Protein-Repairing Methionine Sulfoxide Reductases in Photosynthetic Organisms: Gene Organization, Reduction Mechanisms, and Physiological Roles第202-217页
关键词:
光合作用; 基因组; 甲硫氨酸; 植物生理学;
Methods for Analysis of Protein Glutathionylation and their Application to Photosynthetic Organisms第218-235页
关键词:
植物生理学; 光合作用; 蛋白质; 分析方法;
Mutants, Overexpressors, and Interactors of Arabidopsis Plastocyanin Isoforms: Revised Roles of Plastocyanin in Photosynthetic Electron Flow and Thylakoid Redox State第236-248页
关键词:
光合作用; 类囊体; 突变体; 植物生理学;
Accumulation of Flavonoids in an ntra ntrb Mutant Leads to Tolerance to UV-C第249-258页
关键词:
二次代谢; 光合作用; 氧化环境; 基因表达式;
Prompt and Easy Activation by Specific Thioredoxins of Calvin Cycle Enzymes of Arabidopsis thaliana Associated in the GAPDH/CP12/PRK Supramolecular Complex第259-269页
关键词:
酶学; 代谢调节; 光合酶; 硫氧还蛋白;
Photosynthetic Regulation of the Cyanobacterium Synechocystis sp. PCC 6803 Thioredoxin System and Functional Analysis of TrxB (Trx x) and TrxQ (Trx y) Thioredoxins第270-283页
关键词:
蓝藻菌; 光合作用; 代谢调节; 氧化调节;
Induction of the AOX1D Isoform of Alternative Oxidase in A. thaliana T-DNA Insertion Lines Lacking Isoform AOX1A Is Insufficient to Optimize Photosynthesis when Treated with Antimycin A第284-297页
关键词:
植物生理学; 光合作用; 类囊体; 代谢调节;
NADPH Thioredoxin Reductase C Controls the Redox Status of Chloroplast 2-Cys Peroxiredoxins in Arabidopsis thaliana第298-307页
关键词:
叶绿体; 光合作用; 植物生理学; 阿布属;
Comparative Genomic Study of the Thioredoxin Family in Photosynthetic Organisms with Emphasis on Populus trichocarpa第308-322页
关键词:
植物生理学; 光合作用; 氧化调节; 叶绿体;
Conserved Functions of Arabidopsis and Rice CC-Type Glutaredoxins in Flower Development and Pathogen Response第323-335页
关键词:
稻; 病原体防护; bowen病; roxy1;
Roles of Thioredoxins in the Obligate Anaerobic Green Sulfur Photosynthetic Bacterium Chlorobaculum tepidum第336-343页
关键词:
植物生理学; 光合作用; 氧化调节; 叶绿体;
H2O2-Activated Up-Regulation of Glutathione in Arabidopsis Involves Induction of Genes Encoding Enzymes Involved in Cysteine Synthesis in the Chloroplast第344-356页
关键词:
谷胱甘肽; 半胱氨酸; 叶绿体; 光合作用;
Redox-Dependent Regulation of the Stress-Induced Zinc-Finger Protein SAP12 in Arabidopsis thaliana第357-367页
