Genome assembly and population genomic analysis provide insights into the evolution of modern sweet corn

被引:0
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作者
Ying Hu
Vincent Colantonio
Bárbara S. F. Müller
Kristen A. Leach
Adalena Nanni
Christina Finegan
Bo Wang
Matheus Baseggio
Carter J. Newton
Emily M. Juhl
Lillian Hislop
Juan M. Gonzalez
Esteban F. Rios
L. Curtis Hannah
Kelly Swarts
Michael A. Gore
Tracie A. Hennen-Bierwagen
Alan M. Myers
A. Mark Settles
William F. Tracy
Marcio F. R. Resende
机构
[1] University of Florida,Horticultural Sciences Department
[2] University of Florida,Department of Molecular Genetics and Microbiology
[3] Cold Spring Harbor Laboratory,Plant Breeding and Genetics Section, School of Integrative Plant Science
[4] One Bungtown Road,Roy J. Carver Department of Biochemistry, Biophysics, and Molecular Biology
[5] Cold Spring Harbor,Department of Agronomy, College of Agricultural and Life Sciences
[6] Cornell University,Agronomy Department
[7] Iowa State University,Applied Plant Sciences Graduate Program
[8] University of Wisconsin-Madison,undefined
[9] University of Florida,undefined
[10] Gregor Mendel Institute,undefined
[11] Austrian Academy of Sciences,undefined
[12] Vienna BioCenter,undefined
[13] Seneca Foods Corporation,undefined
[14] University of Minnesota,undefined
[15] Bioengineering Branch,undefined
[16] NASA Ames Research Center,undefined
[17] MS 239-15,undefined
来源
Nature Communications | / 12卷
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摘要
Sweet corn is one of the most important vegetables in the United States and Canada. Here, we present a de novo assembly of a sweet corn inbred line Ia453 with the mutated shrunken2-reference allele (Ia453-sh2). This mutation accumulates more sugar and is present in most commercial hybrids developed for the processing and fresh markets. The ten pseudochromosomes cover 92% of the total assembly and 99% of the estimated genome size, with a scaffold N50 of 222.2 Mb. This reference genome completely assembles the large structural variation that created the mutant sh2-R allele. Furthermore, comparative genomics analysis with six field corn genomes highlights differences in single-nucleotide polymorphisms, structural variations, and transposon composition. Phylogenetic analysis of 5,381 diverse maize and teosinte accessions reveals genetic relationships between sweet corn and other types of maize. Our results show evidence for a common origin in northern Mexico for modern sweet corn in the U.S. Finally, population genomic analysis identifies regions of the genome under selection and candidate genes associated with sweet corn traits, such as early flowering, endosperm composition, plant and tassel architecture, and kernel row number. Our study provides a high-quality reference-genome sequence to facilitate comparative genomics, functional studies, and genomic-assisted breeding for sweet corn.
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