In collaboration with Ajinomoto Co., Ltd., the Japanese Institute of Physical and Chemical Research used the method of implanting oligosaccharides to develop successful technologies for cultivating drought-resistant plants, providing a new approach to solving agricultural problems in the arid regions.
According to a news bulletin recently published by the Institute of Physical and Chemical Research, the Institute’s scientists used a commonly used experimental plant, Arabidopsis thaliana, to separate synthetic cotton from a raffinose oligosaccharide that accumulates in the drying process to enhance stress resistance. The glucan oligosaccharide "inositol galactose synthase" gene is combined with the promoter gene and then it is implanted into the chromosome of the plant. The stress resistance of the transgenic plant is thus enhanced, and the raffinose is promoted. Savings such as oligosaccharides. The drought-tolerant plants grown using this method will not dry out even if they are not watered for more than 10 days.
The raffinose oligosaccharide is a kind of sugar that promotes the propagation of two-tailed bacteria in the intestine, and plays a role in regulating intestinal function. The researchers used it to cultivate transgenic plants, further increasing its application value. The inositol galactose synthase gene is common in all plants. Therefore, this new technology is expected to become a technology for cultivating drought-tolerant plants, contributing to agricultural development in arid regions.
According to a news bulletin recently published by the Institute of Physical and Chemical Research, the Institute’s scientists used a commonly used experimental plant, Arabidopsis thaliana, to separate synthetic cotton from a raffinose oligosaccharide that accumulates in the drying process to enhance stress resistance. The glucan oligosaccharide "inositol galactose synthase" gene is combined with the promoter gene and then it is implanted into the chromosome of the plant. The stress resistance of the transgenic plant is thus enhanced, and the raffinose is promoted. Savings such as oligosaccharides. The drought-tolerant plants grown using this method will not dry out even if they are not watered for more than 10 days.
The raffinose oligosaccharide is a kind of sugar that promotes the propagation of two-tailed bacteria in the intestine, and plays a role in regulating intestinal function. The researchers used it to cultivate transgenic plants, further increasing its application value. The inositol galactose synthase gene is common in all plants. Therefore, this new technology is expected to become a technology for cultivating drought-tolerant plants, contributing to agricultural development in arid regions.
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