Isolation,functional characterization and stress responses of raffinose synthase genes in sugar beet |
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| Authors: | Kunihide Kito Koji Yamane Takahiro Yamamori Hiroaki Matsuhira Yoshito Tanaka Teruhiro Takabe |
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| Institution: | 1.Graduate School of Environmental and Human Sciences,Meijo University,Nagoya,Japan;2.Research Institute,Meijo University,Nagoya,Japan;3.Hokkaido Agricultural Research Center,National Agriculture and Food Organization,Hokkaido,Japan;4.Graduate School of Agricultural Sciences,Kinki University,Nara,Japan |
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| Abstract: | Raffinose (sucrosylgalactoside oligosaccharide) is a water soluble carbohydrate and accumulates in response to abiotic stresses in plants. Plant raffinose synthases are poorly characterized, and the genes involved in raffinose biosynthesis are unknown in sugar beet. Here, we report the isolation of two genes encoding raffinose synthase (BvRS1 and BvRS2) as well as a gene encoding galactinol synthase (BvGolS1) from sugar beet. BvRS1 and BvRS2 show high homologies to Arabidopsis raffinose synthase AtRS5. BvRS1 and BvGolS1 were expressed in Escherichia coli. Crude extracts showed the activities of raffinose synthase and galactinol synthase. The K m values of BvRS1 for galactinol and sucrose and the K m values of BvGolS1 for UDP-galactose and myo-inositol were determined. The expression levels of BvRS1 were significantly higher than that of BvRS2. The mRNA for BvRS1 was rapidly induced by cold stress whereas the mRNA for BvRS2 was slowly induced by cold and salt stresses. These data suggest that BvRS1 and BvRS2 encode raffinose synthase genes responsible to cold and salt stress, respectively. |
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