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Literature DB >> 24898284

The PH gene determines fruit acidity and contributes to the evolution of sweet melons.

Shahar Cohen¹, Maxim Itkin¹, Yelena Yeselson², Galil Tzuri³, Vitaly Portnoy³, Rotem Harel-Baja³, Shery Lev³, Uzi Sa'ar³, Rachel Davidovitz-Rikanati³, Nadine Baranes³, Einat Bar³, Dalia Wolf², Marina Petreikov², Shmuel Shen², Shifra Ben-Dor⁴, Ilana Rogachev⁵, Asaph Aharoni⁵, Tslil Ast⁶, Maya Schuldiner⁶, Eduard Belausov⁷, Ravit Eshed⁷, Ron Ophir⁷, Amir Sherman⁷, Benedikt Frei⁸, H Ekkehard Neuhaus⁸, Yimin Xu⁹, Zhangjun Fei⁹, Jim Giovannoni⁹, Efraim Lewinsohn³, Yaakov Tadmor³, Harry S Paris³, Nurit Katzir³, Yosef Burger³, Arthur A Schaffer².

Abstract

Taste has been the subject of human selection in the evolution of agricultural crops, and acidity is one of the three major components of fleshy fruit taste, together with sugars and volatile flavour compounds. We identify a family of plant-specific genes with a major effect on fruit acidity by map-based cloning of C. melo PH gene (CmPH) from melon, Cucumis melo taking advantage of the novel natural genetic variation for both high and low fruit acidity in this species. Functional silencing of orthologous PH genes in two distantly related plant families, cucumber and tomato, produced low-acid, bland tasting fruit, showing that PH genes control fruit acidity across plant families. A four amino-acid duplication in CmPH distinguishes between primitive acidic varieties and modern dessert melons. This fortuitous mutation served as a preadaptive antecedent to the development of sweet melon cultigens in Central Asia over 1,000 years ago.

Entities: Chemical Disease Gene Species

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Year: 2014 PMID： 24898284 DOI： 10.1038/ncomms5026

Source DB: PubMed Journal: Nat Commun ISSN： 2041-1723 Impact factor: 14.919

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