Literature DB >> 33070191

Genome-wide analyses reveal footprints of divergent selection and popping-related traits in CIMMYT's maize inbred lines.

Jing Li1, Delin Li1,2,3, Cristian Zavala Espinosa4, Viridiana Trejo Pastor5, Awais Rasheed1,6, Natalia Palacios Rojas4, Jiankang Wang1, Amalio Santacruz Varela5, Natália Carolina de Almeida Silva7, Patrick S Schnable2,3,8,9, Denise E Costich4, Huihui Li1.   

Abstract

Popcorn (Zea mays L. var. Everta) is the most ancient type of cultivated maize. However, there is little known about the genetics of popping-related traits based on genotyping-by-sequencing (GBS) technology. Here, we characterized the phenotypic variation for seven popping-related traits in maize kernels among 526 CIMMYT inbred lines (CMLs). In total, 155 083 high-quality single nucleotide polymorphism (SNP) markers were identified by a GBS approach. Several trait-associated loci were detected by genome-wide association study for color, popping expansion volume, shape, pericarp, flotation index, floury/vitreous, and protein content, explaining a majority of the observed phenotypic variance, and these were validated by a diverse panel comprising 764 tropical landrace accessions. Sixty two of the identified loci were recognized to have undergone selection. On average, there was a 55.27% frequency for alleles that promote popping in CMLs. Our work not only pinpoints previously unknown loci for popping-related traits, but also reveals that many of these loci have undergone selection. Beyond establishing a new benchmark for the genetics of popcorn, our study provides a foundation for gene discovery and breeding. It also presents evidence to investigate the role of a gradual loss of popping ability as a by-product of diversification of culinary uses throughout the evolution of teosinte-to-modern maize.
© The Author(s) 2020. Published by Oxford University Press on behalf of the Society for Experimental Biology.

Entities:  

Keywords:  EigenGWAS; GWAS; maize adaptation; popping traits; quality traits; tropical maize landrace

Mesh:

Year:  2021        PMID: 33070191      PMCID: PMC7904155          DOI: 10.1093/jxb/eraa480

Source DB:  PubMed          Journal:  J Exp Bot        ISSN: 0022-0957            Impact factor:   6.992


  41 in total

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Journal:  Proc Natl Acad Sci U S A       Date:  2002-04-30       Impact factor: 11.205

2.  Genomic control for association studies.

Authors:  B Devlin; K Roeder
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Review 3.  Molecular basis of trait correlations.

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4.  A program for annotating and predicting the effects of single nucleotide polymorphisms, SnpEff: SNPs in the genome of Drosophila melanogaster strain w1118; iso-2; iso-3.

Authors:  Pablo Cingolani; Adrian Platts; Le Lily Wang; Melissa Coon; Tung Nguyen; Luan Wang; Susan J Land; Xiangyi Lu; Douglas M Ruden
Journal:  Fly (Austin)       Date:  2012 Apr-Jun       Impact factor: 2.160

5.  Natural positive selection and north-south genetic diversity in East Asia.

Authors:  Chen Suo; Haiyan Xu; Chiea-Chuen Khor; Rick Th Ong; Xueling Sim; Jieming Chen; Wan-Ting Tay; Kar-Seng Sim; Yi-Xin Zeng; Xuejun Zhang; Jianjun Liu; E-Shyong Tai; Tien-Yin Wong; Kee-Seng Chia; Yik-Ying Teo
Journal:  Eur J Hum Genet       Date:  2011-07-27       Impact factor: 4.246

6.  Natural variation in the sequence of PSY1 and frequency of favorable polymorphisms among tropical and temperate maize germplasm.

Authors:  Zhiyuan Fu; Yuchao Chai; Yi Zhou; Xiaohong Yang; Marilyn L Warburton; Shutu Xu; Ye Cai; Dalong Zhang; Jiansheng Li; Jianbing Yan
Journal:  Theor Appl Genet       Date:  2012-12-13       Impact factor: 5.699

7.  Genome Sequence of a 5,310-Year-Old Maize Cob Provides Insights into the Early Stages of Maize Domestication.

Authors:  Jazmín Ramos-Madrigal; Bruce D Smith; J Víctor Moreno-Mayar; Shyam Gopalakrishnan; Jeffrey Ross-Ibarra; M Thomas P Gilbert; Nathan Wales
Journal:  Curr Biol       Date:  2016-11-17       Impact factor: 10.834

8.  A robust, simple genotyping-by-sequencing (GBS) approach for high diversity species.

Authors:  Robert J Elshire; Jeffrey C Glaubitz; Qi Sun; Jesse A Poland; Ken Kawamoto; Edward S Buckler; Sharon E Mitchell
Journal:  PLoS One       Date:  2011-05-04       Impact factor: 3.240

9.  tGBS® genotyping-by-sequencing enables reliable genotyping of heterozygous loci.

Authors:  Alina Ott; Sanzhen Liu; James C Schnable; Cheng-Ting 'Eddy' Yeh; Kai-Sin Wang; Patrick S Schnable
Journal:  Nucleic Acids Res       Date:  2017-12-01       Impact factor: 16.971

10.  Identification of trait-improving quantitative trait loci for grain yield components from a dent corn inbred line in an advanced backcross BC2F2 population and comparison with its F2:3 population in popcorn.

Authors:  Y L Li; S Z Niu; Y B Dong; D Q Cui; Y Z Wang; Y Y Liu; M G Wei
Journal:  Theor Appl Genet       Date:  2007-05-10       Impact factor: 5.574
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Journal:  Theor Appl Genet       Date:  2022-08-01       Impact factor: 5.574

Review 2.  Can we improve the chilling tolerance of maize photosynthesis through breeding?

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3.  Genetic diversity and population structure of advanced clones selected over forty years by a potato breeding program in the USA.

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Journal:  Sci Rep       Date:  2021-04-16       Impact factor: 4.379

4.  Genetic Diversity and Selection Signatures in Synthetic-Derived Wheats and Modern Spring Wheat.

Authors:  Mohsin Ali; Shan Danting; Jiankang Wang; Hafsa Sadiq; Awais Rasheed; Zhonghu He; Huihui Li
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