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机译:花生中异戊烯基转移酶基因( IPT i>)的表达调控可显着提高田间条件下的耐旱性并提高产量。
biosynthesis; control; crops; drought; drought resistance; genes; genetic transformation; groundnuts; irrigation; oil plants; photosynthesis; plant breeding; plant physiology; protein sources; senescence; stomata; stomatal resistance.tobacco; transgenic plants; transgenics; transpiration; yields; Arachis; Arachis hypogaea; Nicotiana; plants; Papilionoideae; Fabaceae; Fabales; dicotyledons; angiosperms; Spermatophyta; plants; eukaryotes; Arachis; Solanaceae; Solanales; carbon assimilation; carbon dioxide fixation; drought tolerance; genetically engineered plants; genetically modified plants; GMOs; oil crops; peanuts; watering;
机译:花生中异戊烯基转移酶基因( IPT i>)的表达调控可显着提高田间条件下的耐旱性并提高产量。
机译:拟南芥半乳糖醇合酶基因的过量表达提高了转基因水稻的耐旱性并提高了田间的谷物产量
机译:拟拟拟拟拟亚磷酸磷酸酶基因(AVP1)的表达改善了干旱和耐盐性,并增加了现场条件下的纤维产量
机译:表达SAG12-IPT基因控制细胞分裂素合成的农杆菌的叶片和根中的脂肪代谢与耐旱性的提高
机译:在雨养和灌溉条件下生长的春小麦的产量,产量组成和耐旱性状的关联图谱。
机译:拟南芥半乳糖醇合酶基因的过表达提高了转基因水稻的耐旱性并提高了田间的谷物产量
机译:Anarabidopsis的过度表达Thilalabopsis in合成酶基因改善了转基因水稻的耐旱性,并增加了该领域的籽粒产量