA damage-binding protein 1	Solanum lycopersicum	61-93	
30729005-3	2019	Here we report that the high pigment 1 (hp1) mutation at the UV-DAMAGED DNA BINDING PROTEIN 1 (DDB1) locus, previously shown to influence carotenoid and additional phytonutrient accumulation via altered light signal transduction, also results in delayed ripening and firmer texture, resulting at least in part from decreased ethylene evolution.	Carotenoids	138-148	DNA damage-binding protein 1	Solanum lycopersicum	95-99	
23948801-1	2013	The phenotype of tomato high pigment-1 (hp1) mutant is characterized by overproduction of pigments including chlorophyll and carotenoids during fruit development and ripening.	Carotenoids	125-136	DNA damage-binding protein 1	Solanum lycopersicum	24-38	
23948801-1	2013	The phenotype of tomato high pigment-1 (hp1) mutant is characterized by overproduction of pigments including chlorophyll and carotenoids during fruit development and ripening.	Carotenoids	125-136	DNA damage-binding protein 1	Solanum lycopersicum	40-43	
22533968-0	2012	Carotenoid profiling and biosynthetic gene expression in flesh and peel of wild-type and hp-1 tomato fruit under UV-B depletion.	Carotenoids	0-10	DNA damage-binding protein 1	Solanum lycopersicum	89-93	
22533968-2	2012	The present work is addressed to assess the molecular events underlying carotenoid accumulation in presence or absence of ultraviolet-B (UV-B) light in tomato fruits of wild-type and high pigment-1 (hp-1), a mutant characterized by exaggerated photoresponsiveness and increased fruit pigmentation.	Carotenoids	72-82	DNA damage-binding protein 1	Solanum lycopersicum	183-197	
22533968-2	2012	The present work is addressed to assess the molecular events underlying carotenoid accumulation in presence or absence of ultraviolet-B (UV-B) light in tomato fruits of wild-type and high pigment-1 (hp-1), a mutant characterized by exaggerated photoresponsiveness and increased fruit pigmentation.	Carotenoids	72-82	DNA damage-binding protein 1	Solanum lycopersicum	199-203	
20566564-3	2010	These mutations were mapped to the gene encoding UV-DAMAGED DNA BINDING PROTEIN 1 (DDB1) and, recently, fruit-specific RNA interference studies have demonstrated an increased number of plastids and enhanced carotenoid accumulation in the transgenic tomato fruits.	Carotenoids	207-217	DNA damage-binding protein 1	Solanum lycopersicum	49-81	
20566564-3	2010	These mutations were mapped to the gene encoding UV-DAMAGED DNA BINDING PROTEIN 1 (DDB1) and, recently, fruit-specific RNA interference studies have demonstrated an increased number of plastids and enhanced carotenoid accumulation in the transgenic tomato fruits.	Carotenoids	207-217	DNA damage-binding protein 1	Solanum lycopersicum	83-87	
16616263-10	2006	In contrast mutants defective in light perception such as the high pigment (hp-1) and LA3771 possess elevated chlorogenic acid and rutin as well as increased carotenoid content.	Carotenoids	158-168	DNA damage-binding protein 1	Solanum lycopersicum	76-80	
17092735-6	2006	The hp-1 mutant also had the highest chlorophyll and total carotenoid concentrations, comprised mostly of lycopene in red ripe fruit; whereas, beta-carotene comprised 90% of the carotenoids in B.	Carotenoids	59-69	DNA damage-binding protein 1	Solanum lycopersicum	4-8	
17092735-6	2006	The hp-1 mutant also had the highest chlorophyll and total carotenoid concentrations, comprised mostly of lycopene in red ripe fruit; whereas, beta-carotene comprised 90% of the carotenoids in B.	Carotenoids	178-189	DNA damage-binding protein 1	Solanum lycopersicum	4-8	
15178762-4	2004	Characterization of the tomato high-pigment mutations (hp1 and hp2) suggests the manipulation of light signal transduction machinery may be an effective approach toward practical manipulation of plant carotenoids.	Carotenoids	201-212	DNA damage-binding protein 1	Solanum lycopersicum	55-58	
33235312-4	2020	We selected 3 genes, SlDDB1, SlDET1 and SlCYC-B, for their roles in carotenoid accumulation.	Carotenoids	68-78	DNA damage-binding protein 1	Solanum lycopersicum	21-27