Modeling copy number variation in the genomic prediction of maize hybrids

A - Papers appearing in refereed journals

Lyra, D. H., Galli, G., Alves, F. C., Granato, I. S. C., Vidotti, M. S., Sousa, M. B., Morosini, J. S., Crossa, J. and Fritsche-Neto, R. 2019. Modeling copy number variation in the genomic prediction of maize hybrids. Theoretical and Applied Genetics. 132, pp. 273-288. https://doi.org/10.1007/s00122-018-3215-2

AuthorsLyra, D. H., Galli, G., Alves, F. C., Granato, I. S. C., Vidotti, M. S., Sousa, M. B., Morosini, J. S., Crossa, J. and Fritsche-Neto, R.
Abstract

Non-additive effects resulting from the actions of multiple loci may influence trait variation in single-cross hybrids. In addition, complementation of allelic variation could be a valuable contributor to hybrid genetic variation, especially when crossing inbred lines with higher contents of copy gains. With this in mind, we aimed (1) to study the association between copy number variation (CNV) and hybrid phenotype, and (2) to compare the predictive ability (PA) of additive and additive–dominance genomic best linear unbiased prediction model when combined with the effects of CNV in two datasets of maize hybrids (USP and HELIX). In the USP dataset, we observed a significant negative phenotypic correlation of low magnitude between copy number loss and plant height, revealing a tendency that more copy losses lead to lower plants. In the same set, when CNV was combined with the additive plus dominance effects, the PA significantly increased only for plant height under low nitrogen. In this case, CNV effects explicitly capture relatedness between individuals and add extra information to the model. In the HELIX dataset, we observed a pronounced difference in PA between additive (0.50) and additive–dominance (0.71) models for predicting grain yield, suggesting a significant contribution of dominance. We conclude that copy variants may play an essential role in the phenotypic variation of complex traits in maize hybrids, although the inclusion of CNVs into datasets does not return significant gains concerning PA.

Year of Publication2019
JournalTheoretical and Applied Genetics
Journal citation132, pp. 273-288
Digital Object Identifier (DOI)https://doi.org/10.1007/s00122-018-3215-2
Open accessPublished as non-open access
Publication dates
Online31 Oct 2018
PublisherSpringer
ISSN0040-5752

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