Approaches in Characterizing Genetic Structure and Mapping in a Rice Multiparental Population

Approaches in Characterizing Genetic Structure and Mapping in a Rice Multiparental Population

Multi-parent Advanced Generation Intercross (MAGIC) populations are fast becoming mainstream tools for research and breeding, along with the technology and tools for analysis. This paper demonstrates the analysis of a rice MAGIC population from data filtering to imputation and processing of genetic...

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Bibliographic Details
Published in:G3 : genes - genomes - genetics Vol. 7; no. 6; pp. 1721 - 1730
Main Authors: Raghavan, Chitra, Mauleon, Ramil, Lacorte, Vanica, Jubay, Monalisa, Zaw, Hein, Bonifacio, Justine, Singh, Rakesh Kumar, Huang, B Emma, Leung, Hei
Format: Journal Article
Language:English
Published: United States Genetics Society of America 01-06-2017
Oxford University Press
Subjects:
Breeding
Chromosome Mapping
Computational Biology - methods
Founder Effect
Genetics, Population
Genome, Plant
Genome-Wide Association Study
Genomics - methods
Genotype
Haplotypes
imputation
MPP
Multiparental Population
multiparental populations
Oryza - genetics
Phenotype
QTL mapping
Quantitative Trait Loci
Quantitative Trait, Heritable
recombination
Recombination, Genetic
recombination
imputation
MPP
multiparental populations
QTL mapping
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Summary:Multi-parent Advanced Generation Intercross (MAGIC) populations are fast becoming mainstream tools for research and breeding, along with the technology and tools for analysis. This paper demonstrates the analysis of a rice MAGIC population from data filtering to imputation and processing of genetic data to characterizing genomic structure, and finally quantitative trait loci (QTL) mapping. In this study, 1316 S6:8 MAGIC (MI) lines and the eight founders were sequenced using Genotyping by Sequencing (GBS). As the GBS approach often includes missing data, the first step was to impute the missing SNPs. The observable number of recombinations in the population was then explored. Based on this case study, a general outline of procedures for a MAGIC analysis workflow is provided, as well as for QTL mapping of agronomic traits and biotic and abiotic stress, using the results from both association and interval mapping approaches. QTL for agronomic traits (yield, flowering time, and plant height), physical (grain length and grain width) and cooking properties (amylose content) of the rice grain, abiotic stress (submergence tolerance), and biotic stress (brown spot disease) were mapped. Through presenting this extensive analysis in the MI population in rice, we highlight important considerations when choosing analytical approaches. The methods and results reported in this paper will provide a guide to future genetic analysis methods applied to multi-parent populations.
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ISSN:2160-1836
2160-1836
DOI:10.1534/g3.117.042101