From 49fe1abe8a0e210b6d5ace5796e2d1fab7c98f98 Mon Sep 17 00:00:00 2001 From: ScottKalberer Date: Thu, 18 Apr 2024 17:05:55 -0500 Subject: [PATCH] Revisions to pissa.Sato_Morita_2007.yml on 18 April 2024 --- .../studies/pissa.Sato_Morita_2007.yml | 26 ++++++++++++------- 1 file changed, 16 insertions(+), 10 deletions(-) diff --git a/Pisum/sativum/studies/pissa.Sato_Morita_2007.yml b/Pisum/sativum/studies/pissa.Sato_Morita_2007.yml index 26d3441..bbc49f7 100644 --- a/Pisum/sativum/studies/pissa.Sato_Morita_2007.yml +++ b/Pisum/sativum/studies/pissa.Sato_Morita_2007.yml @@ -1,7 +1,6 @@ --- scientific_name: Pisum sativum -classical_locus: - - I +classical_locus: I gene_symbols: - PsSGR gene_symbol_long: Staygreen @@ -12,24 +11,31 @@ curators: - Marlene Dorneich-Hayes - Scott Kalberer comments: - - Complementation test confirms that SGR is Mendel's I locus. SGR is a positive regulator of pathways involved in breakdown of - chlorophyll via translational or posttranslational regulation of chlorophyll degrading enzymes. The products of SGR are required + - Complementation test confirms that PsSGR is the Mendelian I locus. SGR is a positive regulator of pathways involved in breakdown of + chlorophyll via translational or post-translational regulation of chlorophyll degrading enzymes. The products of SGR are required to separate chlorophyll from the photosynthetic complex, allowing chlorophyll degrading enzymes access to their substrate. The sgr loss-of-function mutation is due to lower expression of the SGR gene and a small insertion that disrupts SGR protein fuction. -phenotype_synopsis: The recessive phenotype sgr retains a high chlorophyll content during scenesence, causing cotyledons to stay green as +phenotype_synopsis: The recessive phenotype sgr retains a high chlorophyll content during senescence, causing cotyledons to stay green as they mature and leaves to stay green as they die. PsSGR is a cosmetic stay-green mutant and does not retain the ability to photosynthesize. traits: - - entity_name: - entity: + - entity_name: chlorophyll catabolic process + entity: GO:0015996 + - entity_name: positive regulation of chlorophyll catabolic process + entity: GO:1903648 + - entity_name: plant embryo cotyledon color + entity: TO:0000980 + - entity_name: leaf senescence trait + entity: TO:0000249 references: - - citation: Sato, Morita et. al., 2007 + - citation: Sato, Morita et al., 2007 doi: 10.1073/pnas.0705521104 pmid: 17709752 - - citation: Armstead, Donnison et. al., 2007 + - citation: Armstead, Donnison et al., 2007 doi: 10.1126/science.1132912 pmid: 17204643 - - citation: Aubry, Mani et. al., 2008 + - citation: Aubry, Mani et al., 2008 doi: 10.1007/s11103-008-9314-8 pmid: 18301989 - citation: Hörtensteiner, 2009 doi: 10.1016/j.tplants.2009.01.002 + pmid: 19237309