Distribution of allelic variation for genes of vernalization and photoperiod among wheat cultivars from 23 countries
Molecular markers for vernalization genes Vrn-A1, Vrn-B1, Vrn-D1 and Vrn-B3 and photoperiod gene Ppd-D1 were used to detect the presence of these genes among 755 cultivars from 23 countries. Days to heading and physiological maturity of these cultivars were also recorded in Anyang, Henan province, China to provide information for their utilization in Chinese wheat breeding program. Frequencies of Vrn-A1, Vrn-B1, Vrn-D1, and vrn-A1+vrn-B1+vrn-D1 were 13.0%, 21.1%, 15.6%, and 64.2%, respectively. Dominant allele Vrn-B3 was absent in all tested materials. Dominant vernalization alleles Vrn-A1, Vrn-B1, and Vrn-D1 were mainly observed in Chinese spring wheat and middle and upper Yangtze Valley winter wheat regions, Italy, India, Japan, Canada, Mexico, Chile, Argentina, and Australia with spring type, while cultivars carryied all recessive alleles at the four vernalization loci. The gene recombination of vrn-A1, vrn-D1, and Vrn-B1 was found in winter wheat regions of northern China, middle and southern US, Germany, France, Norway, Ukraine, Russia, Turkey, Iran, Hungary, Bulgaria, Romania, and Serbia, where the wheat growth habit is winter type. The frequency of Ppd-D1a was 55.2%, and photoperiod sensitive allele Ppd-D1b was mainly observed in cultivars from higher latitude regions of US, Germany, Norway, Hungary, northeastern China, Canada, Chile, and Argentina; while photoperiod insensitive allele Ppd-D1a was observed in the other wheat-growing regions. Most of cultivars with photoperiod insensitive allele Ppd-D1a could complete physiological maturity in Anyang, whereas cultivars from Germany, Norway, Hungary, northwestern US, northeast China, Chile and Argentina could not mature well. In Anyang, flowering time was not speeded up by the presence of dominant vernalization allele Vrn-A1a, cultivars with Vrn-B1 and Vrn-D1 could head normally due to the completion of vernalization requirement during winter season.
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Institute of Crop Sciences
2011
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| Subjects: | AGRICULTURAL SCIENCES AND BIOTECHNOLOGY, Molecular Markers, Wheat Growth Habit, Heading Date, WHEAT, VERNALIZATION, PHOTOPERIODICITY, GENES, GENETIC MARKERS, PLANT HABIT, |
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dig-cimmyt-10883-28852023-10-26T15:26:12Z Distribution of allelic variation for genes of vernalization and photoperiod among wheat cultivars from 23 countries Yang Fang-Ping Han Li-Ming Yan Jun Xianchun Xia Yong Zhang Yanying Qu Wang Zhong-Wei He Zhonghu AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Molecular Markers Wheat Growth Habit Heading Date WHEAT VERNALIZATION PHOTOPERIODICITY GENES GENETIC MARKERS PLANT HABIT Molecular markers for vernalization genes Vrn-A1, Vrn-B1, Vrn-D1 and Vrn-B3 and photoperiod gene Ppd-D1 were used to detect the presence of these genes among 755 cultivars from 23 countries. Days to heading and physiological maturity of these cultivars were also recorded in Anyang, Henan province, China to provide information for their utilization in Chinese wheat breeding program. Frequencies of Vrn-A1, Vrn-B1, Vrn-D1, and vrn-A1+vrn-B1+vrn-D1 were 13.0%, 21.1%, 15.6%, and 64.2%, respectively. Dominant allele Vrn-B3 was absent in all tested materials. Dominant vernalization alleles Vrn-A1, Vrn-B1, and Vrn-D1 were mainly observed in Chinese spring wheat and middle and upper Yangtze Valley winter wheat regions, Italy, India, Japan, Canada, Mexico, Chile, Argentina, and Australia with spring type, while cultivars carryied all recessive alleles at the four vernalization loci. The gene recombination of vrn-A1, vrn-D1, and Vrn-B1 was found in winter wheat regions of northern China, middle and southern US, Germany, France, Norway, Ukraine, Russia, Turkey, Iran, Hungary, Bulgaria, Romania, and Serbia, where the wheat growth habit is winter type. The frequency of Ppd-D1a was 55.2%, and photoperiod sensitive allele Ppd-D1b was mainly observed in cultivars from higher latitude regions of US, Germany, Norway, Hungary, northeastern China, Canada, Chile, and Argentina; while photoperiod insensitive allele Ppd-D1a was observed in the other wheat-growing regions. Most of cultivars with photoperiod insensitive allele Ppd-D1a could complete physiological maturity in Anyang, whereas cultivars from Germany, Norway, Hungary, northwestern US, northeast China, Chile and Argentina could not mature well. In Anyang, flowering time was not speeded up by the presence of dominant vernalization allele Vrn-A1a, cultivars with Vrn-B1 and Vrn-D1 could head normally due to the completion of vernalization requirement during winter season. 1917-1925 2013-06-07T21:12:49Z 2013-06-07T21:12:49Z 2011 Article 0496-3490 http://hdl.handle.net/10883/2885 10.3724/SP.J.1006.2011.01917 English CIMMYT manages Intellectual Assets as International Public Goods. The user is free to download, print, store and share this work. In case you want to translate or create any other derivative work and share or distribute such translation/derivative work, please contact CIMMYT-Knowledge-Center@cgiar.org indicating the work you want to use and the kind of use you intend; CIMMYT will contact you with the suitable license for that purpose. Open Access PDF Institute of Crop Sciences 11 37 Acta Agronomica Sinica |
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AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Molecular Markers Wheat Growth Habit Heading Date WHEAT VERNALIZATION PHOTOPERIODICITY GENES GENETIC MARKERS PLANT HABIT AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Molecular Markers Wheat Growth Habit Heading Date WHEAT VERNALIZATION PHOTOPERIODICITY GENES GENETIC MARKERS PLANT HABIT |
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AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Molecular Markers Wheat Growth Habit Heading Date WHEAT VERNALIZATION PHOTOPERIODICITY GENES GENETIC MARKERS PLANT HABIT AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Molecular Markers Wheat Growth Habit Heading Date WHEAT VERNALIZATION PHOTOPERIODICITY GENES GENETIC MARKERS PLANT HABIT Yang Fang-Ping Han Li-Ming Yan Jun Xianchun Xia Yong Zhang Yanying Qu Wang Zhong-Wei He Zhonghu Distribution of allelic variation for genes of vernalization and photoperiod among wheat cultivars from 23 countries |
| description |
Molecular markers for vernalization genes Vrn-A1, Vrn-B1, Vrn-D1 and Vrn-B3 and photoperiod gene Ppd-D1 were used to detect the presence of these genes among 755 cultivars from 23 countries. Days to heading and physiological maturity of these cultivars were also recorded in Anyang, Henan province, China to provide information for their utilization in Chinese wheat breeding program. Frequencies of Vrn-A1, Vrn-B1, Vrn-D1, and vrn-A1+vrn-B1+vrn-D1 were 13.0%, 21.1%, 15.6%, and 64.2%, respectively. Dominant allele Vrn-B3 was absent in all tested materials. Dominant vernalization alleles Vrn-A1, Vrn-B1, and Vrn-D1 were mainly observed in Chinese spring wheat and middle and upper Yangtze Valley winter wheat regions, Italy, India, Japan, Canada, Mexico, Chile, Argentina, and Australia with spring type, while cultivars carryied all recessive alleles at the four vernalization loci. The gene recombination of vrn-A1, vrn-D1, and Vrn-B1 was found in winter wheat regions of northern China, middle and southern US, Germany, France, Norway, Ukraine, Russia, Turkey, Iran, Hungary, Bulgaria, Romania, and Serbia, where the wheat growth habit is winter type. The frequency of Ppd-D1a was 55.2%, and photoperiod sensitive allele Ppd-D1b was mainly observed in cultivars from higher latitude regions of US, Germany, Norway, Hungary, northeastern China, Canada, Chile, and Argentina; while photoperiod insensitive allele Ppd-D1a was observed in the other wheat-growing regions. Most of cultivars with photoperiod insensitive allele Ppd-D1a could complete physiological maturity in Anyang, whereas cultivars from Germany, Norway, Hungary, northwestern US, northeast China, Chile and Argentina could not mature well. In Anyang, flowering time was not speeded up by the presence of dominant vernalization allele Vrn-A1a, cultivars with Vrn-B1 and Vrn-D1 could head normally due to the completion of vernalization requirement during winter season. |
| format |
Article |
| topic_facet |
AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Molecular Markers Wheat Growth Habit Heading Date WHEAT VERNALIZATION PHOTOPERIODICITY GENES GENETIC MARKERS PLANT HABIT |
| author |
Yang Fang-Ping Han Li-Ming Yan Jun Xianchun Xia Yong Zhang Yanying Qu Wang Zhong-Wei He Zhonghu |
| author_facet |
Yang Fang-Ping Han Li-Ming Yan Jun Xianchun Xia Yong Zhang Yanying Qu Wang Zhong-Wei He Zhonghu |
| author_sort |
Yang Fang-Ping |
| title |
Distribution of allelic variation for genes of vernalization and photoperiod among wheat cultivars from 23 countries |
| title_short |
Distribution of allelic variation for genes of vernalization and photoperiod among wheat cultivars from 23 countries |
| title_full |
Distribution of allelic variation for genes of vernalization and photoperiod among wheat cultivars from 23 countries |
| title_fullStr |
Distribution of allelic variation for genes of vernalization and photoperiod among wheat cultivars from 23 countries |
| title_full_unstemmed |
Distribution of allelic variation for genes of vernalization and photoperiod among wheat cultivars from 23 countries |
| title_sort |
distribution of allelic variation for genes of vernalization and photoperiod among wheat cultivars from 23 countries |
| publisher |
Institute of Crop Sciences |
| publishDate |
2011 |
| url |
http://hdl.handle.net/10883/2885 |
| work_keys_str_mv |
AT yangfangping distributionofallelicvariationforgenesofvernalizationandphotoperiodamongwheatcultivarsfrom23countries AT hanliming distributionofallelicvariationforgenesofvernalizationandphotoperiodamongwheatcultivarsfrom23countries AT yanjun distributionofallelicvariationforgenesofvernalizationandphotoperiodamongwheatcultivarsfrom23countries AT xianchunxia distributionofallelicvariationforgenesofvernalizationandphotoperiodamongwheatcultivarsfrom23countries AT yongzhang distributionofallelicvariationforgenesofvernalizationandphotoperiodamongwheatcultivarsfrom23countries AT yanyingqu distributionofallelicvariationforgenesofvernalizationandphotoperiodamongwheatcultivarsfrom23countries AT wangzhongwei distributionofallelicvariationforgenesofvernalizationandphotoperiodamongwheatcultivarsfrom23countries AT hezhonghu distributionofallelicvariationforgenesofvernalizationandphotoperiodamongwheatcultivarsfrom23countries |
| _version_ |
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