Overexpression of Phytochelatin Synthase in Arabidopsis Leads to Enhanced Arsenic Tolerance and Cadmium Hypersensitivity
スポンサーリンク
概要
著者
-
LEE David
Division of Rheumatology, Allergy and Clinical Immunology, Department of Medicine
-
Schroeder Julian
Division Of Biological Sciences Cell And Developmental Biology Section And Center For Molecular Gene
-
Schroeder Julian
Division Of Biology Cell And Developmental Biology Section And Center For Molecular Genetics Univers
-
Meagher Richard
Department Of Genetics Life Sciences Building University Of Georgia
-
Meagher Richard
Department Of Genetics University Of Georgia
-
LI Yujing
Department of Genetics, University of Georgia
-
DHANKHER Om
Department of Genetics, University of Georgia
-
CARREIRA Laura
Applied PhytoGenetic, Inc.
-
CHEN Alice
Division of Biology, Cell and Developmental Biology Section, and Center for Molecular Genetics, Univ
-
BALISH Rebecca
Department of Genetics, University of Georgia
-
Li Yujing
Department Of Genetics University Of Georgia
-
Chen Alice
Division Of Biology Cell And Developmental Biology Section And Center For Molecular Genetics Univers
-
Dhankher Om
Department Of Genetics University Of Georgia
-
Carreira Laura
Applied Phytogenetic Inc.
-
Balish Rebecca
Department Of Genetics University Of Georgia
-
Lee David
Division Of Biology Cell And Developmental Biology Section And Center For Molecular Genetics University Of California
関連論文
- Comparison of thymocyte development and cytokine production in CD7-deficient, CD28-deficient and CD7/CD28 double-deficient mice
- Functions of HKT transporters in sodium transport in roots and in protecting leaves from salinity stress
- TRANSCRIPTIONAL REGULATION OF RICE HKT1 GENE BY K^+, Na^+
- Inverted Repeat PCR for the Rapid Assembly of Constructs to Induce RNA Interference
- Calcium Regulation of Sodium Hypersensitivities of sos3 and athkt1 Mutants
- Two Plasma Membrane H^+_ATPase Genes Expressed in Guard Cells of Vicia faba Are Also Expressed Throughout the Plant
- An HPLC-ICP-MS technique for determination of cadmium-phytochelatins in genetically modified Arabidopsis thaliana
- Overexpression of Phytochelatin Synthase in Arabidopsis Leads to Enhanced Arsenic Tolerance and Cadmium Hypersensitivity