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Journal Abstract Search

438 related items for PubMed ID: 15547257

  • 1.
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  • 2. Genomic characterization of ribitol teichoic acid synthesis in Staphylococcus aureus: genes, genomic organization and gene duplication.
    Qian Z, Yin Y, Zhang Y, Lu L, Li Y, Jiang Y.
    BMC Genomics; 2006 Apr 05; 7():74. PubMed ID: 16595020
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  • 4. Precise deletion of tagD and controlled depletion of its product, glycerol 3-phosphate cytidylyltransferase, leads to irregular morphology and lysis of Bacillus subtilis grown at physiological temperature.
    Bhavsar AP, Beveridge TJ, Brown ED.
    J Bacteriol; 2001 Nov 05; 183(22):6688-93. PubMed ID: 11673441
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  • 5. Development and characterization of a xylose-dependent system for expression of cloned genes in Bacillus subtilis: conditional complementation of a teichoic acid mutant.
    Bhavsar AP, Zhao X, Brown ED.
    Appl Environ Microbiol; 2001 Jan 05; 67(1):403-10. PubMed ID: 11133472
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  • 7. Phosphate-containing cell wall polymers of bacilli.
    Potekhina NV, Streshinskaya GM, Tul'skaya EM, Kozlova YI, Senchenkova SN, Shashkov AS.
    Biochemistry (Mosc); 2011 Jul 05; 76(7):745-54. PubMed ID: 21999535
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  • 8. The Amino terminus of Bacillus subtilis TagB possesses separable localization and functional properties.
    Bhavsar AP, D'Elia MA, Sahakian TD, Brown ED.
    J Bacteriol; 2007 Oct 05; 189(19):6816-23. PubMed ID: 17660278
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  • 12. Comparison of ribitol and glycerol teichoic acid genes in Bacillus subtilis W23 and 168: identical function, similar divergent organization, but different regulation.
    Lazarevic V, Abellan FX, Möller SB, Karamata D, Mauël C.
    Microbiology (Reading); 2002 Mar 05; 148(Pt 3):815-24. PubMed ID: 11882717
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  • 13. The TagB protein in Bacillus subtilis 168 is an intracellular peripheral membrane protein that can incorporate glycerol phosphate onto a membrane-bound acceptor in vitro.
    Bhavsar AP, Truant R, Brown ED.
    J Biol Chem; 2005 Nov 04; 280(44):36691-700. PubMed ID: 16150696
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  • 14. [Electrical properties and interaction with silicon dioxide particles of Bacillus subtilis cells].
    Gordienko AS, Kurdish IK.
    Biofizika; 2007 Nov 04; 52(2):314-7. PubMed ID: 17477060
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  • 15. Influence of phosphate supply on teichoic acid and teichuronic acid content of Bacillus subtilis cell walls.
    Lang WK, Glassey K, Archibald AR.
    J Bacteriol; 1982 Jul 04; 151(1):367-75. PubMed ID: 6806244
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  • 16. Duplication of teichoic acid biosynthetic genes in Staphylococcus aureus leads to functionally redundant poly(ribitol phosphate) polymerases.
    Pereira MP, D'Elia MA, Troczynska J, Brown ED.
    J Bacteriol; 2008 Aug 04; 190(16):5642-9. PubMed ID: 18556787
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  • 17. Transcriptional analysis of the Bacillus subtilis teichuronic acid operon.
    Lahooti M, Harwood CR.
    Microbiology (Reading); 1999 Dec 04; 145 ( Pt 12)():3409-3417. PubMed ID: 10627039
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  • 18. The wall teichoic acid polymerase TagF efficiently synthesizes poly(glycerol phosphate) on the TagB product lipid III.
    Pereira MP, Schertzer JW, D'Elia MA, Koteva KP, Hughes DW, Wright GD, Brown ED.
    Chembiochem; 2008 Jun 16; 9(9):1385-90. PubMed ID: 18465758
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  • 19. A novel type of teichoic acid from the cell wall of Bacillus subtilis VKM B-762.
    Shashkov AS, Streshinskaya GM, Kozlova YI, Senchenkova SN, Arbatsky NP, Kudryashova EB.
    Carbohydr Res; 2011 Jul 01; 346(9):1173-7. PubMed ID: 21514573
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  • 20. Control of synthesis of wall teichoic acid during balanced growth of Bacillus subtilis W23.
    Cheah SC, Hussey H, Hancock I, Baddiley J.
    J Gen Microbiol; 1982 Mar 01; 128(3):593-9. PubMed ID: 6281365
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