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      QTL analysis of early stage heterosis for biomass in Arabidopsis

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          Abstract

          The main objective of this study was to identify genomic regions involved in biomass heterosis using QTL, generation means, and mode-of-inheritance classification analyses. In a modified North Carolina Design III we backcrossed 429 recombinant inbred line and 140 introgression line populations to the two parental accessions, C24 and Col-0, whose F 1 hybrid exhibited 44% heterosis for biomass. Mid-parent heterosis in the RILs ranged from −31 to 99% for dry weight and from −58 to 143% for leaf area. We detected ten genomic positions involved in biomass heterosis at an early developmental stage, individually explaining between 2.4 and 15.7% of the phenotypic variation. While overdominant gene action was prevalent in heterotic QTL, our results suggest that a combination of dominance, overdominance and epistasis is involved in biomass heterosis in this Arabidopsis cross.

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          The online version of this article (doi:10.1007/s00122-009-1074-6) contains supplementary material, which is available to authorized users.

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          Introduction to Quantitative Genetics

          D. S. Falconer (1996)
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            Molecular analysis of FRIGIDA, a major determinant of natural variation in Arabidopsis flowering time.

            U Johanson, J. West, C. Lister (2000)
            Vernalization, the acceleration of flowering by a long period of cold temperature, ensures that many plants overwinter vegetatively and flower in spring. In Arabidopsis, allelic variation at the FRIGIDA (FRI) locus is a major determinant of natural variation in flowering time. Dominant alleles of FRI confer late flowering, which is reversed to earliness by vernalization. We cloned FRI and analyzed the molecular basis of the allelic variation. Most of the early-flowering ecotypes analyzed carry FRI alleles containing one of two different deletions that disrupt the open reading frame. Loss-of-function mutations at FRI have thus provided the basis for the evolution of many early-flowering ecotypes.
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              Heterosis: revisiting the magic.

              Zachary B. Lippman, Dani Zamir (2007)
              Heterosis results in the phenotypic superiority of a hybrid over its parents with respect to traits such as growth rate, reproductive success and yield. This hybrid vigor is determined by non-mutually exclusive mechanisms, including dominance complementation, overdominance and epistasis. Heterotic genes responsible for elevating crop yields are now being sought using genomics, particularly transcriptomics, but with contradictory results. Because heterosis is an environmentally modified quantitative phenotype, genomic analyses alone will not suffice. Future research should focus on integrating genomic tools in a framework of comprehensive quantitative trait locus (QTL)-based phenotyping, followed by map-based cloning. This 'phenomics' approach should identify loci controlling heterotic phenotypes, and improve understanding of the role of heterosis in evolution and the domestication of crop plants.
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                Author and article information

                Contributors
                : +49-394825257 , +49-394825758 , meyer@ipk-gatersleben.de
                Journal
                Journal ID (nlm-ta): Theor Appl Genet
                Title: TAG. Theoretical and Applied Genetics. Theoretische Und Angewandte Genetik
                Publisher: Springer-Verlag (Berlin/Heidelberg )
                ISSN (Print): 0040-5752
                ISSN (Electronic): 1432-2242
                Publication date (Electronic): 7 June 2009
                Publication date (Print): January 2010
                Volume: 120
                Issue: 2
                Pages: 227-237
                Affiliations
                [1 ]Department of Molecular Genetics, Leibniz Institute of Plant Genetics and Crop Plant Research (IPK), Corrensstraße 3, 06466 Gatersleben, Germany
                [2 ]Institute of Plant Breeding, Seed Science, and Population Genetics, University of Hohenheim, 70599 Stuttgart, Germany
                [3 ]Max-Planck-Institute of Molecular Plant Physiology, 14476 Potsdam-Golm, Germany
                [4 ]Department of Bioinformatics, Institute of Biochemistry and Biology, University of Potsdam, 14476 Potsdam-Golm, Germany
                [5 ]Department of Genetics, Institute of Biochemistry and Biology, University of Potsdam, 14476 Potsdam-Golm, Germany
                [6 ]ICG-III Phytosphere, Forschungszentrum Jülich GmbH, 52425 Jülich, Germany
                [7 ]HYBRO Saatzucht GmbH & Co. KG, 17291 Schenkenberg, Germany
                Author notes

                Communicated by H. Becker.

                Article
                Publisher ID: 1074
                DOI: 10.1007/s00122-009-1074-6
                PMC ID: 2793381
                PubMed ID: 19504257
                SO-VID: 9873c430-2edb-4f2f-aa1a-ab31f9e68ad4
                Copyright © © The Author(s) 2009
                History
                Date received : 4 February 2009
                Date accepted : 18 May 2009
                Categories
                Subject: Original Paper
                Custom metadata
                issue-copyright-statement © Springer-Verlag 2010

                ScienceOpen disciplines: Genetics
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                ScienceOpen disciplines: Genetics

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