摘要:
By analyzing a Jatropha genome, NF-YB-encoding genes of SEQ ID NOs: 1 to 11, fragments of NF-YB-encoding genes of SEQ ID NOs: 12 and 13, and genes relating thereto were found. By transforming Jatropha with these NF-YB-encoding genes and the like, it is possible to overexpress a NF-YB polypeptide and so on, and to significantly improve the productivity of protein synthesis involved by the NF-YB polypeptide, and to significantly improve the dry stress resistance, for example. As a result, it is possible to create dry stress resistant Jatropha capable of ensuring high growth even under water deficient conditions.
摘要翻译:通过分析麻风树基因组,发现SEQ ID NO:1至11的NF-YB编码基因,SEQ ID NO:12和13的NF-YB编码基因的片段,以及与之相关的基因。 通过使用这些NF-YB编码基因等将麻疯树进行转化,可以过表达NF-YB多肽等,并显着提高NF-YB多肽所涉及的蛋白质合成的生产力,并显着提高 耐干性,例如。 因此,即使在缺水条件下,也可以产生能够确保高生长的耐干旱麻疯树。
摘要:
By analyzing a Jatropha genome, NF-YB-encoding genes of SEQ ID NOs: 1 to 11, fragments of NF-YB-encoding genes of SEQ ID NOs: 12 and 13, and genes relating thereto were found. By transforming Jatropha with these NF-YB-encoding genes and the like, it is possible to overexpress a NF-YB polypeptide and so on, and to significantly improve the productivity of protein synthesis involved by the NF-YB polypeptide, and to significantly improve the dry stress resistance, for example. As a result, it is possible to create dry stress resistant Jatropha capable of ensuring high growth even under water deficient conditions.
摘要翻译:通过分析麻风树基因组,发现SEQ ID NO:1至11的NF-YB编码基因,SEQ ID NO:12和13的NF-YB编码基因的片段,以及与之相关的基因。 通过使用这些NF-YB编码基因等将麻疯树进行转化,可以过表达NF-YB多肽等,并显着提高NF-YB多肽所涉及的蛋白质合成的生产力,并显着提高 耐干性,例如。 因此,即使在缺水条件下,也可以产生能够确保高生长的耐干旱麻疯树。
摘要:
A PPAT polypeptide of SEQ ID NO: 1 derived from Jatropha, a PPAT polynucleotide of SEQ ID NO: 2 and so on were found. By transforming Jatropha with these PPAT polynucleotides, it is possible to overexpress the PPAT polypeptide in comparison with a wild type, and biosynthesis of coenzyme A is promoted by these polypeptides, the metabolic function and viability of the transformed Jatropha are enhanced, and for example, stress resistance can be significantly improved.
摘要翻译:发现衍生自麻疯树的SEQ ID NO:1的PPAT多肽,SEQ ID NO:2的PPAT多核苷酸等。 通过用这些PPAT多核苷酸转化麻疯树,可以与野生型相比过表达PPAT多肽,并且这些多肽促进了辅酶A的生物合成,增强了转化的麻疯树的代谢功能和活力,例如, 耐应力可显着提高。
摘要:
A PPAT polypeptide of SEQ ID NO: 1 derived from Jatropha, a PPAT polynucleotide of SEQ ID NO: 2 and so on were found. By transforming Jatropha with these PPAT polynucleotides, it is possible to overexpress the PPAT polypeptide in comparison with a wild type, and biosynthesis of coenzyme A is promoted by these polypeptides, the metabolic function and viability of the transformed Jatropha are enhanced, and for example, stress resistance can be significantly improved.
摘要翻译:发现衍生自麻疯树的SEQ ID NO:1的PPAT多肽,SEQ ID NO:2的PPAT多核苷酸等。 通过用这些PPAT多核苷酸转化麻疯树,可以与野生型相比过表达PPAT多肽,并且这些多肽促进了辅酶A的生物合成,增强了转化的麻疯树的代谢功能和活力,例如, 耐应力可显着提高。