Comparative Sequencing in the Genus Lycopersicon: Implications for the Evolution of Fruit Size in the Domestication of Cultivated Tomatoes

Comparative Sequencing in the Genus Lycopersicon: Implications for the Evolution of Fruit Size in the Domestication of Cultivated Tomatoes

T. Clint Nesbitt^a and Steven D. Tanksley^a
^a Department of Plant Breeding and Department of Plant Biology, Cornell University, Ithaca, New York 14850

Corresponding author: Steven D. Tanksley, 240 Emerson Hall, Cornell University, Ithaca, NY 14850., sdt4{at}cornell.edu (E-mail)

Communicating editor: T. F. C. MACKAY

Sequence variation was sampled in cultivated and related wildforms of tomato at fw2.2—a fruit weight QTL key to theevolution of domesticated tomatoes. Variation at fw2.2 was contrastedwith variation at four other loci not involved in fruit weightdetermination. Several conclusions could be reached: (1) Fruitweight variation attributable to fw2.2 is not caused by variationin the FW2.2 protein sequence; more likely, it is due to transcriptionalvariation associated with one or more of eight nucleotide changesunique to the promoter of large-fruit alleles; (2) fw2.2 andloci not involved in fruit weight have not evolved at distinguishablydifferent rates in cultivated and wild tomatoes, despite thefact that fw2.2 was likely a target of selection during domestication;(3) molecular-clock-based estimates suggest that the large-fruitallele of fw2.2, now fixed in most cultivated tomatoes, arosein tomato germplasm long before domestication; (4) extant accessionsof L. esculentum var. cerasiforme, the subspecies thought tobe the most likely wild ancestor of domesticated tomatoes, appearto be an admixture of wild and cultivated tomatoes rather thana transitional step from wild to domesticated tomatoes; and(5) despite the fact that cerasiforme accessions are polymorphicfor large- and small-fruit alleles at fw2.2, no significantassociation was detected between fruit size and fw2.2 genotypesin the subspecies—as tested by association genetic studiesin the relatively small sample studied—suggesting therole of other fruit weight QTL in fruit weight variation incerasiforme.

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