Amino acid substitutions in homologs of the STAY-GREEN (SGR) protein are responsible for the green-flesh and chlorophyll retainer mutations of tomato and pepper

Cornelius S. Barry ^*, Ryan P. Mc Quinn , Mi-Young Chung , Anna Besuden , and James J. Giovannoni

Department of Horticulture, Michigan State University, East Lansing, MI 48824, USA; Boyce Thompson Institute for Plant Research, Tower Rd, Ithaca, NY 14853, USA; USDA-ARS Plant, Soil and Nutrition Laboratory, Tower Rd, Ithaca NY 14853, USA

^* Corresponding author; email: barrycs{at}msu.edu.

Color changes often accompany the onset of ripening, leadingto brightly colored fruits that serve as attractants to seeddispersing organisms. In many fruits, including tomato (Solanumlycopersicum) and pepper (Capsicum annuum), there is a sharpdecrease in chlorophyll content and a concomitant increase inthe synthesis of carotenoids as a result of the conversion ofchloroplasts into chromoplasts. The green-flesh (gf) and chlorophyllretainer (cl) mutations of tomato and pepper, respectively,are inhibited in their ability to degrade chlorophyll duringripening, leading to the production of ripe fruits characterizedby both chlorophyll and carotenoid accumulation and are thusbrown in color. Using a positional cloning approach we haveidentified a point mutation at the gf locus that causes an aminoacid substitution in an invariant residue of a tomato homologof the STAY-GREEN (SGR) protein of rice. Similarly the cl mutationalso carries an amino acid substitution at an invariant residuein a pepper homolog of SGR. Both GF and CL expression are highlyinduced at the onset of fruit ripening, coincident with theripening associated decline in chlorophyll. Phylogenetic analysisindicates that there are two distinct groups of SGR proteinsin plants. The SGR subfamily is required for chlorophyll degradationand operates through an unknown mechanism. A second subfamily,that we have termed SGR-like, has an as yet undefined function.

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