Диссертация (1144823), страница 58
Текст из файла (страница 58)
160. ─ P. 430-439.246. Nogaj L.A., Beale S.I. Physical and kinetic interactions between glutamyl-tRNAreductase and glutamate-1-semialdehyde aminotransferase of Chlamydomonasreinhardtii // J. Biol Chemistry. ─ 2005. ─ V. 280(26). ─P. 24301-24307.247. Nomata J, Mizoguchi T, Tamiaki H, Fujita Y. A second nitrogenase-like enzymefor bacteriochlorophyll biosynthesis: reconstitution of chlorophyllide a reductase withpurified X-protein (BchX) and YZ-protein (BchY-BchZ) from Rhodobactercapsulatus // J. Biol. Chemistry.
─ 2006 ─ V. 281 (21) ─ P. 15021-15028.248. Nomata J., Swem L.R., Bauer C.E., Fujita Y. Overexpression and characterizationof dark-operative protochlorophyllide reductase from Rhodobacter capsulatus //Biochim. Biophys. Acta. ─ 2005. ─ V. 1708. ─ P. 229235.249. Oelmuller R., Mohr Y. Photooxydative disruption of chloroplasts and itsconcequences for expression of nuclear genes // Planta. ─ 1986.
─ V. 167. ─ P. 106113.250. Oelmuller R. Photooxidative destruction of chloroplasts and its effect on nucleargene expression and extraplastidic enzyme levels // Photochemistry Potobiology. ─1989. ─ V. 49. ─ P. 229-239.251. Ogura Y., Takemura M., Oda K., Yamatu K., Ohta E., Fukazawa H., Ohyama K.Cloning and nucleotide sequence of a frxC-ORF469 gene cluster of SynechocystisPCC6803 conservation with liverwort chloroplast frxC-ORF465 and nif operon //Biosci. Biotech.
Biochem. ─ 1992. ─ V. 56. ─ P. 788-793.252. Ohad I., Siekevitz P., Palade G.E. Biosynthesis of chloroplast membranes IIPlastid differentiation during greening of a dark grown algal mutant (Chlamydomonas322reinhardti) // J. Cell Biology. ─ 1967. ─ V. 35. ─ P. 553-584.253. Ohyama K., Fukazawa H., Kohchi T., Shirai H., Sano T., Sano S., Umesono K.,Shiki Y., et al.
Chloroplast gene organization deduced from complete sequence ofliverwort Marchantia polymorpha // Nature. ─ 1986. ─ V. 322. ─ P. 572-574.254. Oliver R.P., Griffiths W.T. Identification of the polypeptides of NADPH:protochlorophyllide oxidoreductase // Biochem. J. 1980. V. 191. P. 277-280.255.
Olsson U., Sirijovvski N., Hansson M. Characterization of eight barley xantha-fmutants deficient in magnesium chelatase // Plant Physiology and Biochemistry. ─2004. ─ V. 42. ─ P. 557-564.256. Oosawa N., Masuda T., Awai K., Fusada N., Shimada H., et al. Identification andlight-induced expression of a novel gene of NADPH: protochlorophyllideoxidoreductase isoform in Arabidopsis thaliana // FEBS Lett. ─ 2000. ─ V. 474.
─ P.133136.257. Ou K., Adamson H. Chlorophyll accumulation in cotyledons, hypocotyls andprimary needles of Pinus pinea seedlings in light and dark // Physiol. Plant. ─ 1995. ─V. 93. ─P. 719724.258. O'Neill G.P., Schön A., Chow H., et al. Sequence of tRNA(Glu) and its genesfrom the chloroplast genome of Chlamydomonas reinhardtii // Nucleic Acids Res. ─1990.
─ V. 18(19). ─ P. 5893.259. Oosawa N., Masuda T., Awai K., Fusada N., Ahimada H, Ohta H., Takamiya K.Identification and light-induced expression of a novel gene of NADPHprotochlorophyllide oxidoreductase isoform in Arabidopsis thaliana // FEBS Lett. ─2000. ─ V. 474 (2-3). ─ P. 133-136.260. op den Camp R.G, Przybyla D., Ochsenbein C., Laloi C., Kim C., et al. Rapidinduction of distinct stress responses after the release of singlet oxygen inArabidopsis.
// Plant Cell. ─ 2003. ─ V. 15(10) ─ P. 2320-2332.261. Osanai T., Imashimizu M., Seki A. Sato S., Tabata S., Imamura S., Asayama M.,Ikeuchi M., Tanaka K.ChlH, the H subunit of the Mg-chelatase, is an anti-sigmafactor for SigE in Synechocystis sp. PCC 6803 // PNAS, USA. ─ 2009. ─ V. 106(16)─ .
P. 6860-6865.262. Osterlund M.T., Wei N., Deng X.W. The roles of photoreceptor systems and the323COP1-targeted destabilization of HY5 in light control of Arabidopsis seedlingdevelopment // Plant Physiol. ─ 2000. ─ V. 124(4). ─ P. 1520-1524.263. Oswald O., Martin T., Dominy P.J., Graham I.A. Plastid redox state and sugars:interactive regulators of nuclear-encoded photosynthetic gene expression // PNAS,USA. ─ 2001. ─ V. 98(4). ─ P. 2047-2052.264.
Ouchane S., Picaud M., Therizols P., Reiss-Husson F., Astier C. Global regulationof photosynthesis and respiration by FnrL: the first two targets in the tetrapyrrolepathway // J. Biol. Chemistry. ─ 2007. ─ V. 282(10). ─ P. 7690-7699.265. Ouchane S., Steunov AS., Picaud M., Astier C. Aerobic and anaerobic Mgprotoporphyrin monomethyl ester cyclases in purple bacteria: a strategy adopted tobypass the repressive oxygen control system // J.
Biol. Chemistry. ─ 2004. ─ V.279(8). ─ P. 6385-6394.266. Oyama T., Shimura Y., Okada K. The Arabidopsis HY5 gene encodes a bZIPprotein that regulates stimulus-induced development of root and hypocotyls // GenesDev. ─ 1997. ─ V. 11(22). ─ P. 2983-2995.267.
Pfeiffer A., Kunkel T., Hiltbrunner A., Neuhaus G., Wolf I.. et al. A cell-freesystem for light-dependent nuclear import of phytochrome // Plant J. ─ 2009. ─ V.57(4). ─ P. 680-689.268. Philippar K., Geis T., Ilkavets I., Oster U., Schwenkert S., Meurer J., Soll J.Chloroplast biogenesis: the use of mutants to study the etioplast-chloroplast transition// PNAS, USA.
─ 2007. ─ V. 104(2). ─ P. 678-683.269. Pinta V., Picaud M., Reiss-Husson F., Astier C. Rubrivivax gelatinosus acsF(previously orf 358) codes for a conserved, putative binuclear-iron-cluster-containingprotein involved in aerobic oxidative cyclization of Mg-protoporphyrin IXmonomethylester // J. Bacteriology. ─ 2002. ─ V. 184(3). ─ P. 746-753.270. Pontier D., Albrieux C., Joyard J., Lagrange T., Block M.A. Knock-out of themagnesium Protoporphyrin IX methyltransferase gene in Arabidopsis: effects onchloroplast development and on chloroplast-to nucleus signaling.
// J. Biol.Chemistry. ─ 2007. ─ V. 284. ─ P. 2297-2304.324271. Pontoppidan B., Kannangara C.G. Purification and partial characterization ofbarley glutamyl-tRNA(Glu) reductase, the enzyme that directs glutamate tochlorophyll biosynthesis // Eur J. Biochem. ─ 1994.
─ V. 225(2). ─ P. 529-37.272. Popov K., Dilova S. On the dark sinthesis and stabilization of chlorophyll / In:―Progress in Photosynthesis Research‖ (ed.: Metzner H.).─ Inst. Union Biol. Sci.:Tubingen, 1969. ─ V.2. ─P. 606-609.273. Porra R.L., Thompson W.A., Kriedemann P.E. Determination of accurate extintioncoefficients, simultaneous equations for assaying chlorophylls a and b extracted withfour different solvents: verification of the concentration of chlorophyll standarts byatomic absorption spectroscopy // Biochim.
Biophys. Acta. ─ 1989. ─ V. 975. ─P.384 - 394.274. R., Polglase W.J. Aerobic and anaerobic coproporphyrinogenase activities inextracts from Saccharomyces cerevisiae // J. Biol Chem. ─ 1974. ─ V. 249(20). ─ P.6367-6371.275. Prikryl J., Watkins K.P., Friso G., van Wijk K.J., Barkan A.A. A member of theWhirly family is a multifunctional RNA- and DNA-binding protein that is essentialfor chloroplast biogenesis // Nucleic Acids Res.
─ 2008. ─ V. 36(16). ─ P. 51525165.276. Pruzinská A., Anders I., Aubry S., Schenk N., Tapernoux-Lüthi E., et al. In vivoparticipation of red chlorophyll catabolite reductase in chlorophyll breakdown // PlantCell. ─ 2007. ─ V. 1. ─ P. 369-387.277. Pružinská A., Tanner G., Anders I., Roca M. and Hörtensteiner S.
Chlorophyllbreakdown: pheophorbide a oxygenase is a Rieske-type iron-sulfur protein, encodedby the accelerated cell death 1 gene // PNAS, USA. ─ 2003. ─ V. 100. ─ P. 15259–15264.278. Puthiyaveetil S., Kavanagh T.A., Cain P., Sullivan J.A., Newell C.A., et al. Theancestral symbiont sensor kinase CSK links photosynthesis with gene expression inchloroplasts // PNAS, USA.
─ 2008. ─ V. 105(29). ─ P. 10061-10066.279. Randolph-Anderson B.L., Sato R., Johnson A.M., Harris E.H., Hauser C.R., et al.Isolation and characterization of a mutant protoporphyrinigen oxidase gene from325Chlamydomonas reinhardtii conferring resistance to porphyric herbicides // Plant.Mol. Biol. ─ 1998. ─ V. 38. ─ P.
839- 859.280. Raven J.A. Evolution of plant life forms /. In: «On the economy of plant form andfunction»; Givnish T.J, editor. ─ New York: Cambridge University Press, 1986. ─ P.421–492.281. Rebeiz C.A., Abou-Haidar M., Yachi M., Castelfranco P.A. Porphyrinbiosynthesis in cell-free homogenates from higher plants // Plant Physiology. ─ 1970.─ V. 46. ─ P.
57-63.282. Rebeiz C.A., Parham R., Fasoula D.A., Ioannides I.M. Chlorophyll a biosyntheticheterogeneity / In: ―The biosynthesis the tetrapirrole pigments‖, Ciba FoundationSymposium; eds.: Chadwick D.J. and Ackrill K., 1994. ─ V.180. ─ P. 177-189.283.Reinbothe S., Runge S., Reinbothe C., van Cleve B., Apel K. Substrate-dependenttransport of the NADPH: protochlorophyllide oxidoreductase into isolated plastids //Plant Cell. ─ 1995. ─ V. 7. ─ P. 161172.284.
Reinbothe S., Reinbothe Ch. Regulation of chlorophyll biosynthesis inangiosperms. // Plant Physiology. ─ 1996. ─ V. 111. ─ P. 1-7.285. Reinbothe S. and Reinbothe C. The regulation of enzymes involved in chlorophyllbiosynthesis // Eur. J. Biochem. 1996. V 237. P. 323 - 343.286. Reinbothe S., Quigley F., Gray J., Schemenewitz A., Reinbothe C. Identificationof plastid envelope proteins required for import of protochlorophyllide oxidoreductaseA into the chloroplast of barley // PNAS, USA.
─ 2004. ─ V. 97. ─ P. 97959800.287. Reinbothe S., Pollmann S., Springer A., James R.J., Tichtinsky G., Reinbothe C. Arole of Toc33 in the protochlorophyllide-dependent plastid import pathway ofNADPH: protochlorophyllide oxidoreductase (POR)A // Planta. ─ 2005. ─ V. 42. ─P. 112.288. Reinbothe Ch., Bartsch S., Eggink L.L., Hoober J.K., Brusslan J., Andrade-P.R.,Monnet J., Reinbothe S. A role for chlorophyllide a oxygenase in the regulated importand stabilization of light-harvesting chlorophyll a/b proteins.// PNAS, USA. ─ 2006.─ V. 103(12). ─ P. 4777-4782.326289. Raskin V.I., Schwartz A.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
