nucleo-cytoplasmic interaction

  • 核质相互作用
nucleo-cytoplasmic interactionnucleo-cytoplasmic interaction
  1. Integration of Sorghum CMS and Nucleo-cytoplasmic Interaction

    高粱CMS与核质基因组互作综述

  2. Research progress of the relation between mitochondrial genetic material and CMS in plants is introduced in regarding to plant mitochondrial genome structure character , genetic diversity , plasmid-like , chimeric gene , RNA editing and nucleo-cytoplasmic interaction .

    本文从植物线粒体基因组结构特点、遗传差异、类质粒、嵌合基因、RNA编辑和核质互作等方面概述了植物线粒体遗传物质与CMS关系的研究进展。

  3. Leaf color mutant is not only the important material for the research of photosynthesis in higher plant , but also plays an important role in the investigation of chlorophyll biosynthesis , chloroplast development , genetic differentiation and understanding of nucleo-cytoplasmic interaction .

    叶色突变体不仅是研究高等植物光合作用不可或缺的重要材料,同时也对研究叶绿素的生物合成,叶绿体结构发育和遗传转化,了解核质互作等发面具有重要的作用。

  4. It was identified that male sterility of Tagetes erecta was Nucleo-Cytoplasmic interaction type with the characteristics of environment insensitiveness and stable inheritance , and was qualitatively controlled by a recessive gene in nucleus .

    研究证实了雄性不育性属核质互作型雄性不育,且主要受一对细胞核基因控制的隐性不育,可育对不育显性,雄性不育是质量性状,不受环境影响,可稳定遗传。

  5. Cytoplasmic male sterile ( CMS ) lines do not only play a major role in cross breeding of crops , but also they are taken as ideal materials for studying pollen development , cytoplasmic inheritance , nucleo-cytoplasmic interaction and time-dependent expression .

    细胞质雄性不育系是作物杂交育种的重要材料,也是研究花粉发育、细胞质遗传、核质互作以及时序性表达的理想材料。