Диссертация (1145766), страница 18
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Chem. 1999a. V. 274.P. 30297-30302.49.Carr-Schmid A., Valente L., Loik V.I., Williams T., Starita L.M., Kinzy T.G.Mutations in elongation factor 1beta, a guanine nucleotide exchange factor, enhancetranslational fidelity // Mol. Cell. Biol. 1999b. V. 19. P. 5257-5266.50.Carvalho M.D., Carvalho J.F., Merrick W.C. Biological characterization ofvarious forms of elongation factor 1 from rabbit reticulocytes // Arch.
Biochem.Biophys. 1984. V. 234. P. 603-611.51.Chabelskaya S., Kiktev D., Inge-Vechtomov S., Philippe M., Zhouravleva G.Nonsense mutations in the essential gene SUP35 of Saccharomyces cerevisiae arenon-lethal // Mol. Genet. Genomics. 2004. V. 272. P. 297-307.11252.Chacinska A., Szczesniak B., Kochneva-Pervukhova N.V., Kushnirov V.V.,Ter-Avanesyan M.D., Boguta M.
Ssb1 chaperone is a [PSI+] prion-curing factor //Curr. Genet. 2001. V. 39. P. 62-67.53.Chavatte L., Seit-Nebi A., Dubovaya V., Favre A. The invariant uridine of stopcodons contacts the conserved NIKSR loop of human eRF1 in the ribosome // EMBOJ. 2002. V. 21. P. 5302-5311.54.Chernoff Y.O., Derkach I.L., Inge-Vechtomov S.G. Multicopy SUP35 geneinduces de novo appearance of PSI-like factors in the yeast Saccharomyces cerevisiae// Curr.
Genet. 1993. V. 24. P. 268-270.55.Chernoff Y.O., Lindquist S.L., Ono B., Inge-Vechtomov S.G., Liebman S.W.Role of the chaperone protein Hsp104 in propagation of the yeast prion-like factor[PSI+] // Science. 1995. V. 268. P. 880-884.56.Chernoff Y.O., Newnam G.P., Kumar J., Allen K., Zink A.D. Evidence for aprotein mutator in yeast: role of the hsp70-related chaperone Ssb in formation,stability, and toxicity of the [PSI] prion // Mol. Cell.
Biol. 1999. V. 19. P. 8103-8112.57.Chernoff Y.O., Ptyushkina M.V., Samsonova M.G., Sizonencko G.I., PavlovYI., Ter-Avanesyan M.D., Inge-Vechtomov S.G. Conservative system for dosagedependent modulation of translational fidelity in eukaryotes // Biochimie. 1992. V.74. P. 455-461.58.Christianson S.A., Nilsson L.G., Saisa J, Silfvenius H. Visual half-field testingof memory functions in patients considered for surgical treatment of intractablecomplex partial epilepsy // Acta Neurol. Scand. 1992.
V. 86. P. 545-554.59.Cipollina C., van den Brink J., Daran-Lapujade P., Pronk J.T., Porro D., deWinde J.H. Saccharomyces cerevisiae SFP1: at the crossroads of central metabolismand ribosome biogenesis // Microbiology. 2008a. V.154. P. 1686-1699.60.Cipollina C., van den Brink J., Daran-Lapujade P., Pronk J.T., Vai M., de113Winde J.H. Revisiting the role of yeast Sfp1 in ribosome biogenesis and cell sizecontrol: a chemostat study // Microbiology.
2008b. V. 154. P.337-346.61.Coller J. and Parker R. Eukaryotic mRNA decapping // Annu. Rev. Biochem.2004. V. 73. P. 861-890.62.Cosson B., Couturier A., Chabelskaya S., Kiktev D., Inge-Vechtomov S.,Philippe M. Zhouravleva G. PolyA-binding protein acts in translation termination viaeukaryotic release factor 3 interaction and does not influence [PSI+] propagation //Mol. Cell.
Biol. 2002. V. 22. P. 3301-3315.63.Cox B. Psi, a cytoplasmic suppressor of super-suppressor in yeast // Heredity.1965. V. 20. P. 505-521.64.Cox B.S. A recessive lethal super-suppressor mutation in yeast and other psiphenomena // Heredity. 1971. 26. P. 211-232.65.Cox B.S., Tuite M.F., McLaughlin C.S. The [PSI+] factor of yeast: a problem ininheritance // Yeast. 1988. V. 4. P. 159-178.66.Crick F. H. On protein synthesis // Symp. Soc. Exp. Biol. 1958. V. 12.
P. 138-163.67.Crick F.H. and Brenner S. The absolute sign of certain phase-shift mutants inbacteriophage T4 // J. Mol. Biol. 1967. V. 26. P. 361-363.68.Czaplinski K., Majlesi N., Banerjee T., Peltz S.W. Mtt1 is a Upf1-like helicasethat interacts with the translation termination factors and whose overexpression canmodulate termination efficiency // RNA. 2000. V. 6.
P. 730-743.69.Dagkesamanskaya A.R. and Ter-Avanesyan M.D. Interaction of the yeastomnipotent suppressors SUP1(SUP45) and SUP2(SUP35) with non-mendelianfactors // Genetics. 1991. V. 128. P. 513-520.70.de Nadal E., Fadden R.P., Ruiz A., Haystead T., Ariño J. A role for the Ppz114Ser/Thr protein phosphatases in the regulation of translation elongation factor1balpha // J. Biol. Chem. 2001. V.
276. P. 14829-14834.71.DePace A.H., Santoso A., Hillner P., Weissman J.S. A critical role for amino-terminal glutamine/asparagine repeats in the formation and propagation of a yeastprion // Cell. 1998. V. 93. P. 1241-1252.72.Derkatch I.L., Bradley M.E., Hong J.Y., Liebman S.W. Prions affect theappearance of other prions: the story of [PIN+] // Cell. 2001. V. 106. P. 171-182.73.Derkatch I.L., Bradley M.E., Masse S.V., Zadorsky S.P., Polozkov G.V., Inge-Vechtomov S.G, Liebman S.W. Dependence and independence of [PSI+] and [PIN+]:a two-prion system in yeast? // EMBO J.
2000. V. 19. P. 1942-1952.74.Derkatch I.L., Bradley M.E., Zhou P., Chernoff Y.O., Liebman S.W. Geneticand environmental factors affecting the de novo appearance of the [PSI+] prion inSaccharomyces cerevisiae // Genetics. 1997. V. 147. P. 507-519.75.Derkatch I.L., Chernoff Y.O., Kushnirov V.V., Inge-Vechtomov S.G., LiebmanS.W. Genesis and variability of [PSI] prion factors in Saccharomyces cerevisiae //Genetics. 1996. V. 144. P.1375-1386.76.Deusser E., Stöffler G., Wittmann H.G. Ribosomal proteins.
XVI. Altered S4proteins in Escherichia coli revertants from streptomycin dependence toindependence // Mol. Gen. Genet. 1970. V. 109. P. 298-302.77.Dever T.E. and Green R. The elongation, termination and recycling phases oftranslation in eukaryotes // Cold Spring Harb. Perspect. Biol. 2012. V. 4. P. A013706-.78.Dinman J.D. and Wickner R.B. Translational maintenance of frame: mutants ofSaccharomyces cerevisiae with altered -1 ribosomal frameshifting efficiencies //Genetics. V.
136. P. 75-86.79.Doel S.M., McCready S.J., Nierras C.R., Cox B.S. The dominant PNM2-115mutation which eliminates the psi factor of Saccharomyces cerevisiae is the result ofa missense mutation in the SUP35 gene // Genetics. 1994. V. 137. P. 659-670.80.Drugeon G., Jean-Jean O., Frolova L., Le Goff X., Philippe M, Kisselev L.,Haenni A.L. Eukaryotic release factor 1 (eRF1) abolishes readthrough and competeswith suppressor tRNAs at all three termination codons in messenger RNA // NucleicAcids Res. 1997.V. 25.
P. 2254-2258.81.Dunkle J.A. and Cate J.H. Ribosome structure and dynamics duringtranslocation and termination // Annu Rev Biophys. 2010. V. 39. P. 227-44.82.Eaglestone S.S., Ruddock L.W., Cox B.S., Tuite M.F. Guanidine hydrochlorideblocks a critical step in the propagation of the prion-like determinant [PSI+] ofSaccharomyces cerevisiae // Proc. Natl. Acad. Sci. USA.
2000. V. 97. P. 240-244.83.Edelman I. and Culbertson M.R. Exceptional codon recognition by theglutamine tRNAs in Saccharomyces cerevisiae // EMBO J. 1991. V. 10. P.1481-149184.Edelmann P. and Gallant J. Mistranslation in E. coli // Cell. 1977. V. 10. P. 131-137.85.Eggertsson G. and Söll D. Transfer ribonucleic acid-mediated suppression oftermination codons in Escherichia coli // Microbiol. Rev. 1988.
V. 52. P. 354-374.86.Eurwilaichitr L., Graves F.M., Stansfield I., Tuite M.F. The C-terminus of eRF1defines a functionally important domain for translation termination in Saccharomycescerevisiae // Mol. Microbiol. 1999. V. 32. P. 485-496.87.Fan-Minogue H., Du M., Pisarev A.V., Kallmeyer A.K., Salas-Marco J.,Keeling K.M., Thompson S.R., Pestova T.V., Bedwell DM. Distinct eRF3requirements suggest alternate eRF1 conformations mediate peptide release duringeukaryotic translation termination // Mol. Cell. 2008. V. 30. P.
599-609.88.Fingerman I., Nagaraj V., Norris D., Vershon A.K. Sfp1 plays a key role in116yeast ribosome biogenesis // Eukaryotic Cell. 2003. V. 2. P. 1061-1068.89.Frolova L., Le Goff X., Rasmussen H.H., Cheperegin S., Drugeon G., KressM., Arman I., Haenni A.L., Celis J.E., Philippe M. A highly conserved eukaryoticprotein family possessing properties of polypeptide chain release factor // Nature.1994. V. 372. P.
701-703.90.Frolova L., Le Goff X., Zhouravleva G., Davydova E., Philippe M., KisselevL. Eukaryotic polypeptide chain release factor eRF3 is an eRF1- and ribosomedependent guanosine triphosphatase // RNA. 1996. V. 2. P. 334-341.91.Frolova L., Seit-Nebi A., Kisselev L. Highly conserved niks tetrapeptide isfunctionally essential in eukaryotic translation termination factor eRF1 // RNA. 2002.V. 8.
P. 129-136.92.Frolova L.Y., Tsivkovskii R.Y., Sivolobova G.F., Oparina N.Y., Serpinsky O.I.,Blinov V.M., Tatkov S.I., Kisselev L.L. Mutations in the highly conserved GGQmotif of class 1 polypeptide release factors abolish ability of human eRF1 to triggerpeptidyl-tRNA hydrolysis // RNA. 1999. V. 5. P.