Inheritance and QTL analysis of the determinants of flower color in tetraploid cut roses

The success of cut rose cultivars is a direct result of their aesthetic value. The rose industry thrives on novelty, and the production of novel flower color has been extensively studied. The most popular color is red, and it is, therefore, important for breeders to produce a good red cultivar. The...

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Published in	Molecular breeding Vol. 36; no. 10; pp. 143 - 14
Main Authors	Gitonga, Virginia W., Stolker, Robert, Koning-Boucoiran, Carole F. S., Aelaei, Mitra, Visser, Richard G. F., Maliepaard, Chris, Krens, Frans A.
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.10.2016 Springer Nature B.V
Subjects	anthocyanidins anthocyanins Biomedical and Life Sciences Biotechnology chromosome mapping Color Color determinants Cultivars Flowers Gardens & gardening Genetics Heredity Inheritance inheritance (genetics) Life Sciences Molecular biology Novelty pH effects Pigmentation Plant biology Plant Genetics and Genomics Plant Pathology Plant Physiology Plant Sciences QTL analysis Quantitative trait loci Rosa Rosa × hybrida Salmon Salmonidae Tetraploid rose tetraploidy vacuoles QTL analysis Color determinants Genetics Tetraploid rose Inheritance Rosa × hybrida
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Abstract	The success of cut rose cultivars is a direct result of their aesthetic value. The rose industry thrives on novelty, and the production of novel flower color has been extensively studied. The most popular color is red, and it is, therefore, important for breeders to produce a good red cultivar. The final visible color of the flower is a combination of a number of factors including the type of anthocyanin accumulating, modifications to the anthocyanidin molecule, co-pigmentation and vacuolar pH. Here, we analyze the quantitative variation of the biochemical constituents of flower color in a tetraploid rose population and combine this with marker information in the segregating rose population to map the chromosomal locations of putative QTLs for flower color traits. Within our tetraploid population, we found a number of QTLs that were mapped on ICM 1, 2, 6 and 7. We were able to show the effect of the different QTLs on the final visible color of the flower from salmon to dark red.
AbstractList	The success of cut rose cultivars is a direct result of their aesthetic value. The rose industry thrives on novelty, and the production of novel flower color has been extensively studied. The most popular color is red, and it is, therefore, important for breeders to produce a good red cultivar. The final visible color of the flower is a combination of a number of factors including the type of anthocyanin accumulating, modifications to the anthocyanidin molecule, co-pigmentation and vacuolar pH. Here, we analyze the quantitative variation of the biochemical constituents of flower color in a tetraploid rose population and combine this with marker information in the segregating rose population to map the chromosomal locations of putative QTLs for flower color traits. Within our tetraploid population, we found a number of QTLs that were mapped on ICM 1, 2, 6 and 7. We were able to show the effect of the different QTLs on the final visible color of the flower from salmon to dark red.The success of cut rose cultivars is a direct result of their aesthetic value. The rose industry thrives on novelty, and the production of novel flower color has been extensively studied. The most popular color is red, and it is, therefore, important for breeders to produce a good red cultivar. The final visible color of the flower is a combination of a number of factors including the type of anthocyanin accumulating, modifications to the anthocyanidin molecule, co-pigmentation and vacuolar pH. Here, we analyze the quantitative variation of the biochemical constituents of flower color in a tetraploid rose population and combine this with marker information in the segregating rose population to map the chromosomal locations of putative QTLs for flower color traits. Within our tetraploid population, we found a number of QTLs that were mapped on ICM 1, 2, 6 and 7. We were able to show the effect of the different QTLs on the final visible color of the flower from salmon to dark red. The success of cut rose cultivars is a direct result of their aesthetic value. The rose industry thrives on novelty, and the production of novel flower color has been extensively studied. The most popular color is red, and it is, therefore, important for breeders to produce a good red cultivar. The final visible color of the flower is a combination of a number of factors including the type of anthocyanin accumulating, modifications to the anthocyanidin molecule, co-pigmentation and vacuolar pH. Here, we analyze the quantitative variation of the biochemical constituents of flower color in a tetraploid rose population and combine this with marker information in the segregating rose population to map the chromosomal locations of putative QTLs for flower color traits. Within our tetraploid population, we found a number of QTLs that were mapped on ICM 1, 2, 6 and 7. We were able to show the effect of the different QTLs on the final visible color of the flower from salmon to dark red.
ArticleNumber	143
Author	Stolker, Robert Koning-Boucoiran, Carole F. S. Visser, Richard G. F. Aelaei, Mitra Krens, Frans A. Maliepaard, Chris Gitonga, Virginia W.
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Copyright	The Author(s) 2016 Copyright Springer Science & Business Media 2016 Molecular Breeding is a copyright of Springer, (2016). All Rights Reserved. © 2016. This work is published under http://creativecommons.org/licenses/by/4.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. Wageningen University & Research
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Keywords	QTL analysis Color determinants Genetics Tetraploid rose Inheritance Rosa × hybrida
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Snippet	The success of cut rose cultivars is a direct result of their aesthetic value. The rose industry thrives on novelty, and the production of novel flower color...
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SubjectTerms	anthocyanidins anthocyanins Biomedical and Life Sciences Biotechnology chromosome mapping Color Color determinants Cultivars Flowers Gardens & gardening Genetics Heredity Inheritance inheritance (genetics) Life Sciences Molecular biology Novelty pH effects Pigmentation Plant biology Plant Genetics and Genomics Plant Pathology Plant Physiology Plant Sciences QTL analysis Quantitative trait loci Rosa Rosa × hybrida Salmon Salmonidae Tetraploid rose tetraploidy vacuoles
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Title	Inheritance and QTL analysis of the determinants of flower color in tetraploid cut roses
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