植物螯合肽及其在重金属胁迫下的适应机制

Phytochelatin accumulation and cadmium tolerance in selected tomato cell lines. Subhash CG,Peter BG. Plant Physiology . 1991

Increased zinc tolerance in Silene vulgaris Garcke is not due to increased production of phytochelations. Harmens H,Den Hartog PR,Ten BWM et al. Plant Physiology . 1993

Molecularphysiologicalanalysisofheavymetaltransportinahyperaccumulatingplantspecies. KochianLA. Proceedingsof5thInternationalConferenceontheBiogeochemistryofTraceElements . 1999

MorphologicalandbiochemicalchangesofZinniaelegansunderCadmiumstress. LiuTW,WangSY,ChenCCetal. Proceedingsof5thInternationalConferenceontheBiogeochemistryofTraceElements . 1999

Isolation of mutants of Scizosaccharomyces pombe unable to synthesize cadystin, small Cdbinding peptides. Mutoh N,Hayashi Y. Biochemistry and Biophysics . 1988

A gel electrophoresis assay for phytochelatins. Abrahamson SL,Speiser DM,Ow Dw. Analytical Biochemistry . 1992

HigherplantmetallothioneingenesconferCuresistancetoyeast. AkahoshiE,FujiwaraT,ChinoM. PlantNutritionforSustainableFoodProductionandEnviron ment . 1997

TheisolationofatonoplastproteinpossiblyrelatedtonaturallyselectedZinctoleranceinSilenevulgarisusing2Dgelelectophoresis. ChardonnensAN,HakvoortHWJ,KoevoetsPLMetal. Proceedingsof5thInternationalConferenceontheBiogeochemistryofTraceElements . 1999

Transport of metal-binding peptides by HMT1, a fission yeast ABC-type vacuolar membrane protein. Ortiz DF,Ruscitti T,McCue KF et al. Journal of Biological Chemistry . 1995

Hydroxymethyl-Phytochelatins[(γGlutamylcysteine) nSerine]aremetal inducedpeptidesofthePoaceae. SigridK,WolfgangF,InaZ. Plant and Physiology . 1994

Phytochelatin accumulation and cadmium tolerance in selected tomato cell lines. Subhash CG,Peter BG. Plant Physiology . 1991

Increased zinc tolerance in Silene vulgaris Garcke is not due to increased production of phytochelations. Harmens H,Den Hartog PR,Ten BWM et al. Plant Physiology . 1993

Molecularphysiologicalanalysisofheavymetaltransportinahyperaccumulatingplantspecies. KochianLA. Proceedingsof5thInternationalConferenceontheBiogeochemistryofTraceElements . 1999

MorphologicalandbiochemicalchangesofZinniaelegansunderCadmiumstress. LiuTW,WangSY,ChenCCetal. Proceedingsof5thInternationalConferenceontheBiogeochemistryofTraceElements . 1999

Isolation of mutants of Scizosaccharomyces pombe unable to synthesize cadystin, small Cdbinding peptides. Mutoh N,Hayashi Y. Biochemistry and Biophysics . 1988

A gel electrophoresis assay for phytochelatins. Abrahamson SL,Speiser DM,Ow Dw. Analytical Biochemistry . 1992

HigherplantmetallothioneingenesconferCuresistancetoyeast. AkahoshiE,FujiwaraT,ChinoM. PlantNutritionforSustainableFoodProductionandEnviron ment . 1997

TheisolationofatonoplastproteinpossiblyrelatedtonaturallyselectedZinctoleranceinSilenevulgarisusing2Dgelelectophoresis. ChardonnensAN,HakvoortHWJ,KoevoetsPLMetal. Proceedingsof5thInternationalConferenceontheBiogeochemistryofTraceElements . 1999

Transport of metal-binding peptides by HMT1, a fission yeast ABC-type vacuolar membrane protein. Ortiz DF,Ruscitti T,McCue KF et al. Journal of Biological Chemistry . 1995

Hydroxymethyl-Phytochelatins[(γGlutamylcysteine) nSerine]aremetal inducedpeptidesofthePoaceae. SigridK,WolfgangF,InaZ. Plant and Physiology . 1994