Κεφάλαιο 28.pdf

© ΠΑΝΕΠΙΣΤΗΜΙΑΚΕΣ ΕΚΔΟΣΕΙΣ ΚΡΗΤΗΣ ΣΥΜΠΛΗΡΩΜΑΤΙΚΟ ΥΛΙΚΟ ΓΙΑ ΤΟ ΧΗΜΙΚΟ ΤΜΗΜΑ ΤΟΥ ΠΑΝ/ΜΙΟΥ ΑΘΗΝΩΝ910 KEΦAΛAIO 28 · Σύνθεση και μάτισμα RNAS., Goldfarb, A., and Darst, S. A., 2001. Structural mechanismfor rifampicin inhibition of bacterial RNA polymerase. Cell104:901-912.Cheetham, G. M., and Steitz, T. A., 1999. Structure of atranscribing T7 RNA polymerase initiation complex. Science286:2305-2309.Ebright, R. H., 2000. RNA polymerase: Structural similaritiesbetween bacterial RNA polymerase and eukaryotic RNApolymerase II. J. Mol. Biol. 304:687-698.Paule, M. R., and White, R. J., 2000. Survey and summary:Transcription by RNA polymerases I and III. Nucleic AcidsRes. 28:1283-1298.Έναρξη και επιμήκυνσηBuratowski, S., 2000. Snapshots of RNA polymerase II transcriptioninitiation. Curr. Opin. Cell Biol. 12:320-325.Conaway, J. W., and Conaway, R. C., 1999. Transcriptionelongation and human disease. Annu. Rev. Biochem. 68:301-319.Conaway, J. W., Shilatifard, A., Dvir, A., and Conaway, R. C.,2000. 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RNA polymerase II as acontrol panel for multiple coactivator complexes. Curr. Opin.Genet. Dev. 9:132-139.Chen, L., 1999. Combinatorial gene regulation by eukaryotictranscription factors. Curr. Opin. Struct. Biol. 9:48-55.Muller, C. W., 2001. Transcription factors: Global and detailedviews. Curr. Opin. Struct. Biol. 11:26-32.Sakurai, H., and Fukasawa, T., 2000. Functional connectionsbetween mediator components and general transcriptionfactors of Saccharomyces cerevisiae. J. Biol. Chem. 275:37251-37256.Droge, P., and Muller-Hill, B., 2001. High local protein concentrationsat promoters: Strategies in prokaryotic and eukaryoticcells. Bio-essays 23:179-183.Fickett, J. W., and Hatzigeorgiou, A. G., 1997. Eukaryotic promoterrecognition. Genome Res. 7:861-878.Smale, S. T., Jain, A., Kaufmann, J., Emami, K. H., Lo, K., andGarraway, I. P., 1998. The initiator element: A paradigm forcore promoter heterogeneity within metazoan protein-codinggenes. Cold Spring Harbor Symp. Quant. 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Escherichia coli transcription termination factorRho binds and hydrolyzes ATP using a single class of threesites. Biochemistry 40:2276-2281.Henkin, T. M., 2000. Transcription termination control inbacteria. Curr. Opin. Microbiol. 3:149-153.Gusarov, I., and Nudler, E., 1999. The mechanism of intrinsictranscription termination. Mol. Cell. 3:495-504.Σχηματισμός του καλύμματος 5 και πολυαδενυλίωσηShatkin, A. J., and Manley, J. L., 2000. The ends of the affair:Capping and polyadenylation. Nat. Struct. Biol. 7:838-842.Ro-Choi, T. S., 1999. Nuclear snRNA and nuclear function(discovery of 5 cap structures in RNA). Crit. Rev. EukaryoticGene Expr. 9:107-158.Shuman, S., Liu, Y., and Schwer, B., 1994. Covalent catalysis innucleotidyl transfer reactions: Essential motifs in Saccharomycescerevisiae RNA capping enzyme are conserved inSchizosaccharomyces pombe and viral capping enzymes andamong polynucleotide ligases. Proc. Natl. Acad. Sci. U. S. A.91:12046-12050.Bard, J., Zhelkovsky, A. 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J., Alfonzo, J. D., andMaslov, D. A., 2000. Evolution of RNA editing in trypanosomemitochondria. Proc. Natl. Acad. Sci. USA 97:6986-6993.Chester, A., Scott, J., Anant, S., and Navaratnam, N., 2000. RNAediting: Cytidine to uridine conversion in apolipoprotein BmRNA. Biochim. Biophys. Acta 1494:1-3.Maas, S., and Rich, A., 2000. Changing genetic informationthrough RNA editing. Bioessays 22:790-802.Mάτισμα πρόδρομων μορίων mRNAStark, H., Dube, P., Luhrmann, R., and Kastner, B., 2001.Arrangement of RNA and proteins in the spliceosomal U1small nuclear ribonucleoprotein particle. Nature 409:539-542.Strehler, E. E., and Zacharias, D. A., 2001. Role of alternativesplicing in generating isoform diversity among plasmamembrane calcium pumps. Physiol. Rev. 81:21-50.Graveley, B. R., 2001. Alternative splicing: Increasing diversity inthe proteomic world. Trends Genet. 17:100-107.Newman, A., 1998. RNA splicing. Curr. Biol. 8:R903-R905.Reed, R., 2000. Mechanisms of fidelity in pre-mRNA splicing.