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63. Transgenic tobacco plants overexpressing chloroplastic ferredoxin-NADP(H) reductase display normal rates of photosynthesis and increased tolerance to oxidative stress. Rodriguez RE; Lodeyro A; Poli HO; Zurbriggen M; Peisker M; Palatnik JF; Tognetti VB; Tschiersch H; Hajirezaei MR; Valle EM; Carrillo N Plant Physiol; 2007 Feb; 143(2):639-49. PubMed ID: 17189326 [TBL] [Abstract][Full Text] [Related]
64. N-terminal sequencing of photosystem II low-molecular-mass proteins. 5 and 4.1 kDa components of the O2-evolving core complex from higher plants. Ikeuchi M; Takio K; Inoue Y FEBS Lett; 1989 Jan; 242(2):263-9. PubMed ID: 2644131 [TBL] [Abstract][Full Text] [Related]
65. Two partially homologous adjacent light-inducible maize chloroplast genes encoding polypeptides of the P700 chlorophyll a-protein complex of photosystem I. Fish LE; Kück U; Bogorad L J Biol Chem; 1985 Feb; 260(3):1413-21. PubMed ID: 3881431 [TBL] [Abstract][Full Text] [Related]
66. Thylakoid membrane protein topography: transmembrane orientation of the chloroplast cytochrome b-559 psbE gene product. Tae GS; Black MT; Cramer WA; Vallon O; Bogorad L Biochemistry; 1988 Dec; 27(26):9075-80. PubMed ID: 3072023 [TBL] [Abstract][Full Text] [Related]
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68. Proteins of the photosynthetic oxygen-evolving system. Akerlund HE; Ljungberg U; Jansson C; Andersson B Biochem Soc Trans; 1986 Feb; 14(1):8-9. PubMed ID: 3514309 [No Abstract] [Full Text] [Related]
69. Evolution of oxygen evolving reaction center-II of thylakoids. Raval MK Indian J Biochem Biophys; 1990 Feb; 27(1):9-12. PubMed ID: 2187799 [TBL] [Abstract][Full Text] [Related]
71. Optimal conditions for post-translational uptake of proteins by isolated chloroplasts. In vitro synthesis and transport of plastocyanin, ferredoxin-NADP+ oxidoreductase, and fructose-1,6-bisphosphatase. Grossman AR; Bartlett SG; Schmidt GW; Mullet JE; Chua NH J Biol Chem; 1982 Feb; 257(3):1558-63. PubMed ID: 6276392 [TBL] [Abstract][Full Text] [Related]
72. In vitro synthesis and assembly of photosystem II proteins of spinach chloroplasts. Minami E; Shinohara K; Kuwabara T; Watanabe A Arch Biochem Biophys; 1986 Feb; 244(2):517-27. PubMed ID: 2418785 [TBL] [Abstract][Full Text] [Related]
73. Isolation and sequencing of an active-site peptide from spinach ferredoxin-NADP+ oxidoreductase after affinity labeling with periodate-oxidized NADP+. Chan RL; Carrillo N; Vallejos RH Arch Biochem Biophys; 1985 Jul; 240(1):172-7. PubMed ID: 4015097 [TBL] [Abstract][Full Text] [Related]
74. Mutations of Glu92 in ferredoxin I from spinach leaves produce proteins fully functional in electron transfer but less efficient in supporting NADP+ photoreduction. Piubelli L; Aliverti A; Bellintani F; Zanetti G Eur J Biochem; 1996 Mar; 236(2):465-9. PubMed ID: 8612617 [TBL] [Abstract][Full Text] [Related]
75. Ferredoxin-NADP+ oxidoreductase is active as a monomer with molecular weight 33,000-36,000. Sheriff S; Teller DC; Herriott JR Arch Biochem Biophys; 1980 Dec; 205(2):499-502. PubMed ID: 7469423 [No Abstract] [Full Text] [Related]
76. Structural and functional properties of the cyanobacterial photosystem I complex. Wynn RM; Omaha J; Malkin R Biochemistry; 1989 Jun; 28(13):5554-60. PubMed ID: 2505837 [TBL] [Abstract][Full Text] [Related]
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78. Spirulina ferredoxin-NADP+ reductase. The complete amino acid sequence. Yao Y; Tamura T; Wada K; Matsubara H; Kodo K J Biochem; 1984 May; 95(5):1513-6. PubMed ID: 6430889 [TBL] [Abstract][Full Text] [Related]
80. LIGHT-INDUCED RICE1 Regulates Light-Dependent Attachment of LEAF-TYPE FERREDOXIN-NADP+ OXIDOREDUCTASE to the Thylakoid Membrane in Rice and Arabidopsis. Yang C; Hu H; Ren H; Kong Y; Lin H; Guo J; Wang L; He Y; Ding X; Grabsztunowicz M; Mulo P; Chen T; Liu Y; Wu Z; Wu Y; Mao C; Wu P; Mo X Plant Cell; 2016 Mar; 28(3):712-28. PubMed ID: 26941088 [TBL] [Abstract][Full Text] [Related] [Previous] [Next] [New Search]