Диссертация (Генетический контроль ранних этапов биосинтеза хлорофилла у зелёной водоросли Chlamydomonas reinhardtii), страница 57
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Masuda T, Takamiya K.Novel Insights into the Enzymology, Regulation andPhysiological Functions of Light-dependent Protochlorophyllide Oxidoreductase inAngiosperms // Photosynth Res. ─ 2004. ─ V. 81. ─ № 1. ─ P. 1-29.206. Masuda T., Takamiya K-I. Novel insights into the enzymology, regulation andphysiological functions of light-dependent protochlorophyllide oxidoreductase inangiosperms // Photosynth. Res. ─ 2005. ─ V.
81. ─ P. 129.207. Masuda T.Recent overview of the Mg branch of the tetrapyrrole biosynthesisleading to chlorophylls // Photosynth Res. ─ 2008. ─ V. 96(2). ─ P. 121-143.208. Masuda T., Fujita Y. Regulation and evolution of chlorophyll metabolism //Photochem Photobiol Science. 2008. V.7.
P. 1131-1149.209. Masuda T., Suzuki T., Shimada H., Ohta H., Takamiya K. Subcellular localizationof two types of ferrochelatase in cucumber // Planta. ─ 2003. ─ V. 217(4). ─ P. 602609.210. Matile P., Hörtensteiner S., Thomas H., and Kräutler B. Chlorophyll breakdown insenescent leaves // Plant Physiol. ─ 1996. ─ V.
112. ─ P. 1403–1409.211. Matters G.L., Beale S.I. Structure and expression of the Chlamydomonasreinhardtii alad gene encoding the chlorophyll biosynthetic enzyme, deltaaminolevulinic acid dehydratase (porphobilinogen synthase) // Plant Mol Biol. ─1995. ─ V. 27(3). ─ P. 607-617.212. Mayfield S.P., Taylor W.C. Carotenoid-deficient maize seedlings fail toaccumulate light-harvesting chlorophyll a/b binding protein (LHCP) mRNA // Eur J.Biochem.
─ 1984. ─ V. 144(1). ─P. 79-84.213. McCormac A.C and Terry M.J. Loss of nuclear gene expression during thephytochrome A-mediated far-red block of greening response // Plant Physiology. ─3182002. ─ V. 130. ─ P. 402-414.214. McCormac A.C., Fischer A., Kumar A.M., Söll D., Terry M.J. Regulation ofHEMA1 expression by phytochrome and a plastid signal during de-etiolation inArabidopsis thaliana // Plant J. ─ 2001.
─ V. 25(5). ─ P. 549-561.215. Meinecke L., Alawady A., Schroda M., Willows R., Kobayashi M.C., NiyogiK.K., Grimm B., Beck C.F.Chlorophyll-deficient mutants of Chlamydomonasreinhardtii that accumulate magnesium protoporphyrin IX // Plant Mol Biol. ─ 2010.─ V. 72(6). ─ P. 643-658.216. Mendel G. Versuche uber Pflanzen-Hybriden // Transactions of Verhandlungendes naturforschenden Vereines in Brunn (1885), iv 3-270 (Extracts republished.
BMJ1965; 1886. ─ P. 367-374.217. Menkens A.E., Schindler U., Cashmore A.R. G-box: a ubiquitous regulatory DNAelement in plants bound by the GBF family of bZIP proteins // Trends Biochem Sci. ─1995. ─ V. 20(12). ─ P. 506-510.218. Merchant S.S., Prochnik S.E., Vallon O., Harris E.H., Karpowicz S.J., et al. TheChlamydomonas genome reveals the evolution of key animal and plant functions //Science.
─ 2007. ─ V. 318(5848). ─ . P. 245-50.219. Meskauskiene R., Apel K. Interaction of FLU, a negative regulator of tetrapyrrolebiosynthesis, with the glutamyl-tRNA reductase requires the tetratricopeptide repeatdomain of FLU // FEBS Lett. ─ 2002. ─ V. 532(1-2). ─ P.
27-30.220. Meskauskiene R., Nater M., Goslings D., Kessler F., op den Camp R., Apel K.FLU: a negative regulator of chlorophyll biosynthesis in Arabidopsis thaliana //PNAS, USA. ─ 2001. ─ V. 98(22). ─ P. 12826-31.221. Meyer G., Kloppstech K. A rapidly light-induced chloroplast protein with a highturnover coded for by pea nuclear DNA // Eur J Biochem.
─ 1984. ─ V. 138(1). ─ P.201-207.222. Miller G.W., Denney A., Wood J.K., Welkie G.W. Light-induced deltaaminolevulinic acid in dark grown barley seedlinds // Plant Cell Physiology. ─ 1979.─ V. 20. P. ─ 131-143.223. Mochizuki N., Brusslan J.A., Larkin R., Nagatani A., Chory J. Arabidopsisgenomes uncoupled 5 (GUN5) mutant reveals the involvement of Mg-chelatase H319subunit in plastid-to-nucleus signal transduction.// PNAS, USA.
─ 2001. ─ V. 98(4).─ P. 2053-2058.224. Mochizuki N., Tanaka R., Tanaka A, Masuda T., Nagatani A. The steady-statelevel of Mg-protoporphyrin IX is not a determinant of plastid-to-nucleus signaling inArabidopsis // PNAS, USA. ─ 2008. ─ V. 105(39). ─ P. 15184-9.225. Mock H.P., Trainotti L., Kruse E., Grimm B. Isolation, sequencing and expressionof cDNA sequences encoding uroporphyrinogen decarboxylase from tobacco andbarley // Plant.Mol. Biol.
─ 1995. ─ V. 28(2). ─ P. 245-256.226. Moller S.G., Kunkel T., Chua N.H. A plastidic ABC protein involved inintercompartmental communication of light signaling // Genes Dev. ─ 2001. ─ V.15(1). ─P. 90-103.227. Monte E., Tepperman J.M., Al-Sady B., Kaczorowski K.A., Alonso J.M.., et al.The phytochrome-interacting transcription factor, PIF3, acts early, selectively, andpositively in light-induced chloroplast development.// PNAS, USA.
─ 2004. ─ V.101(46). ─ P. 16091-16098.228. Moon J., Zhu L., Shen H., Huq E. PIF1 directly and indirectly regulateschlorophyll biosynthesis to optimize the greening process in Arabidopsis // PNAS,USA. ─ 2008. ─ V. 105(27). ─ P. 9433-9438.229.Morelli G.
and Ruberti I. Shade avoidance responses. Driving auxin along lateralroutes // Plant Physiology. ─ 2000. ─ V. 122(3). ─ P. 621-626.230. Mortimer R.K. and Hawthorne D.C. Genetic mapping in Saccharomyces. IV.Mapping of ts genees and use of disomic straines in localizing genes // Genetics.
─1973. ─ V.1. ─ P. 33-54.231. Moseley J., Quinn J., Eriksson M. and Merchant S. The Crd1 gene encodes aputative di-iron enzyme required for photosystem I accumulation in copper deficiencyand hypoxia in Chlamydomonas reinhardtii // EMBO J. ─ 2000. ─ V. 19(10). ─ P.2139-2151.232. Moser J., Schubert W.D., Beier V., Bringemeier I., Jahn D. and Heinz, D.W. Vshaped structure of glutamyl-tRNA reductase, the first enzyme of tRNA-dependenttetrapyrrole biosynthesis // EMBO J.
─ 2001. ─ V. 20. ─ P. 6583–6590.233. Moulin M., McCormac A.C., Terry M.J., Smith A.G. Tetrapyrrole profiling in320Arabidopsis seedlings reveals that retrograde plastid nuclear signaling is not due toMg-protoporphyrin IX accumulation // PNAS, USA. ─ 2008. ─ V. 105(39). ─ P.15178-83.234. Moustafa A., Beszteri B., Maier U.G., Bowler C., Valentin K., Bhattacharya D.Genomic Footprints of a Cryptic Plastid Endosymbiosis in Diatoms // Science.
─2009. ─ V. 324. ─ P.1724-1726.235. Müller A.H., Hansson M. The barley magnesium chelatase 150-kd subunit is notan abscisic acid receptor // Plant Physiol. ─ 2009. ─ V. 150(1). ─ P. 157-166.236. Muraki N., Nomata J., Ebata K., Mizoguchi T., Shiba T., Tamiaki H., Kurisu G.,FujitaY. X-ray crystal structure of the light-independent protochlorophyllidereductase // Nature. ─ 2010. ─ V. 465. ─ P. 110-114.237. Muramoto T., Kohchi T., Yokota A., Goodman H.M. The Arabidopsisphotomorphogenic mutant hy1 is deficient in phytochrome chromophore biosynthesisas a result of a mutation in a plastid heme oxygenase // Plant Cell.
─ 1999. ─V. 11(3).─ P. 335-348.238.Nagata N., Tanaka R., Satoh S., Tanaka A. Identification of a vinyl reductasegene for chlorophyll synthesis in Arabidopsis thaliana and implications for theevolution of Prochlorococcus species // Plant Cell. ─ 2005. ─ V. 17(1). ─ P. 233-240.239. Naito T., Kiba T., Koizumi N., Yamashino T., Mizuno T. Characterization of aunique GATA family gene that responds to both light and cytokinin in Arabidopsisthaliana // Biosci Biotechnol.
Biochem. ─ 2007. ─ V. 71(6) ─ P. 1557-1560.240. Nakagawara E, Sakuraba Y, Yamasato A, Tanaka R, Tanaka A. Clp proteasecontrols chlorophyll b synthesis by regulating the level of chlorophyllide a oxygenase// Plant J. ─ 2007. ─ V. 49(5). ─ P. 800-809.241. Nakayama M, Masuda T, Bando T, Yamagata H, Ohta H, Takamiya K. Cloningand expression of the soybean chlH gene, encoding a subunit of Mg-chelatase andlocalization of the Mg2+ concentration-dependent ChlH protein within the chloroplast// Plant Cell Physiology. ─ 1998. ─ V.
39(3). ─ P. 275-284.242. Narita S., Tanaka R., Ito T., Okada K., Taketani S., Inokuchi H. Molecular cloningand characterization of a cDNA that encodes protoporphyrinogen oxidase ofArabidopsis thaliana // Gene. ─ 1996. ─ V. 182(1-2). ─ P. 169-175.321243. Ni M., Tepperman J.M., Quail P.H. PIF3, a phytochrome-interacting factornecessary for normal photoinduced signal transduction, is a novel basic helix-loophelix protein // Cell.
─ 1998. ─ V. 95(5). ─ P. 657-667.244. Ni M., Tepperman J.M. and Quail P.H. Binding of phytochrome B to its nuclearsignalling partner PIF3 is reversibly induced by light // Nature. ─ 1999. ─ V. 400. ─P. 781–784.245. Nielsen O.F. Photoconversion and regeneration of active protochlorophyll(ide) inmutants defective in the regulation of chlorophyll synthesis // Arch Biochem Biophys.─ 1974. V─ .