Smigocki A, Neal J W, McCanna I, Douglass L
Plant Molecular Biology Laboratory, U.S. Department of Agriculture, Beltsville, MD 20705.
Plant Mol Biol. 1993 Oct;23(2):325-35. doi: 10.1007/BF00029008.
The bacterial isopentenyl transferase (ipt) gene involved in cytokinin biosynthesis was fused with a promoter from the proteinase inhibitor II (PI-IIK) gene and introduced into Nicotiana plumbaginifolia. Transcripts of the ipt gene were wound-inducible in leaves of transgenic PI-II-ipt plants. In leaf disks excised from fully expanded leaves, transcript levels increased 25- to 35-fold within 24 h and by 48 h were reduced by about 50%. In flowering plants, message levels were 2- to 5-fold higher than in preflowering plants. These plants were used to test for defensive properties of cytokinins against insects. Manduca sexta larvae consumed up to 70% less of the PI-II-ipt leaf material on flowering plants than larvae feeding on controls. Normal development of Myzus persicae nymphs was also delayed. Approximately half as many nymphs reached adulthood on PI-II-ipt leaves than on controls. Zeatin and zeatinriboside levels in leaves remaining on PI-II-ipt plants after hornworm feeding were elevated by about 70-fold and the chlorophyll a/b content was double that of controls. Exogenous applications of zeatin to the PI-II-ipt leaves enhanced the level of resistance to the tobacco hornworm and almost completely inhibited normal development of the green peach aphid nymphs. Transcript levels of an acidic chitinase gene were low and minimally inducible in PI-II-ipt leaves. The mode of action of the cytokinin gene product on enhanced insect resistance is not clear but may involve the products of secondary metabolic pathways.
参与细胞分裂素生物合成的细菌异戊烯基转移酶(ipt)基因与蛋白酶抑制剂II(PI-IIK)基因的启动子融合,并导入到烟草中。ipt基因的转录本在转基因PI-II-ipt植物的叶片中受创伤诱导。在从完全展开的叶片上切下的叶盘中,转录水平在24小时内增加25至35倍,到48小时时降低约50%。在开花植物中,信使水平比开花前的植物高2至5倍。这些植物被用于测试细胞分裂素对昆虫的防御特性。与取食对照的幼虫相比,烟草天蛾幼虫取食开花植物上的PI-II-ipt叶片材料减少了多达70%。桃蚜若虫的正常发育也被延迟。在PI-II-ipt叶片上发育到成虫期的若虫数量约为对照叶片上的一半。烟草天蛾取食后,PI-II-ipt植物上剩余叶片中的玉米素和玉米素核苷水平提高了约70倍,叶绿素a/b含量是对照的两倍。向PI-II-ipt叶片外源施用玉米素增强了对烟草天蛾的抗性水平,并几乎完全抑制了桃蚜若虫的正常发育。酸性几丁质酶基因在PI-II-ipt叶片中的转录水平较低且诱导程度最小。细胞分裂素基因产物增强昆虫抗性的作用模式尚不清楚,但可能涉及次生代谢途径的产物。
