Variation in the flowering gene SELF PRUNING 5G promotes day-neutrality and early yield in tomato

被引：0

作者：

Sebastian Soyk

Niels A Müller

Soon Ju Park

Inga Schmalenbach

Ke Jiang

Ryosuke Hayama

Lei Zhang

Joyce Van Eck

José M Jiménez-Gómez

Zachary B Lippman

机构：

[1] Cold Spring Harbor Laboratory,Department of Plant Breeding and Genetics

[2] Max Planck Institute for Plant Breeding Research,Division of Biological Sciences

[3] Wonkwang University,Department of Plant Developmental Biology

[4] Max Planck Institute for Plant Breeding Research,undefined

[5] The Boyce Thompson Institute,undefined

[6] Institut Jean-Pierre Bourgin,undefined

[7] INRA,undefined

[8] AgroParisTech,undefined

[9] CNRS,undefined

[10] Université Paris-Saclay,undefined

[11] Present addresses: Copenhagen Plant Science Centre,undefined

[12] University of Copenhagen,undefined

[13] Frederiksberg,undefined

[14] Denmark (N.A.M.); Dow AgroSciences,undefined

[15] Indianapolis,undefined

[16] Indiana,undefined

[17] USA (K.J.); Department of Natural Science,undefined

[18] International Christian University,undefined

[19] Tokyo,undefined

[20] Japan (R.H.).,undefined

来源：

Nature Genetics | 2017年 / 49卷

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摘要：

Zachary Lippman, José Jiménez-Gómez and colleagues show that cultivated tomatoes have lost day-length-sensitive flowering, compared to their wild relatives, as a result of cis-regulatory variation affecting expression of SP5G, a paralog of the florigen gene SFT. They engineered SP5G loss-of-function mutant plants, resulting in rapid flowering and early yield.

引用

页码：162 / 168

页数：6