2002 Fiscal Year Final Research Report Summary

Study on the molecular basis for the regulation of redox metabolism network in plastids

Research Project

Project/Area Number	13440240
Research Category	Grant-in-Aid for Scientific Research (B)
Allocation Type	Single-year Grants
Section	一般
Research Field	植物生理
Research Institution	Osaka University
Principal Investigator	HASE Toshiharu Osaka University, Institute for Protein , Protein Research, Professor, たんぱく質研究所, 教授 (00127276)
Co-Investigator(Kenkyū-buntansha)	ARIGA Yoko Osaka University, Institute for Protein Protein Research, Instructor, たんぱく質研究所, 助手 (60255429) KUSUNOKI Masami Osaka University, Institute for Protein Protein Research, Associate Professor, たんぱく質研究所, 助教授 (90135749)
Project Period (FY)	2001 – 2002
Keywords	plastid / redox metabolism / ferredoxin / ferredoxin:NADP reductase / sulfite reductase / glutamate synhtase
Research Abstract	Autotrophic capacity of plants depends on a series of redox of redox metabolisms. An electron carrir protein, ferredoxin (Fd) and Fd-dependent enzymes function in combination as a molecular machinery for such metabolisms. The process of electron partitioning via Fd to various enzymes within plastids is crucial for photosynthetic activity and elucidation of its molecular mechanism is the main aim of this study. Following results has been obtained. 1) X-ray crystsl structure of an electron transfer complex of root Ed and Fd:NADP+ reductase has been determied and this structure is found to be different from that of lesf counterpart. 2) Electron transfer between sulfite reductase and Fd was investigate using wild type ans their mutant molecules and redox potential of Fd was found to be important for activity and substrate specificity of sulfite reductase. X-ray crystal analysis of this enzyme is now ongoing. 3) Site diredted mutagenesis study of Fd-dependent glutamate synthase was done. Amino acids necessary for the activity of he amidotransferae domain of this enzyme were identified. 4) Based on the total total genome information of Arabidopsis, 4 Fd isoprotiens were prepared and purified by reconbinant technique. Their abilities in the electron transfer to photosystem. I, Fd:NADP+ reductase and sulfite reductase were significantly different and physiological differentiation of their role was elucidated. Now proteins which interact with each Fd isoprotein are under investigation. 5) A cyanobacterial mutant lacking Fd-dependent glutamate synthase exhibits unbalancing of carbon and nitrogen assimilation probably due to disturbance of partitioning of reducing equivalent. In response to this unbalancing the expression of glutamate synthase gene was up and down-regulated. We could monitor this gene expression by reporterassay syatem.

Research Products

(10 results)

All Other

All Publications (10 results)

[Publications] Teshima, K.: "A ferredoxin Arg-Glu pair important for efficient electron transfer between ferredoxin and ferredoxin-NADP^+ reductase"FEBS Letter. (in press). (2003)
- Description
  「研究成果報告書概要(和文)」より
[Publications] Kada, S.: "Arrest of chlorophyll synthesis and differential decrease of photosystems I and II in a cyanobacterial mutant lacking light-independent protochlorophyllide reductase"Plant Mol. Biol.. 51. 225-235 (2002)
- Description
  「研究成果報告書概要(和文)」より
[Publications] Maeda, M.: "Partially folded structure of flavin adenine dinucleotide-depleted ferredoxin-NADP^+ reductase with residual NADP^+ binding domain"J. Biol. Chem.. 277. 17101-17107 (2002)
- Description
  「研究成果報告書概要(和文)」より
[Publications] Sekine, K.: "Reversible DNA compaction by sulfite reductase regulates transcriptional activity of chloroplast nucleoides"J. Biol. Chem.. 277. 24399-24404 (2002)
- Description
  「研究成果報告書概要(和文)」より
[Publications] 長谷俊治: "植物のパワージェネレーターは光でコントロールされる"第16回「大学と科学」公開シンポジウム組織委員会編『明日を拓く植物科学:光エネルギーを生物エネルギーにかえる植物の設計図を読む』. 69-77 (2002)
- Description
  「研究成果報告書概要(和文)」より
[Publications] 栗栖源嗣: "酵素との電子伝達複合体の構造解明"化学と生物. 39. 660-666 (2001)
- Description
  「研究成果報告書概要(和文)」より
[Publications] Teshima,K., Fujita,S., Hirose,S., Nishiyama,D., Kurisu,G., Kusunoki,M., Kimata-Ariga,Y., and Hase,T.: "A ferredoxin Arg-Glu pair important for efficient electron transfer between ferredoxin and ferredoxin-NADP^+ reductase"FEBS Lett.. in press. (2003)
- Description
  「研究成果報告書概要(欧文)」より
[Publications] Kada,S., Koike,H., Satoh,K., Hase, T., and Fujita,Y.: "Arrest of chlorophyll synthesis and differential decrease of photosystems I and II in a cyanobacterpal mutant lacking light-iudependent protochlorophyllide reductase"Plant Mot. Biol.. 51. 225-235 (2002)
- Description
  「研究成果報告書概要(欧文)」より
[Publications] Sekine,K., Hase,T., and Sato,N.: "Reversible DNA compaction by sulfite reductase regulates transcriptional activity of chloroplast nucleoids"J. Biol. Chem.. 277. 24399-24404 (2002)
- Description
  「研究成果報告書概要(欧文)」より
[Publications] Maeda,M., Hamada,D., Hoshino,M., Onda,Y., Hase,T., and Goto,Y.: "Partially folded structure of flavin adenine dinucleotide-depleted ferredoxin-NADP^+ reductase with residual NADP^+ binding domain"J. Biol. Chem.. 277. 17101-17107 (2002)
- Description
  「研究成果報告書概要(欧文)」より

2002 Fiscal Year Final Research Report Summary

Study on the molecular basis for the regulation of redox metabolism network in plastids

Principal Investigator

HASE Toshiharu Osaka University, Institute for Protein , Protein Research, Professor, たんぱく質研究所, 教授 (00127276)

Research Products

[Publications] Teshima, K.: "A ferredoxin Arg-Glu pair important for efficient electron transfer between ferredoxin and ferredoxin-NADP^+ reductase"FEBS Letter. (in press). (2003)

Description

[Publications] Kada, S.: "Arrest of chlorophyll synthesis and differential decrease of photosystems I and II in a cyanobacterial mutant lacking light-independent protochlorophyllide reductase"Plant Mol. Biol.. 51. 225-235 (2002)

Description

[Publications] Maeda, M.: "Partially folded structure of flavin adenine dinucleotide-depleted ferredoxin-NADP^+ reductase with residual NADP^+ binding domain"J. Biol. Chem.. 277. 17101-17107 (2002)

Description

[Publications] Sekine, K.: "Reversible DNA compaction by sulfite reductase regulates transcriptional activity of chloroplast nucleoides"J. Biol. Chem.. 277. 24399-24404 (2002)

Description

Description

[Publications] 栗栖 源嗣: "酵素との電子伝達複合体の構造解明"化学と生物. 39. 660-666 (2001)

Description

[Publications] Teshima,K., Fujita,S., Hirose,S., Nishiyama,D., Kurisu,G., Kusunoki,M., Kimata-Ariga,Y., and Hase,T.: "A ferredoxin Arg-Glu pair important for efficient electron transfer between ferredoxin and ferredoxin-NADP^+ reductase"FEBS Lett.. in press. (2003)

Description

[Publications] Kada,S., Koike,H., Satoh,K., Hase, T., and Fujita,Y.: "Arrest of chlorophyll synthesis and differential decrease of photosystems I and II in a cyanobacterpal mutant lacking light-iudependent protochlorophyllide reductase"Plant Mot. Biol.. 51. 225-235 (2002)

Description

[Publications] Sekine,K., Hase,T., and Sato,N.: "Reversible DNA compaction by sulfite reductase regulates transcriptional activity of chloroplast nucleoids"J. Biol. Chem.. 277. 24399-24404 (2002)

Description

[Publications] Maeda,M., Hamada,D., Hoshino,M., Onda,Y., Hase,T., and Goto,Y.: "Partially folded structure of flavin adenine dinucleotide-depleted ferredoxin-NADP^+ reductase with residual NADP^+ binding domain"J. Biol. Chem.. 277. 17101-17107 (2002)

Description

[Publications] 栗栖源嗣: "酵素との電子伝達複合体の構造解明"化学と生物. 39. 660-666 (2001)