Genome resequencing facilitates high resolution exploration of a maize quantitative trait locus for resistance to aflatoxin accumulation

Author:

Shan Xueyan1ORCID,Williams W. Paul2,Peterson Daniel G.3

Affiliation:

1. Mississippi State University - Starkville

2. USDA-ARS SEA: USDA-ARS Southeast Area

3. Mississippi State University

Abstract

Abstract Aflatoxin contamination is a major threat to maize production in the Southeastern United States. Screening for genetic resistance to aflatoxin has led to the identification of aflatoxin-resistance quantitative trait loci (QTL) in maize inbred lines. However, these QTLs typically span large DNA regions making identification of actual resistance-associated sequences difficult. In this study, we took the portion of the maize B73 genome at chromosome bin 4.06 (APG v3) containing a 22 Mbp QTL (QTL-4.06) associated with aflatoxin resistance and used it as a reference to identify single-nucleotide polymorphisms (SNPs) and insertion/deletion variants (INDELs) that differ between resistant (Mp313E and Mp715) and susceptible (B73 and Va35) maize inbred lines. Our study provides a rich list of SNPs and INDELs that can be used as markers in fine-mapping of candidate regions in QTL-4.06 and demonstrates the great potential of resequencing in generating higher density molecular maps that can be leveraged in molecular breeding-based crop improvement.

Publisher

Research Square Platform LLC

Reference36 articles.

1. Whole-genome sequencing is more powerful than whole-exome sequencing for detecting exome variants;Belkadi A;Proc Natl Acad Sci USA,2015

2. Quantitative trait loci contributing resistance to aflatoxin accumulation in the maize inbred Mp313E;Brooks TD;Crop Sci,2005

3. Evaluation of corn genotypes for resistance to Aspergillus ear rot, kernel infection and aflatoxin production;Campbell KW;Plant Dis,1995

4. Carcinogenic risk assessment of mycotoxins.;Castegnaro M;Rev Med Vet,1998

5. 1000 Genomes Project Analysis Group. The variant call format and VCFtools;Danecek P;Bioinformatics,2011

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