fw2.2 : A Quantitative Trait Locus Key to the Evolution of Tomato Fruit Size | Zendy

Anne Frary | Zendy; Teresa Nesbitt | Zendy; Amy Frary | Zendy; Silvana Grandillo | Zendy; Esther van der Knaap | Zendy; Bin Cong | Zendy; Jiping Liu | Zendy; Jarek Meller | Zendy; Ron Elber | Zendy; Kevin B. Alpert | Zendy; Steven D. Tanksley | Zendy

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fw2.2 : A Quantitative Trait Locus Key to the Evolution of Tomato Fruit Size

Author(s) -

Anne Frary,

Teresa Nesbitt,

Amy Frary,

Silvana Grandillo,

Esther van der Knaap,

Bin Cong,

Jiping Liu,

Jarek Meller,

Ron Elber,

Kevin B. Alpert,

Steven D. Tanksley

Publication year - 2000

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.289.5476.85

Subject(s) - quantitative trait locus , biology , locus (genetics) , gene , genetics , allele , cosmid , gynoecium , domestication , phenotype , trait , botany , pollen , stamen , computer science , programming language

Domestication of many plants has correlated with dramatic increases in fruit size. In tomato, one quantitative trait locus (QTL), fw2.2, was responsible for a large step in this process. When transformed into large-fruited cultivars, a cosmid derived from the fw2.2 region of a small-fruited wild species reduced fruit size by the predicted amount and had the gene action expected for fw2.2. The cause of the QTL effect is a single gene, ORFX, that is expressed early in floral development, controls carpel cell number, and has a sequence suggesting structural similarity to the human oncogene c-H-ras p21. Alterations in fruit size, imparted by fw2.2 alleles, are most likely due to changes in regulation rather than in the sequence and structure of the encoded protein.

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