Environmental risk assessment and field performance of rose (Rosa×hybrida) genetically modified for delphinidin production
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概要
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The release of genetically modified plants into the environment can only occur after permission is obtained from the relevant regulatory authorities. This permission will only be obtained after extensive risk assessment shows comparable risk of impact to the environment and biodiversity as compared to non-transgenic host plants. Two transgenic rose (Rosa×hybrida) lines, whose flowers were modified to a bluer colour as a result of accumulation of delphinidin-based anthocyanins, have been trialed in greenhouses and the field in both Japan and Australia. Flower colour modification was due to expression of genes of a viola flavonoid 3′,5′-hydroxylase and a torenia anthocyanin 5-acyltransferase. In all trials it was shown that the performance of the two transgenic lines, as measured by their growth characters, was comparable to the host untransformed variety. Biological assay showed that the transgenic lines did not produce allelopathic compounds. In Japan, seeds from wild rose species that had grown in close proximity to the transgenic roses did not carry either a Rosa×hybrida specific marker gene or the transgenes. In hybridization experiments using transgenic rose pollen and wild rose female parents, the transgenes were not detected in the seed obtained, though there was a low frequency of seed set. The transgene was also not transmitted when Rosa×hybrida cultivars were used as females. In in situ hybridization analysis transgene transcripts were only detected in the epidermal cells in the petals of the transgenic roses. In combination, the breeding and in situ analysis results show that the transgenic roses contain the transgene only in the L1 layer cells and not in the L2 layer cells that generate reproductive cells. General release permissions have been granted for both transgenic lines in Japan and one is now commercially produced.
- 2011-03-25
著者
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Tanaka Y
Suntory Ltd. Osaka Jpn
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Tanaka Y
National Inst. Agrobiological Resources Tsukuba Jpn
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Fukui Hirokazu
Faculty Of Agriculture Gifu University
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TANAKA Yoshikazu
Institute for Geothermal Sciences Graduate School of Science, Kyoto University
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NAKAMURA Noriko
Institute for Advanced Technology, Suntory, Ltd.
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FUKUCHI MIZUTANI
Institute for Advanced Technology, Suntory, Ltd.
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TOGAMI Junichi
Institute for Advanced Technology, Suntory, Ltd.
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ISHIGURO Kanako
Institute for Advanced Technology, Suntory, Ltd.
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TSUDA Shinzo
Institute for Advanced Research, Suntory, Ltd.
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KATSUMOTO Yukihisa
Institute for Advanced Research, Suntory, Ltd.
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Fukuchi-Mizutani Masako
Institute for Fundamental Research, Suntory Ltd.
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Nakamura Noriko
Inst. For Plant Sci. Suntory Holdings Ltd.
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Tsuda Shinzo
Inst. For Plant Sci. Suntory Holdings Ltd.
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Tanaka Yoshikazu
Central Res. Laboratories Hokko Chemical Ind. Co.
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Chandler Steve
Florigene Pty Ltd.
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Katsumoto Yukihisa
Inst. For Plant Sci. Suntory Holdings Ltd.
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Senior Mick
Florigene Pty Ltd.
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Matsuda Yoshie
Nisshoku Corporation
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Furuichi Keiji
Nisshoku Corporation
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Yoshimoto Mie
Nisshoku Corporation
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Matsunaga Akihiro
Nisshoku Corporation
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Tasaka Masao
Faculty of Bioscience, Nara Institute of Advanced Science and Technology
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Matsuda Yoshiie
Nisshoku Corporation
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Aida Mitsuhiro
Faculty Of Bioscience Nara Institute Of Advanced Science And Technology
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Tanaka Yoshikazu
Central Research Laboratories Hokko Chemical Industry Co.
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Yoshimoto Mie
Nisshoku Co.
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Matsunaga Akihiro
Nisshoku Co.
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Fukuchi-mizutani Masako
Institute For Plant Science Suntory Holdings Ltd.
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Tasaka Masao
Faculty Of Bioscience Nara Institute Of Advanced Science And Technology
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Furuichi Keiji
Nisshoku Co.
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Ishiguro Kanako
Institute For Plant Science Suntory Holdings Ltd.
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Togami Junichi
Institute For Plant Science Suntory Holdings Ltd.
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Tanaka Yoshikazu
Institute For Advanced Core Technology Suntory Limited
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Tanaka Yoshikazu
Institute For Advanced Core Technology
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Fukuchi-Mizutani Masako
Institute for Advanced Research, Suntory, Ltd.
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Nakamura Noriko
Institute for Advanced Research, Suntory, Ltd.
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