Genome sequences of two diploid wild relatives of cultivated sweetpotato reveal targets for genetic improvement

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作者
Shan Wu
Kin H. Lau
Qinghe Cao
John P. Hamilton
Honghe Sun
Chenxi Zhou
Lauren Eserman
Dorcus C. Gemenet
Bode A. Olukolu
Haiyan Wang
Emily Crisovan
Grant T. Godden
Chen Jiao
Xin Wang
Mercy Kitavi
Norma Manrique-Carpintero
Brieanne Vaillancourt
Krystle Wiegert-Rininger
Xinsun Yang
Kan Bao
Jennifer Schaff
Jan Kreuze
Wolfgang Gruneberg
Awais Khan
Marc Ghislain
Daifu Ma
Jiming Jiang
Robert O. M. Mwanga
Jim Leebens-Mack
Lachlan J. M. Coin
G. Craig Yencho
C. Robin Buell
Zhangjun Fei
机构
[1] Cornell University,Boyce Thompson Institute
[2] Michigan State University,Department of Plant Biology
[3] Jiangsu Xuzhou Sweetpotato Research Center,National Engineering Research Center for Vegetables
[4] Beijing Academy of Agriculture and Forestry Sciences,Institute for Molecular Bioscience
[5] University of Queensland,Department of Plant Biology
[6] St Lucia,Department of Horticultural Science
[7] University of Georgia,Department of Entomology and Plant Pathology
[8] International Potato Center,Department of Horticulture
[9] North Carolina State University,Genomic Sciences Laboratory
[10] University of Tennessee,Plant Resilience Institute
[11] Michigan State University,Department of Conservation and Research
[12] International Potato Center,Plant Pathology and Plant
[13] Food Crops Institute,Microbe Biology Section
[14] Hubei Academy of Agricultural Sciences,undefined
[15] North Carolina State University,undefined
[16] International Potato Center,undefined
[17] Michigan State University,undefined
[18] USDA-ARS Robert W. Holley Center for Agriculture and Health,undefined
[19] Atlanta Botanical Garden,undefined
[20] Cornell University,undefined
来源
Nature Communications | / 9卷
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摘要
Sweetpotato [Ipomoea batatas (L.) Lam.] is a globally important staple food crop, especially for sub-Saharan Africa. Agronomic improvement of sweetpotato has lagged behind other major food crops due to a lack of genomic and genetic resources and inherent challenges in breeding a heterozygous, clonally propagated polyploid. Here, we report the genome sequences of its two diploid relatives, I. trifida and I. triloba, and show that these high-quality genome assemblies are robust references for hexaploid sweetpotato. Comparative and phylogenetic analyses reveal insights into the ancient whole-genome triplication history of Ipomoea and evolutionary relationships within the Batatas complex. Using resequencing data from 16 genotypes widely used in African breeding programs, genes and alleles associated with carotenoid biosynthesis in storage roots are identified, which may enable efficient breeding of varieties with high provitamin A content. These resources will facilitate genome-enabled breeding in this important food security crop.
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