Диссертация (1145766), страница 22
Текст из файла (страница 22)
311-321.239. Song J.M., Picologlou S., Grant C.M., Firoozan M., Tuite M.F., Liebman S.Elongation factor EF-1 alpha gene dosage alters translational fidelity inSaccharomyces cerevisiae // Mol. Cell. Biol. 1989. V. 9. P. 4571-4575.240. Sopko R., Huang D., Preston N., Chua G., Papp B., Kafadar K., Snyder M.,133Oliver S., Cyert M., Hughes T., Boone C., Andrews B. Mapping pathways andphenotypes by systematic gene overexpression // Molecular cell. 2006. V.
21. P. 319–330.241. Spahn C.M., Beckmann R., Eswar N., Penczek P.A., Sali A., Blobel G., FrankJ. Structure of the 80S ribosome from Saccharomyces cerevisiae--tRNA-ribosomeand subunit-subunit interactions // Cell. 2001. V. 107. P. 373-386.242. Stalder L. and Mühlemann O. The meaning of nonsense. // Trends Cell Biol.2008. V. 18. P.
315-321.243. Staniforth G.L., Tuite M.F. Fungal prions // Prog. Mol. Biol. Transl. Sci. 2012.V. 107. P. 417-456.244. Stansfield I., Jones K.M., Tuite M.F. The end in sight: terminating translationin eukaryotes // Trends Biochem. Sci. 1995.
V. 20. P. 489-491.245. Szer W. and Ochoa S. Complexing ability and coding properties of syntheticpolynucleotides // J. Mol. Biol. 1964. V. 8. P. 823-834.246. Tanaka M., Chien P., Naber N., Cooke R., Weissman J.S. Conformationalvariations in an infectious protein determine prion strain differences // Nature. 2004.V. 428. P. 323-328.247. Tarun S.Z. Jr., Wells S.E., Deardorff J.A., Sachs A.B.
Translation initiationfactor eIF4G mediates in vitro poly(A) tail-dependent translation // Proc. Natl. Acad.Sci. USA. 1997. V. 94. P. 9046-9051.248. Ter-Avanesyan M.D., Dagkesamanskaya A.R., Kushnirov V.V., Smirnov V.N.The sup35 omnipotent suppressor gene is involved in the maintenance of the nonmendelian determinant [PSI+] in the yeast Saccharomyces cerevisiae // Genetics.1994. V. 137. P. 671-676.249. Ter-Avanesyan M.D., Kushnirov V.V., Dagkesamanskaya A.R., Didichenko134S.A., Chernoff Y.O., Inge-Vechtomov S.G., Smirnov V.N.
Deletion analysis of thesup35 gene of the yeast Saccharomyces cerevisiae reveals two non-overlappingfunctional regions in the encoded protein // Mol. Microbiol. 1993. V. 7. P. 683-692.250. Ter-Avanesyan M.D., Zimmermann J., Inge-Vechtomov S.G., Sudarikov A.B.,Smirnov V.N., Surguchov A.P.
Ribosomal recessive suppressors cause a respiratorydeficiency in yeast Saccharomyces cerevisiae // Mol. Gen. Genet. 1982. V. 185. P.319-323.251. Thompson R.C. and Karim A.M. The accuracy of protein biosynthesis islimited by its speed: high fidelity selection by ribosomes of aminoacyl-tRNA ternarycomplexes containing GTP[γS] // Proc. Natl. Acad. Sci.
USA. 1982. V. 79. P. 49224926.252. Towbin H., Staehelin T., Gordon J. Electrophoretic transfer of proteins frompolyacrylamide gels to nitrocellulose sheets: procedure and some applications. //Proc. Natl. Acad. Sci. U.S.A. 1979. V. 76. P.4350-4354.253. Uchida N., Hoshino S., Imataka H., Sonenberg N., Katada T. A novel role ofthemammalianGSPT/eRF3associatingwithpoly(A)-bindingproteininCap/Poly(A)-dependent translation // J. Biol.
Chem. 2002. V. 277. P. 50286-50292.254. Urakov V.N., Valouev I.A., Lewitin E.I., Paushkin S.V., Kosorukov V.S.,Kushnirov V.V., Smirnov V.N., Ter-Avanesyan M.D. Itt1p, a novel protein inhibitingtranslation termination in Saccharomyces cerevisiae // BMC Mol. Biol. 2001. V. 2. P.9.255. Urban C. and Beier H. Cysteine tRNAsof plant origin as novel UGAsuppressors // Nucleic Acids Res. 1995. V.
23. P. 4591-4597.256. Valente L. and Kinzy T.G. Yeast as a sensor of factors affecting the accuracy ofprotein synthesis // Cell Mol. Life Sci. 2003. V. 60. P. 2115-2130.257. Valle R.P.C., Morch M.-D., Haenni A.-L. Novel amber suppressor tRNAs of135mamalian origin // EMBO J. 1987. V. 6. P. 3049-3055.258. Velichutina I.V., Dresios J., Hong J.Y., Li C., Mankin A., Synetos D., LiebmanS.W. Mutations in helix 27 of the yeast Saccharomyces cerevisiae 18s rRNA affectthe function of the decoding center of the ribosome // RNA. 2000.
V. 6. P. 1174-1184.259. Velichutina I.V., Hong J.Y., Mesecar A.D., Chernoff Y.O. and Liebman S.W.Genetic interaction between yeast Saccharomyces cerevisiae release factors and thedecoding region of 18 s rRNA // J. Mol. Biol. 2001. V. 305. P. 715-727.260. Veldman S., Rao S., Bodley J.W. Differential transcription of the twoSaccharomyces cerevisiae genes encoding elongation factor 2 // Gene. 1994. V.
148.P. 143-147.261. Vincent A., Newnam G., Liebman S.W. The yeast translational allosuppressor,SAL6: a new member of the PP1-like phosphatase family with a long serine-rich Nterminal extension // Genetics. 1994. V. 138. P. 597-608.262. Vitrenko Y.A., Gracheva E.O., Richmond J.E., Liebman S.W. Visualization ofaggregation of the Rnq1 prion domain and cross-seeding interactions withSup35NM // J. Biol. Chem. 2007. V.
282. P. 1779-1787.263. Volkov K.V., Aksenova A.Y., Soom M.J., Osipov K.V., Svitin A.V., KurischkoC., Shkundina I.S., Ter-Avanesyan M.D., Inge-Vechtomov S.G., Mironova L.N.Novel non-mendelian determinant involved in the control of translation accuracy inSaccharomyces cerevisiae // Genetics. 2002. V. 160. P. 25-36.264. Wang W., Cajigas I.J., Peltz S.W., Wilkinson M.F., Gonzalez C.I. Role forUpf2p phosphorylation in Saccharomyces cerevisiae nonsense-mediated mRNAdecay // Mol. Cell.
Biol. 2006. V. 26. P. 3390-3400.265. Wang W., Czaplinski K., Rao Y., Peltz S.W. The role of Upf proteins inmodulating the translation read-through of nonsense-containing transcripts // EMBOJ. 2001. V. 20. P. 880-890.136266. Wang P.J. and Huffaker T.C. Stu2p: A microtubule-binding protein that is anessential component of the yeast spindle pole body // J. Cell. Biol. 1997. V. 139. P.1271-1280.267.
Welinder C. and Ekblad L. Coomassie staining as loading control in Westernblot analysis // J. Proteome Res. 2011. V. 10. P. 1416-1419.268. Weiss W.A. and Friedberg E.C. Normal yeast tRNA(CAGGln) can suppressamber codons and is encoded by an essential gene // J. Mol. Biol. 1986. V.
192. P.725-735.269. Weiss R.B., Murphy J.P., Gallant J.A. Genetic screen for cloned release factorgenes // J. Bacteriol. 1984. V. 158. P. 362-364.270. Wilson D.N. and Nierhaus K.H. The E-site story: the importance ofmaintaining two tRNAs on the ribosome during protein synthesis // Cell Mol LifeSci. 2006. V. 63. P. 2725-2737.271. Wimberly B.T., Brodersen D.E., Clemons W.M. Jr., Morgan-Warren R.J.,Carter A.P., Vonrhein C., Hartsch T., Ramakrishnan V.
Structure of the 30S ribosomalsubunit // Nature. 2000. V. 407. P. 327-339.272. Wickner R.B. [URE3] as an altered Ure2 protein: evidence for a prion analogin Saccharomyces cerevisiae // Science. 1994. V. 264. P. 566-569.273. Wickner R.B., Edskes H.K., Maddelein M.L., Taylor K.L., Moriyama H.Prions of yeast and fungi. proteins as genetic material // J. Biol. Chem. 1999. V. 274.P. 555-558.274. Wickner R.B., Edskes H.K., Roberts B.T., Baxa U., Pierce M.M., Ross E.D.,Brachmann A. Prions: proteins as genes and infectious entities // Genes Dev.
2004.18. P. 470-485.275. Wohlgemuth I., Pohl C., Rodnina M.V. Optimization of speed and accuracy of137decoding in translation // EMBO J. 2010. V. 29. P. 3701-3709.276. Worton RG. Duchenne muscular dystrophy: gene and gene product;mechanism of mutation in the gene. // J. Inherit.
Metab. Dis. 1992. V.15. P.539-550.277. Xu Z., Norris D. The SFP1 gene product of Saccharomyces cerevisiaeregulates G2/M transitions during the mitotic cell cycle and DNA-damage response //Genetics. 1998. V. 150. P. 1419-1428.278. Yoshikawa K., Tanaka T., Ida Y., Furusawa C., Hirasawa T. Comprehensivephenotypic analysis of single-gene deletion and overexpression strains ofSaccharomyces cerevisiae // Yeast. 2011. V. 28.
P. 349–361.279. Zaher H.S. and Green R. Fidelity at the molecular level: lessons from proteinsynthesis // Cell. 2009. V. 136. P. 746-762.280. Zerfass K. and Beier H. Pseudouridine in the anticodon GΨA of plantcytoplasmic tRNATyr is required for UAG and UAA suppression in the TMV-specificcontent // Nucleic Acids Res. 1992a. V. 20. P. 5911-5918.281.
Zerfass K. and Beier H. The leaky UGA termination codon of tobacco rattlevirus RNA is suppressed by tobacco chloroplast and cytoplasmic tRNAsTrp withCmCA anticodon // EMBO J. 1992b. V. 11. P. 4167-4173.282. Zhouravleva G., Frolova L., Le Goff X., Le Guellec R., Inge-Vechtomov S.,Kisselev L. and Philippe M. Termination of translation in eukaryotes is governed bytwo interacting polypeptide chain release factors, eRF1 and eRF3 // EMBO J. 1995.V. 14.
P. 4065-4072.283. Zhouravleva G., Schepachev V., Petrova A., Tarasov O., Inge-Vechtomov S.Evolution of translation termination factor eRF3: is GSPT2 generated byretrotransposition of GSPT1's mRNA? // IUBMB Life. 2006. V. 58. P. 199-202.284. Zuk D., Belk J.P., Jacobson A. Temperature-sensitive mutations in the138Saccharomyces cerevisiae MRT4, GRC5, SLA2 and THS1 genes result in defects inmRNA turnover // Genetics. 1999. V. 153.
P. 35-47.139БЛАГОДАРНОСТИВ заключение мне доставит большое удовольствие возможностьпоблагодарить всех людей, так или иначе, принимавших участие в выполнениии написании моей диссертации.В первую очередь я хочу поблагодарить своего научного руководителяЛюдмилу Николаевну Миронову за чуткое руководство и полезные советы, запомощь в планировании экспериментов. Людмила Николаевна уделила большоеколичество времени, корректируя текст диссертации, внося поправки иполезные идеи.Хочу поблагодарить Максима Сергеевича Иванова за внимательноеруководство в бакалавриате и обучению методам работы.Хочу выразить огромную благодарность Полине Борисовне Дроздовой запомощь в проведении экспериментов и ценные советы по написаниюдиссертации. Полина Борисовна всегда готова была подсказать и помочь как ввыполнении экспериментальной работы, так и при написании диссертации.Выражаю признательность Татьяне Михайловне Рогозе за помощь вэкспериментах и поддержку.ОтдельнаяблагодарностьБондаревуСтаниславуАлександровичу,Тарасову Олегу Витальевичу, Андрею Григорьевичу Матвеенко, АлександруИосифовичуГогинашвилизамногочисленныесоветы,плодотворныеобсуждения, помощь и поддержку.
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