Identification of genetic factors contributing to heterosis in a hybrid from two elite maize inbred lines using molecular markers

doi:10.1093/genetics/132.3.823

. 1992 Nov;132(3):823-39.

doi: 10.1093/genetics/132.3.823.

Identification of genetic factors contributing to heterosis in a hybrid from two elite maize inbred lines using molecular markers

C W Stuber¹, S E Lincoln, D W Wolff, T Helentjaris, E S Lander

Affiliations

PMID: 1468633
PMCID: PMC1205218
DOI: 10.1093/genetics/132.3.823

Identification of genetic factors contributing to heterosis in a hybrid from two elite maize inbred lines using molecular markers

C W Stuber et al. Genetics. 1992 Nov.

. 1992 Nov;132(3):823-39.

doi: 10.1093/genetics/132.3.823.

Authors

C W Stuber¹, S E Lincoln, D W Wolff, T Helentjaris, E S Lander

Affiliation

¹ United States Department of Agriculture, Agricultural Research Service, Raleigh, North Carolina 27695-7614.

PMID: 1468633
PMCID: PMC1205218
DOI: 10.1093/genetics/132.3.823

Abstract

The use of molecular markers to identify quantitative trait loci (QTLs) affecting agriculturally important traits has become a key approach in plant genetics-both for understanding the genetic basis of these traits and to help design novel plant improvement programs. In the study reported here, we mapped QTLs (and evaluated their phenotypic effects) associated with seven major traits (including grain yield) in a cross between two widely used elite maize inbred lines, B73 and Mo17, in order to explore two important phenomena in maize genetics-heterosis (hybrid vigor) and genotype-by-environment (G x E) interaction. We also compared two analytical approaches for identifying QTLs, the traditional single-marker method and the more recently described interval-mapping method. Phenotypic evaluations were made on 3168 plots (nearly 100,000 plants) grown in three states. Using 76 markers that represented 90-95% of the maize genome, both analytical methods showed virtually the same results in detecting QTLs affecting grain yield throughout the genome, except on chromosome 6. Fewer QTLs were detected for other quantitative traits measured. Whenever a QTL for grain yield was detected, the heterozygote had a higher phenotype than the respective homozygote (with only one exception) suggesting not only overdominance (or pseudooverdominance) but also that these detected QTLs play a significant role in heterosis. This conclusion was reinforced by a high correlation between grain yield and proportion of heterozygous markers. Although plant materials were grown and measured in six diverse environments (North Carolina, Iowa and Illinois) there was little evidence for G x E interaction for most QTLs.

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[1] Genetics. 1991 Jan;127(1):181-97 - PubMed

[2] Genetics. 1991 Jan;127(1):181-97 - PubMed

[3] Proc Natl Acad Sci U S A. 1987 Apr;84(8):2363-7 - PubMed

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[10] Genetics. 1989 Jan;121(1):185-99 - PubMed

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Identification of genetic factors contributing to heterosis in a hybrid from two elite maize inbred lines using molecular markers

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Identification of genetic factors contributing to heterosis in a hybrid from two elite maize inbred lines using molecular markers

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