期刊文献+

基因工程改良植物重金属抗性与富集能力的研究进展 被引量:17

Advances in the Research of Genetic Engineering of Heavy Metal Resistance and Accumulation in Plants
下载PDF
导出
摘要 基于分子水平上对植物吸收、解毒、忍耐以及超富集重金属的几个关键步骤的认识 ,以及一些功能基因相继在细菌、酵母、植物和动物中被分离、鉴定 ,近年来 ,人们利用转基因技术提高植物重金属抗性和富集能力方面已获得进展 ,一些功能基因 (如gsh1,MerA和ArsC)及其工程植物已显示出植物修复产业化潜力。特别对转基因技术所采取的分子生物学途径、达到的效果以及存在的问题进行了详述 。 Using plants to remove or inactivate heavy metal pollutants from soils and surface waters provide a cheap and sustainable approach of Phytoremediation. However, field trials suggested that the efficiency of contaminant removal usi ng natural hyperaccumulators is insufficient, due to that many of these species are slow growing and produce little shoot biomass. These factors severely const rain their potential for large-scale decontamination of polluted soils. Moreov er, both the micronutrient and toxic metal content accumulated in crops determin e the quality and safety of our food-chain. By a transgenic approach, the intr od uction of novel genes responsible for hyperaccumulating phenotype into high biom ass plants and/or stable crops uptaking minerals as food is a promising strategy for the development of effective techniques of phytoremediation and improvement of nutritional value of stable food through a viable commercialization. Recentl y, the progress at molecular level for heavy metal uptaking, detoxification and hyperaccumulation in plants, and also the clarification of some functional genes in bacteria, yeasts, plants and animals, have advanced the research on genetic engineering plants of heavy metal resistance and accumulation, and on the functi onal genes (e.g. gsh1, MerA and ArsC) and their genetic transformated plants. T hese studies demonstrated commercialization potentials of phytoremediation. In this paper, the molecular approach, effects and problems in gene transformation were discussed in details, and also the strategy and emphases were probed into t he future research.
出处 《生物工程学报》 CAS CSCD 北大核心 2004年第2期157-164,共8页 Chinese Journal of Biotechnology
基金 国家自然科学基金资助项目 ( 39870 0 78 39970 0 70 ) 中国科学院生命科学创新青年科学家小组经费资助项目 国家转基因植物研究专项经费资助项目 (J0 0 A 0 0 80 3JY0 3A2 0 0 2 )~~
关键词 基因工程 植物 重金属 抗性 富集能力 分子生物学 plants, genetic engenieering, heavy metal, resistance, accumulation
  • 相关文献

参考文献2

二级参考文献11

  • 1熊炎炎,博士学位论文,1998年
  • 2F. Odaware,M. Kauraski,M. Suzuki-Kurasaki.Expression of human metallothionein-2 in Escherichia coli: Cadmium tolerance of transformed cells[].J Biochem (Tokyo).1995
  • 3J. Sambrook,D. W. Russell.Molecular Cloning[]..2002
  • 4Mej醨e,M.B黮ow,L.Metal-bindi ngprotei nsa ndpeptid es inbioremediati ona ndphytoremediati on ofhea vymetals[].Tren dsinBiotech.2001
  • 5Zhang YX,Chai TY,Gerard Burkard.Research advances on the mechanisms of heavy metal tolerancee in plants[].Acta Botanica Sinica.1999
  • 6JeffersonRD,KavanaghTA,BevanMW.GUSfusions:β_glucuronidaseasasensitiveandversatilegenefusionmarkerinhigherplants[].EMBO Journal.1987
  • 7Guerinot,M.G.Th eZIPfa mi lyofm etaltransporters[].BiochimicaBiophysicaActa.2000
  • 8Huang,L,Gitsch ier,J.An ovelgene in volv edinzinct ra nsportisd ef ici entint hele thalmilkmouse[].Nature Genetics.1997
  • 9VanderZaal,B,Neuteboom,L.W,Pi nas,J.E.etal.Over ex pressionofnovelA rabi dopsisg en erelated toputativezinc-t ransp orte rgenesf rom anim al scanlead toen hancedzinc res istanceandaccumulation[].Plant and Physiology.1999
  • 10Murphy,A,Ta iz,L.An ewvertica lme shtransfertechn iquefor metal-tolerancestudies inArabidop sis :Ecotypicvaria-t ionandcopper-sensitivemutant[].Plant Physiology.1995

共引文献15

同被引文献416

引证文献17

二级引证文献222

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部