메뉴 건너뛰기
PLoS ONE
Volumn 8, Issue 5, 2013, Pages
The sRNA RyhB Regulates the Synthesis of the Escherichia coli Methionine Sulfoxide Reductase MsrB but Not MsrA
Author keywords

[No Author keywords available]
Indexed keywords

CHAPERONE; FERRIC UPTAKE REGULATOR; HFQ PROTEIN; MESSENGER RNA; METHIONINE SULFOXIDE REDUCTASE A; METHIONINE SULFOXIDE REDUCTASE B; RIBONUCLEASE E; RYHB PROTEIN; UNCLASSIFIED DRUG; UNTRANSLATED RNA;
EID: 84877326722     PISSN: None     EISSN: 19326203     Source Type: Journal    
DOI: 10.1371/journal.pone.0063647     Document Type: Article
Times cited : (20)
References (57)
  • 1
    • 0034626735 scopus 로고    scopus 로고
    • Oxidants, oxidative stress and the biology of ageing
    • Finkel T, Holbrook NJ, (2000) Oxidants, oxidative stress and the biology of ageing. Nature 408: 239-247.
    • (2000) Nature , vol.408 , pp. 239-247
    • Finkel, T.1    Holbrook, N.J.2
  • 2
    • 33646809781 scopus 로고    scopus 로고
    • The sulfur-containing amino acids: an overview
    • Brosnan JT, Brosnan ME, (2006) The sulfur-containing amino acids: an overview. J Nutr 136: 1636S-1640S.
    • (2006) J Nutr , vol.136
    • Brosnan, J.T.1    Brosnan, M.E.2
  • 4
    • 51549087767 scopus 로고    scopus 로고
    • Protein aggregates: an aging factor involved in cell death
    • Maisonneuve E, Ezraty B, Dukan S, (2008) Protein aggregates: an aging factor involved in cell death. J Bacteriol 190: 6070-6075.
    • (2008) J Bacteriol , vol.190 , pp. 6070-6075
    • Maisonneuve, E.1    Ezraty, B.2    Dukan, S.3
  • 5
    • 75149114580 scopus 로고    scopus 로고
    • Protein carbonyl and the methionine sulfoxide reductase system
    • Moskovitz J, Oien DB, (2010) Protein carbonyl and the methionine sulfoxide reductase system. Antioxid Redox Signal 12: 405-415.
    • (2010) Antioxid Redox Signal , vol.12 , pp. 405-415
    • Moskovitz, J.1    Oien, D.B.2
  • 6
  • 7
    • 12844259524 scopus 로고    scopus 로고
    • Methionine sulfoxide reductases in prokaryotes
    • Ezraty B, Aussel L, Barras F, (2005) Methionine sulfoxide reductases in prokaryotes. Biochim Biophys Acta 1703: 221-229.
    • (2005) Biochim Biophys Acta , vol.1703 , pp. 221-229
    • Ezraty, B.1    Aussel, L.2    Barras, F.3
  • 8
    • 0035966062 scopus 로고    scopus 로고
    • Repair of oxidized proteins. Identification of a new methionine sulfoxide reductase
    • Grimaud R, Ezraty B, Mitchell JK, Lafitte D, Briand C, et al. (2001) Repair of oxidized proteins. Identification of a new methionine sulfoxide reductase. J Biol Chem 276: 48915-48920.
    • (2001) J Biol Chem , vol.276 , pp. 48915-48920
    • Grimaud, R.1    Ezraty, B.2    Mitchell, J.K.3    Lafitte, D.4    Briand, C.5
  • 9
    • 0032815727 scopus 로고    scopus 로고
    • Diastereoselective reduction of protein-bound methionine sulfoxide by methionine sulfoxide reductase
    • Sharov VS, Ferrington DA, Squier TC, Schoneich C, (1999) Diastereoselective reduction of protein-bound methionine sulfoxide by methionine sulfoxide reductase. FEBS Lett 455: 247-250.
    • (1999) FEBS Lett , vol.455 , pp. 247-250
    • Sharov, V.S.1    Ferrington, D.A.2    Squier, T.C.3    Schoneich, C.4
  • 10
    • 0034669358 scopus 로고    scopus 로고
    • Diastereoselective protein methionine oxidation by reactive oxygen species and diastereoselective repair by methionine sulfoxide reductase
    • Sharov VS, Schoneich C, (2000) Diastereoselective protein methionine oxidation by reactive oxygen species and diastereoselective repair by methionine sulfoxide reductase. Free Radic Biol Med 29: 986-994.
    • (2000) Free Radic Biol Med , vol.29 , pp. 986-994
    • Sharov, V.S.1    Schoneich, C.2
  • 11
    • 59649127414 scopus 로고    scopus 로고
    • Methionine in proteins defends against oxidative stress
    • Luo S, Levine RL, (2009) Methionine in proteins defends against oxidative stress. FASEB J 23: 464-472.
    • (2009) FASEB J , vol.23 , pp. 464-472
    • Luo, S.1    Levine, R.L.2
  • 12
    • 34249692347 scopus 로고    scopus 로고
    • Methionine sulfoxide reduction and the aging process
    • Koc A, Gladyshev VN, (2007) Methionine sulfoxide reduction and the aging process. Ann N Y Acad Sci 1100: 383-386.
    • (2007) Ann N Y Acad Sci , vol.1100 , pp. 383-386
    • Koc, A.1    Gladyshev, V.N.2
  • 13
    • 47649096893 scopus 로고    scopus 로고
    • Origin and evolution of the protein-repairing enzymes methionine sulphoxide reductases
    • Zhang XH, Weissbach H, (2008) Origin and evolution of the protein-repairing enzymes methionine sulphoxide reductases. Biol Rev Camb Philos Soc 83: 249-257.
    • (2008) Biol Rev Camb Philos Soc , vol.83 , pp. 249-257
    • Zhang, X.H.1    Weissbach, H.2
  • 14
    • 44549088533 scopus 로고    scopus 로고
    • The methionine sulfoxide reductases: Catalysis and substrate specificities
    • Boschi-Muller S, Gand A, Branlant G, (2008) The methionine sulfoxide reductases: Catalysis and substrate specificities. Arch Biochem Biophys 474: 266-273.
    • (2008) Arch Biochem Biophys , vol.474 , pp. 266-273
    • Boschi-Muller, S.1    Gand, A.2    Branlant, G.3
  • 15
    • 12844271548 scopus 로고    scopus 로고
    • Heterogeneity and function of mammalian MSRs: enzymes for repair, protection and regulation
    • Hansel A, Heinemann SH, Hoshi T, (2005) Heterogeneity and function of mammalian MSRs: enzymes for repair, protection and regulation. Biochim Biophys Acta 1703: 239-247.
    • (2005) Biochim Biophys Acta , vol.1703 , pp. 239-247
    • Hansel, A.1    Heinemann, S.H.2    Hoshi, T.3
  • 16
    • 1642464647 scopus 로고    scopus 로고
    • A second human methionine sulfoxide reductase (hMSRB2) reducing methionine-R-sulfoxide displays a tissue expression pattern distinct from hMSRB1
    • Hansel A, Jung S, Hoshi T, Heinemann SH, (2003) A second human methionine sulfoxide reductase (hMSRB2) reducing methionine-R-sulfoxide displays a tissue expression pattern distinct from hMSRB1. Redox Rep 8: 384-388.
    • (2003) Redox Rep , vol.8 , pp. 384-388
    • Hansel, A.1    Jung, S.2    Hoshi, T.3    Heinemann, S.H.4
  • 17
    • 17844372715 scopus 로고    scopus 로고
    • Roles of methionine suldfoxide reductases in antioxidant defense, protein regulation and survival
    • Moskovitz J, (2005) Roles of methionine suldfoxide reductases in antioxidant defense, protein regulation and survival. Curr Pharm Des 11: 1451-1457.
    • (2005) Curr Pharm Des , vol.11 , pp. 1451-1457
    • Moskovitz, J.1
  • 18
    • 0037022556 scopus 로고    scopus 로고
    • High-quality life extension by the enzyme peptide methionine sulfoxide reductase
    • Ruan H, Tang XD, Chen ML, Joiner ML, Sun G, et al. (2002) High-quality life extension by the enzyme peptide methionine sulfoxide reductase. Proc Natl Acad Sci U S A 99: 2748-2753.
    • (2002) Proc Natl Acad Sci U S A , vol.99 , pp. 2748-2753
    • Ruan, H.1    Tang, X.D.2    Chen, M.L.3    Joiner, M.L.4    Sun, G.5
  • 19
    • 0030955353 scopus 로고    scopus 로고
    • The yeast peptide-methionine sulfoxide reductase functions as an antioxidant in vivo
    • Moskovitz J, Berlett BS, Poston JM, Stadtman ER, (1997) The yeast peptide-methionine sulfoxide reductase functions as an antioxidant in vivo. Proc Natl Acad Sci U S A 94: 9585-9589.
    • (1997) Proc Natl Acad Sci U S A , vol.94 , pp. 9585-9589
    • Moskovitz, J.1    Berlett, B.S.2    Poston, J.M.3    Stadtman, E.R.4
  • 20
    • 0035818520 scopus 로고    scopus 로고
    • Methionine sulfoxide reductase (MsrA) is a regulator of antioxidant defense and lifespan in mammals
    • Moskovitz J, Bar-Noy S, Williams WM, Requena J, Berlett BS, et al. (2001) Methionine sulfoxide reductase (MsrA) is a regulator of antioxidant defense and lifespan in mammals. Proc Natl Acad Sci U S A 98: 12920-12925.
    • (2001) Proc Natl Acad Sci U S A , vol.98 , pp. 12920-12925
    • Moskovitz, J.1    Bar-Noy, S.2    Williams, W.M.3    Requena, J.4    Berlett, B.S.5
  • 21
    • 33749856059 scopus 로고    scopus 로고
    • Plant methionine sulfoxide reductase A and B multigenic families
    • Rouhier N, Vieira Dos Santos C, Tarrago L, Rey P, (2006) Plant methionine sulfoxide reductase A and B multigenic families. Photosynth Res 89: 247-262.
    • (2006) Photosynth Res , vol.89 , pp. 247-262
    • Rouhier, N.1    Vieira Dos Santos, C.2    Tarrago, L.3    Rey, P.4
  • 22
    • 11144298158 scopus 로고    scopus 로고
    • Methionine sulfoxide reduction and assimilation in Escherichia coli: new role for the biotin sulfoxide reductase BisC
    • Ezraty B, Bos J, Barras F, Aussel L, (2005) Methionine sulfoxide reduction and assimilation in Escherichia coli: new role for the biotin sulfoxide reductase BisC. J Bacteriol 187: 231-237.
    • (2005) J Bacteriol , vol.187 , pp. 231-237
    • Ezraty, B.1    Bos, J.2    Barras, F.3    Aussel, L.4
  • 23
    • 2442701595 scopus 로고    scopus 로고
    • Methionine sulfoxide reductase A (MsrA) deficiency affects the survival of Mycobacterium smegmatis within macrophages
    • Douglas T, Daniel DS, Parida BK, Jagannath C, Dhandayuthapani S, (2004) Methionine sulfoxide reductase A (MsrA) deficiency affects the survival of Mycobacterium smegmatis within macrophages. J Bacteriol 186: 3590-3598.
    • (2004) J Bacteriol , vol.186 , pp. 3590-3598
    • Douglas, T.1    Daniel, D.S.2    Parida, B.K.3    Jagannath, C.4    Dhandayuthapani, S.5
  • 24
    • 0142074786 scopus 로고    scopus 로고
    • Multiple methionine sulfoxide reductase genes in Staphylococcus aureus: expression of activity and roles in tolerance of oxidative stress
    • Singh VK, Moskovitz J, (2003) Multiple methionine sulfoxide reductase genes in Staphylococcus aureus: expression of activity and roles in tolerance of oxidative stress. Microbiology 149: 2739-2747.
    • (2003) Microbiology , vol.149 , pp. 2739-2747
    • Singh, V.K.1    Moskovitz, J.2
  • 25
    • 0033514307 scopus 로고    scopus 로고
    • The minimal gene set member msrA, encoding peptide methionine sulfoxide reductase, is a virulence determinant of the plant pathogen Erwinia chrysanthemi
    • Hassouni ME, Chambost JP, Expert D, Van Gijsegem F, Barras F, (1999) The minimal gene set member msrA, encoding peptide methionine sulfoxide reductase, is a virulence determinant of the plant pathogen Erwinia chrysanthemi. Proc Natl Acad Sci U S A 96: 887-892.
    • (1999) Proc Natl Acad Sci U S A , vol.96 , pp. 887-892
    • Hassouni, M.E.1    Chambost, J.P.2    Expert, D.3    Van Gijsegem, F.4    Barras, F.5
  • 26
    • 80355143377 scopus 로고    scopus 로고
    • Methionine sulfoxide reductases are essential for virulence of Salmonella typhimurium
    • Denkel LA, Horst SA, Rouf SF, Kitowski V, Bohm OM, et al. (2011) Methionine sulfoxide reductases are essential for virulence of Salmonella typhimurium. PLoS One 6: e26974.
    • (2011) PLoS One , vol.6
    • Denkel, L.A.1    Horst, S.A.2    Rouf, S.F.3    Kitowski, V.4    Bohm, O.M.5
  • 27
    • 0037162478 scopus 로고    scopus 로고
    • The outer membrane localization of the Neisseria gonorrhoeae MsrA/B is involved in survival against reactive oxygen species
    • Skaar EP, Tobiason DM, Quick J, Judd RC, Weissbach H, et al. (2002) The outer membrane localization of the Neisseria gonorrhoeae MsrA/B is involved in survival against reactive oxygen species. Proc Natl Acad Sci U S A 99: 10108-10113.
    • (2002) Proc Natl Acad Sci U S A , vol.99 , pp. 10108-10113
    • Skaar, E.P.1    Tobiason, D.M.2    Quick, J.3    Judd, R.C.4    Weissbach, H.5
  • 28
    • 0034801336 scopus 로고    scopus 로고
    • Peptide methionine sulfoxide reductase (MsrA) is a virulence determinant in Mycoplasma genitalium
    • Dhandayuthapani S, Blaylock MW, Bebear CM, Rasmussen WG, Baseman JB, (2001) Peptide methionine sulfoxide reductase (MsrA) is a virulence determinant in Mycoplasma genitalium. J Bacteriol 183: 5645-5650.
    • (2001) J Bacteriol , vol.183 , pp. 5645-5650
    • Dhandayuthapani, S.1    Blaylock, M.W.2    Bebear, C.M.3    Rasmussen, W.G.4    Baseman, J.B.5
  • 29
    • 0029820565 scopus 로고    scopus 로고
    • Peptide methionine sulfoxide reductase contributes to the maintenance of adhesins in three major pathogens
    • Wizemann TM, Moskovitz J, Pearce BJ, Cundell D, Arvidson CG, et al. (1996) Peptide methionine sulfoxide reductase contributes to the maintenance of adhesins in three major pathogens. Proc Natl Acad Sci U S A 93: 7985-7990.
    • (1996) Proc Natl Acad Sci U S A , vol.93 , pp. 7985-7990
    • Wizemann, T.M.1    Moskovitz, J.2    Pearce, B.J.3    Cundell, D.4    Arvidson, C.G.5
  • 30
    • 26444505976 scopus 로고    scopus 로고
    • Effect of RyhB small RNA on global iron use in Escherichia coli
    • Masse E, Vanderpool CK, Gottesman S, (2005) Effect of RyhB small RNA on global iron use in Escherichia coli. J Bacteriol 187: 6962-6971.
    • (2005) J Bacteriol , vol.187 , pp. 6962-6971
    • Masse, E.1    Vanderpool, C.K.2    Gottesman, S.3
  • 31
    • 0037007078 scopus 로고    scopus 로고
    • A small RNA regulates the expression of genes involved in iron metabolism in Escherichia coli
    • Masse E, Gottesman S, (2002) A small RNA regulates the expression of genes involved in iron metabolism in Escherichia coli. Proc Natl Acad Sci U S A 99: 4620-4625.
    • (2002) Proc Natl Acad Sci U S A , vol.99 , pp. 4620-4625
    • Masse, E.1    Gottesman, S.2
  • 33
    • 0141860088 scopus 로고    scopus 로고
    • Coupled degradation of a small regulatory RNA and its mRNA targets in Escherichia coli
    • Masse E, Escorcia FE, Gottesman S, (2003) Coupled degradation of a small regulatory RNA and its mRNA targets in Escherichia coli. Genes Dev 17: 2374-2383.
    • (2003) Genes Dev , vol.17 , pp. 2374-2383
    • Masse, E.1    Escorcia, F.E.2    Gottesman, S.3
  • 34
    • 79959209134 scopus 로고    scopus 로고
    • Iron homeostasis and management of oxidative stress response in bacteria
    • Cornelis P, Wei Q, Andrews SC, Vinckx T, (2011) Iron homeostasis and management of oxidative stress response in bacteria. Metallomics 3: 540-549.
    • (2011) Metallomics , vol.3 , pp. 540-549
    • Cornelis, P.1    Wei, Q.2    Andrews, S.C.3    Vinckx, T.4
  • 35
    • 67349095027 scopus 로고    scopus 로고
    • Small RNA-induced differential degradation of the polycistronic mRNA iscRSUA
    • Desnoyers G, Morissette A, Prevost K, Masse E, (2009) Small RNA-induced differential degradation of the polycistronic mRNA iscRSUA. EMBO J 28: 1551-1561.
    • (2009) EMBO J , vol.28 , pp. 1551-1561
    • Desnoyers, G.1    Morissette, A.2    Prevost, K.3    Masse, E.4
  • 36
    • 34249777280 scopus 로고    scopus 로고
    • The small RNA RyhB activates the translation of shiA mRNA encoding a permease of shikimate, a compound involved in siderophore synthesis
    • Prevost K, Salvail H, Desnoyers G, Jacques JF, Phaneuf E, et al. (2007) The small RNA RyhB activates the translation of shiA mRNA encoding a permease of shikimate, a compound involved in siderophore synthesis. Mol Microbiol 64: 1260-1273.
    • (2007) Mol Microbiol , vol.64 , pp. 1260-1273
    • Prevost, K.1    Salvail, H.2    Desnoyers, G.3    Jacques, J.F.4    Phaneuf, E.5
  • 37
    • 79951700321 scopus 로고    scopus 로고
    • Small RNA-induced mRNA degradation achieved through both translation block and activated cleavage
    • Prevost K, Desnoyers G, Jacques JF, Lavoie F, Masse E, (2011) Small RNA-induced mRNA degradation achieved through both translation block and activated cleavage. Genes Dev 25: 385-396.
    • (2011) Genes Dev , vol.25 , pp. 385-396
    • Prevost, K.1    Desnoyers, G.2    Jacques, J.F.3    Lavoie, F.4    Masse, E.5
  • 38
    • 27644551030 scopus 로고    scopus 로고
    • Insights into the role of the metal binding site in methionine-R-sulfoxide reductases B
    • Olry A, Boschi-Muller S, Yu H, Burnel D, Branlant G, (2005) Insights into the role of the metal binding site in methionine-R-sulfoxide reductases B. Protein Sci. 14: 2828-2837.
    • (2005) Protein Sci , vol.14 , pp. 2828-2837
    • Olry, A.1    Boschi-Muller, S.2    Yu, H.3    Burnel, D.4    Branlant, G.5
  • 39
    • 0023255472 scopus 로고
    • Improved single and multicopy lac-based cloning vectors for protein and operon fusions
    • Simons RW, Houman F, Kleckner N, (1987) Improved single and multicopy lac-based cloning vectors for protein and operon fusions. Gene 53: 85-96.
    • (1987) Gene , vol.53 , pp. 85-96
    • Simons, R.W.1    Houman, F.2    Kleckner, N.3
  • 41
    • 0024008492 scopus 로고
    • [A modified method of isolation of "tight" 70S ribosomes from Escherichia coli highly active at different stages of the elongation cycle]
    • Makhno VI, Peshin NN, Semenkov Iu P, Kirillov SV, (1988) [A modified method of isolation of "tight" 70S ribosomes from Escherichia coli highly active at different stages of the elongation cycle]. Mol Biol (Mosk) 22: 670-679.
    • (1988) Mol Biol (Mosk) , vol.22 , pp. 670-679
    • Makhno, V.I.1    Peshin, N.N.2    Semenkov Iu, P.3    Kirillov, S.V.4
  • 42
    • 37349116261 scopus 로고    scopus 로고
    • A competition mechanism regulates the translation of the Escherichia coli operon encoding ribosomal proteins L35 and L20
    • Haentjens-Sitri J, Allemand F, Springer M, Chiaruttini C, (2008) A competition mechanism regulates the translation of the Escherichia coli operon encoding ribosomal proteins L35 and L20. J Mol Biol 375: 612-625.
    • (2008) J Mol Biol , vol.375 , pp. 612-625
    • Haentjens-Sitri, J.1    Allemand, F.2    Springer, M.3    Chiaruttini, C.4
  • 43
    • 15044340366 scopus 로고    scopus 로고
    • Both RNase E and RNase III control the stability of sodB mRNA upon translational inhibition by the small regulatory RNA RyhB
    • Afonyushkin T, Vecerek B, Moll I, Blasi U, Kaberdin VR, (2005) Both RNase E and RNase III control the stability of sodB mRNA upon translational inhibition by the small regulatory RNA RyhB. Nucleic Acids Res 33: 1678-1689.
    • (2005) Nucleic Acids Res , vol.33 , pp. 1678-1689
    • Afonyushkin, T.1    Vecerek, B.2    Moll, I.3    Blasi, U.4    Kaberdin, V.R.5
  • 44
    • 24944507588 scopus 로고    scopus 로고
    • RNase E-based ribonucleoprotein complexes: mechanical basis of mRNA destabilization mediated by bacterial noncoding RNAs
    • Morita T, Maki K, Aiba H, (2005) RNase E-based ribonucleoprotein complexes: mechanical basis of mRNA destabilization mediated by bacterial noncoding RNAs. Genes Dev 19: 2176-2186.
    • (2005) Genes Dev , vol.19 , pp. 2176-2186
    • Morita, T.1    Maki, K.2    Aiba, H.3
  • 45
    • 1542320707 scopus 로고    scopus 로고
    • Hfq, a new chaperoning role: binding to messenger RNA determines access for small RNA regulator
    • Geissmann TA, Touati D, (2004) Hfq, a new chaperoning role: binding to messenger RNA determines access for small RNA regulator. EMBO J 23: 396-405.
    • (2004) EMBO J , vol.23 , pp. 396-405
    • Geissmann, T.A.1    Touati, D.2
  • 46
    • 0142240435 scopus 로고    scopus 로고
    • Coincident Hfq binding and RNase E cleavage sites on mRNA and small regulatory RNAs
    • Moll I, Afonyushkin T, Vytvytska O, Kaberdin VR, Blasi U, (2003) Coincident Hfq binding and RNase E cleavage sites on mRNA and small regulatory RNAs. RNA 9: 1308-1314.
    • (2003) RNA , vol.9 , pp. 1308-1314
    • Moll, I.1    Afonyushkin, T.2    Vytvytska, O.3    Kaberdin, V.R.4    Blasi, U.5
  • 47
    • 78649346987 scopus 로고    scopus 로고
    • Recognition of heptameric seed sequence underlies multi-target regulation by RybB small RNA in Salmonella enterica
    • Balbontin R, Fiorini F, Figueroa-Bossi N, Casadesus J, Bossi L, (2010) Recognition of heptameric seed sequence underlies multi-target regulation by RybB small RNA in Salmonella enterica. Mol Microbiol 78: 380-394.
    • (2010) Mol Microbiol , vol.78 , pp. 380-394
    • Balbontin, R.1    Fiorini, F.2    Figueroa-Bossi, N.3    Casadesus, J.4    Bossi, L.5
  • 48
    • 84867056798 scopus 로고    scopus 로고
    • Small RNA binding-site multiplicity involved in translational regulation of a polycistronic mRNA
    • Rice JB, Balasubramanian D, Vanderpool CK, (2012) Small RNA binding-site multiplicity involved in translational regulation of a polycistronic mRNA. Proc Natl Acad Sci U S A 109: E2691-2698.
    • (2012) Proc Natl Acad Sci U S A , vol.109
    • Rice, J.B.1    Balasubramanian, D.2    Vanderpool, C.K.3
  • 49
    • 35948970194 scopus 로고    scopus 로고
    • A small RNA regulates multiple ABC transporter mRNAs by targeting C/A-rich elements inside and upstream of ribosome-binding sites
    • Sharma CM, Darfeuille F, Plantinga TH, Vogel J, (2007) A small RNA regulates multiple ABC transporter mRNAs by targeting C/A-rich elements inside and upstream of ribosome-binding sites. Genes Dev 21: 2804-2817.
    • (2007) Genes Dev , vol.21 , pp. 2804-2817
    • Sharma, C.M.1    Darfeuille, F.2    Plantinga, T.H.3    Vogel, J.4
  • 50
    • 57149111586 scopus 로고    scopus 로고
    • Small RNA binding to 5′ mRNA coding region inhibits translational initiation
    • Bouvier M, Sharma CM, Mika F, Nierhaus KH, Vogel J, (2008) Small RNA binding to 5′ mRNA coding region inhibits translational initiation. Mol Cell 32: 827-837.
    • (2008) Mol Cell , vol.32 , pp. 827-837
    • Bouvier, M.1    Sharma, C.M.2    Mika, F.3    Nierhaus, K.H.4    Vogel, J.5
  • 51
    • 78650532236 scopus 로고    scopus 로고
    • Evidence for an autonomous 5′ target recognition domain in an Hfq-associated small RNA
    • Papenfort K, Bouvier M, Mika F, Sharma CM, Vogel J, (2010) Evidence for an autonomous 5′ target recognition domain in an Hfq-associated small RNA. Proc Natl Acad Sci U S A 107: 20435-20440.
    • (2010) Proc Natl Acad Sci U S A , vol.107 , pp. 20435-20440
    • Papenfort, K.1    Bouvier, M.2    Mika, F.3    Sharma, C.M.4    Vogel, J.5
  • 52
    • 0028094403 scopus 로고
    • Footprinting mRNA-ribosome complexes with chemical probes
    • Huttenhofer A, Noller HF, (1994) Footprinting mRNA-ribosome complexes with chemical probes. EMBO J 13: 3892-3901.
    • (1994) EMBO J , vol.13 , pp. 3892-3901
    • Huttenhofer, A.1    Noller, H.F.2
  • 53
    • 0042121256 scopus 로고    scopus 로고
    • Mfold web server for nucleic acid folding and hybridization prediction
    • Zuker M, (2003) Mfold web server for nucleic acid folding and hybridization prediction. Nucleic Acids Res 31: 3406-3415.
    • (2003) Nucleic Acids Res , vol.31 , pp. 3406-3415
    • Zuker, M.1
  • 54
    • 2442506617 scopus 로고    scopus 로고
    • Methionine sulfoxide reductases protect Ffh from oxidative damages in Escherichia coli
    • Ezraty B, Grimaud R, El Hassouni M, Moinier D, Barras F, (2004) Methionine sulfoxide reductases protect Ffh from oxidative damages in Escherichia coli. EMBO J 23: 1868-1877.
    • (2004) EMBO J , vol.23 , pp. 1868-1877
    • Ezraty, B.1    Grimaud, R.2    El Hassouni, M.3    Moinier, D.4    Barras, F.5
  • 55
    • 50049105557 scopus 로고    scopus 로고
    • Spx mediates oxidative stress regulation of the methionine sulfoxide reductases operon in Bacillus subtilis
    • You C, Sekowska A, Francetic O, Martin-Verstraete I, Wang Y, et al. (2008) Spx mediates oxidative stress regulation of the methionine sulfoxide reductases operon in Bacillus subtilis. BMC Microbiol 8: 128.
    • (2008) BMC Microbiol , vol.8 , pp. 128
    • You, C.1    Sekowska, A.2    Francetic, O.3    Martin-Verstraete, I.4    Wang, Y.5
  • 56
    • 0024504953 scopus 로고
    • Characterization of cis-acting mutations which increase expression of a glnS-lacZ fusion in Escherichia coli
    • Plumbridge J, Soll D, (1989) Characterization of cis-acting mutations which increase expression of a glnS-lacZ fusion in Escherichia coli. Mol Gen Genet 216: 113-119.
    • (1989) Mol Gen Genet , vol.216 , pp. 113-119
    • Plumbridge, J.1    Soll, D.2
  • 57
    • 8544261105 scopus 로고    scopus 로고
    • Enolase in the RNA degradosome plays a crucial role in the rapid decay of glucose transporter mRNA in the response to phosphosugar stress in Escherichia coli
    • Morita T, Kawamoto H, Mizota T, Inada T, Aiba H, (2004) Enolase in the RNA degradosome plays a crucial role in the rapid decay of glucose transporter mRNA in the response to phosphosugar stress in Escherichia coli. Mol Microbiol 54: 1063-1075.
    • (2004) Mol Microbiol , vol.54 , pp. 1063-1075
    • Morita, T.1    Kawamoto, H.2    Mizota, T.3    Inada, T.4    Aiba, H.5

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.