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145 related items for PubMed ID: 2887601

  • 21. Influence of sodium and potassium ions on acid production by washed cells of Streptococcus mutans ingbritt and Streptococcus sanguis NCTC 7865 grown in a chemostat.
    Marsh PD, Williamson MI, Keevil CW, McDermid AS, Ellwood DC.
    Infect Immun; 1982 May; 36(2):476-83. PubMed ID: 7085068
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  • 22. Cloning and nucleotide sequence analysis of the Streptococcus mutans membrane-bound, proton-translocating ATPase operon.
    Smith AJ, Quivey RG, Faustoferri RC.
    Gene; 1996 Dec 12; 183(1-2):87-96. PubMed ID: 8996091
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  • 23. Effects of acidification on growth and glycolysis of Streptococcus sanguis and Streptococcus mutans.
    Takahashi N, Horiuchi M, Yamada T.
    Oral Microbiol Immunol; 1997 Apr 12; 12(2):72-6. PubMed ID: 9227129
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  • 24. Environmental pH as a factor in the competition between strains of the oral streptococci Streptococcus mutans, S. sanguis, and "S. mitior" growing in continuous culture.
    Bowden GH, Hamilton IR.
    Can J Microbiol; 1987 Sep 12; 33(9):824-7. PubMed ID: 3690424
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  • 26. Purification and properties of sorbitol-6-phosphate dehydrogenase from oral streptococci.
    Svensäter G, Edwardsson S, Kalfas S.
    Oral Microbiol Immunol; 1992 Jun 12; 7(3):148-54. PubMed ID: 1408350
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  • 27. Inhibition of proton-translocating ATPases of Streptococcus mutans and Lactobacillus casei by fluoride and aluminum.
    Sturr MG, Marquis RE.
    Arch Microbiol; 1990 Jun 12; 155(1):22-7. PubMed ID: 2150306
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  • 28. Toluene permeabilization differentially affects F- and P-type ATPase activities present in the plasma membrane of Streptococcus mutans.
    Thedei G, Leitão DP, Bolean M, Paulino TP, Spadaro AC, Ciancaglini P.
    Braz J Med Biol Res; 2008 Dec 12; 41(12):1047-53. PubMed ID: 19148365
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  • 29. Studies on the subcellular localization of protease and arylaminopeptidase activities in Streptococcus sanguis ATCC 10556.
    Cowman RA, Baron SS.
    J Dent Res; 1991 Dec 12; 70(12):1508-15. PubMed ID: 1774382
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  • 30. Thermophysiology of Streptococcus mutans and related lactic-acid bacteria.
    Ma Y, Marquis RE.
    Antonie Van Leeuwenhoek; 1997 Aug 12; 72(2):91-100. PubMed ID: 9298187
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  • 31. A comparative study of enzymes involved in glucose phosphorylation in oral streptococci.
    Vadeboncoeur C, Mayrand D, Trahan L.
    J Dent Res; 1982 Jan 12; 61(1):60-5. PubMed ID: 6948019
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  • 32. Fluoride inhibition of proton-translocating ATPases of oral bacteria.
    Sutton SV, Bender GR, Marquis RE.
    Infect Immun; 1987 Nov 12; 55(11):2597-603. PubMed ID: 2889674
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  • 33. Reconstitution of ATP-dependent calcium transport from streptococci.
    Ambudkar SV, Lynn AR, Maloney PC, Rosen BP.
    J Biol Chem; 1986 Nov 25; 261(33):15596-600. PubMed ID: 3096992
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  • 34. Purification and characterization of the F1-ATPase from Clostridium thermoaceticum.
    Ivey DM, Ljungdahl LG.
    J Bacteriol; 1986 Jan 25; 165(1):252-7. PubMed ID: 2867087
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  • 37. Purification and properties of the coupling-factor ATPases F1 from Rhodopseudomonas palustris and Rhodopseudomonas sphaeroides.
    Müller H, Neufang H, Knobloch K.
    Eur J Biochem; 1982 Oct 25; 127(3):559-66. PubMed ID: 6217069
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  • 38. Effect of intracellular pH and potassium ions on a primary transport system for glutamate/aspartate in Streptococcus mutans.
    Noji S, Sato Y, Suzuki R, Taniguchi S.
    Eur J Biochem; 1988 Aug 15; 175(3):491-5. PubMed ID: 2900764
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  • 39. The F1-ATPase from Streptococcus cremoris: isolation, purification and partial characterization.
    Rimpiläinen MA, Mettänen TT, Niskasaari K, Forsén RI.
    Int J Biochem; 1988 Aug 15; 20(10):1117-24. PubMed ID: 2907882
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  • 40. A 100 kDa vanadate and lanzoprazole-sensitive ATPase from Streptococcus mutans membrane.
    Magalhães PP, Paulino TP, Thedei G, Larson RE, Ciancaglini P.
    Arch Oral Biol; 2003 Dec 15; 48(12):815-24. PubMed ID: 14596871
    [Abstract] [Full Text] [Related]

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