植物生物技术 = Plant biotechnology / [edited by] Qu Lijia. — Beijing : Science Press, 2007. – (58.8213/P713)

Contents

    目 录<br>    
    1 中文摘要
    植物生物技术<br>    7 Tuning the pores：towards engineering plants for improved water use efficiency
     调整通道：制造具有更高水利用效率的基因工程植物<br>    15 Transforming kelp into a marine bioreactor
     将海藻变成海洋生物反应器
    20 Bringing medicinal plants into cultivation：Opportunities and challenges for biotechnology
     药用植物的种植——生物技术的机遇与挑战<br>    26 Using RNAi to improve plant nutritional value：from mechanism to application
     利用RNAi提高植物的营养价值——原理与应用
    33 Secondary plant metabolites in phytoremediation and biotransformation
     植物除污和生物转化中的植物次生代谢物
    41 The diversity of RNA siIencing pathways in plants
     植物中RNA沉默途径的多样性<br>    54 Agrobacterium T-DNA integration：molecules and models
     农杆菌T-DNA整合：分子与模型
    63 Genetic engineering of wheat-current challenges and opportunities
     小麦基因工程——目前的挑战和机遇<br>    70 Divide and conquer：development and cell cycle genes in plant transformation
     分隔与征服：植物转化中的发育和细胞周期基因<br>    77 Global trends in plant transgenic science and technology(1973-2003)
     植物转基因科学和技术的全球趋势(1973—2003)
    83 Engineering drought and salinity toierance in plants：lessons from genome-wide expression profiling in Arabidopsis
     耐旱和耐盐的植物基因工程：拟南芥全基因组表达谱的启示<br>    89 Biopharmaceutical production in plants：problems，solutions and opportunities
     在植物中生产生物医学产品：问题．解决方案和机遇<br>    96 Engineering plants with increased disease resistance：what are we going to express?
     制造具有更高抗病能’<br>    104 Engineering plants with increased disease resistance：how are we going to express it?
     制造具有更高的抗病能力的基因工程植物：我们怎样表达?
    112 Genomics-based approaches to improve drought tolerance of crops
     基因组学方法提高农作物的耐旱性<br>    120 Identification．isolation and pyramiding of quantitative trait loci for rice breeding
     鉴定、分离和增加数量性状位点用于水稻育种
    127 Potato in the age of biotechnology
     生物技术时代的马铃薯<br>    134 Golden Rice-five years on the road-five years to go?
     黄金水稻——五年的历程及五年后的期待<br>    143 Progress in the dissection and manipulation of vitamin E synthesis
     维生素E合成的解析和操作进展
    149 Plant-derived pharmaceuticals-the road forward
     植物源药物——前途无量<br>    155 Volatile science? Metabolic engineering of terpenoids in plants
     挥发性的科学?植物萜类的代谢工程<br>    164 Microarray expression profiling resources for plant genomics
     用于植物基因组学研究的基因芯片表达谱资源
    171 Developing salt-tolerant crop plants：challenges and opportunities
     耐盐农作物的开发：挑战和机遇<br>    177 Genomics-assisted breeding for crop improvement
     用于作物改良的基因组学辅助育种<br>