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Summary[edit | edit source]

  • pan ID?: SAUPAN003034000
  • symbol?: dltD
  • synonym:
  • description?: D-alanyl-lipoteichoic acid biosynthesis protein DltD

      descriptions from strain specific annotations:

    • D-alanyl-lipoteichoic acid biosynthesis protein DltD
    • D-alanine-activating DltD protein
    • D-alanine-activating enzyme/D-alanine-D-alanyl, dltD protein
    • DltD protein
    • extramembranal protein
    • poly D-alanine transfer protein
    • poly D-alanine transfer protein DltD
    • D-alanine lipoteichoic acid and wall teichoic acid esterification secreted protein
    • DltD, central domain protein
    • dltD C-terminal region family protein
    • DltD domain-containing protein
    • lipoteichoic acid biosynthesis protein
    • poly #glycerophosphate chain D-alanine transfer protein
    • poly (glycerophosphate chain) D-alanine transfer protein
    • Poly(glycerophosphate chain) D-alanine transfer protein DltD
    • poly D-alanine transfer protein (glycerophosphate chain)
    • protein dltD
    • putative lipoteichoic acid biosynthesis protein
  • strand?: +
  • coordinates?: 3424094..3425269
  • synteny block?: BlockID0021420
  • occurrence?: in 100% of 33 strains

dltD: D-alanyl-acyl shuttle protein:lipoteichoic acid ligase [1]

DltD is a part of the D-alanylation pathway of extracellular lipoteichoic acid modifications

• In the LTA D-alanylation pathway, D-alanine is activated (adenylylated) by DltA and thioesterified onto the phosphopantetheinylated carrier protein DltC. DltB transfers the D-alanine from DltC to an active site tyrosine of the acyl shuttle microprotein DltX and flips it to the outer leaflet of the membrane. Once on the outer leaflet, DltD can transfer the D-alanine from D-alanyl-DltX it to the 2-OH of the extracellular poly-glycerophosphate LTA.

• Under high salt conditions, the alternate sigma factor SigB activates LTA glycosylation and represses LTA D-alanylation.

Orthologs[edit | edit source]

    COL:
    SACOL0938 (dltD)
    N315:
    SA0796 (dltD)
    NCTC8325:
    SAOUHSC_00872
    Newman:
    NWMN_0806 (dltD)
    USA300_FPR3757:
    SAUSA300_0838 (dltD)
    04-02981:
    SA2981_0890 (dltD)
    08BA02176:
    C248_0934 (dltD)
    11819-97:
    MS7_0890 (dltD)
    6850:
    RSAU_000812 (dltD)
    71193:
    ST398NM01_0918
    ECT-R 2:
    ECTR2_791
    ED133:
    SAOV_0881
    ED98:
    SAAV_0896 (dltD)
    HO 5096 0412:
    SAEMRSA15_07650 (dltD)
    JH1:
    SaurJH1_0954
    JH9:
    SaurJH9_0935
    JKD6008:
    SAA6008_00886 (dltD)
    JKD6159:
    SAA6159_00794 (dltD)
    LGA251:
    SARLGA251_08530 (dltD)
    M013:
    M013TW_0854
    MRSA252:
    SAR0897 (dltD)
    MSHR1132:
    SAMSHR1132_07870
    MSSA476:
    SAS0805
    Mu3:
    SAHV_0930 (dltD)
    Mu50:
    SAV0935 (dltD)
    MW2:
    MW0817 (dltD)
    RF122:
    SAB0801 (dltD)
    ST398:
    SAPIG0918
    T0131:
    SAT0131_00965 (kdpC)
    TCH60:
    HMPREF0772_12312 (dltD)
    TW20:
    SATW20_09350 (dltD)
    USA300_TCH1516:
    USA300HOU_0896 (dltD)
    VC40:
    SAVC_03850

Genome Viewer[edit | edit source]

COL
N315
NCTC8325
Newman
USA300_FPR3757

Alignments[edit | edit source]

  • alignment of orthologues:
    CLUSTAL format alignment by MAFFT L-INS-i (v7.307)


    COL             MKLKPFLPILISGAVFIVFLLLPASWFTGLVNEKTVEDNRTSLTDQVLKGTLIQDKLYES
    N315            MKLKPFLPILISGAVFIVFLLLPASWFTGLVNEKTVEDNRTSLTDQVLKGTLIQDKLYES
    NCTC8325        MKLKPFLPILISGAVFIVFLLLPASWFTGLVNEKTVEDNRTSLTDQVLKGTLIQDKLYES
    Newman          MKLKPFLPILISGAVFIVFLLLPASWFTGLVNEKTVEDNRTSLTDQVLKGTLIQDKLYES
    USA300_FPR3757  MKLKPFLPILISGAVFIVFLLLPASWFTGLVNEKTVEDNRTSLTDQVLKGTLIQDKLYES
                    ************************************************************

    COL             NKYYPIYGSSELGKDDPFNPAIALNKHNANKKAFLLGAGGSTDLINAIELASQYDKLKGK
    N315            NKYYPIYGSSELGKDDPFNPAIALNKHNANKKAFLLGAGGSTDLINAVELASQYDKLKGK
    NCTC8325        NKYYPIYGSSELGKDDPFNPAIALNKHNANKKAFLLGAGGSTDLINAVELASQYDKLKGK
    Newman          NKYYPIYGSSELGKDDPFNPAIALNKHNANKKAFLLGAGGSTDLINAIELASQYDKLKGK
    USA300_FPR3757  NKYYPIYGSSELGKDDPFNPAIALNKHNANKKAFLLGAGGSTDLINAVELASQYDKLKGK
                    ***********************************************:************

    COL             KLTFIISPQWFTNHGLTNQNFDARMSQTQINQMFQQKNMSTELKRRYAQRLLQFPHVHNK
    N315            KLTFIISPQWFTNHGLTNQNFDARMSQTQINQMFQQKNMSTELKRRYAQRLLQFPHVHNK
    NCTC8325        KLTFIISPQWFTNHGLTNQNFDARMSQTQINQMFQQKNMSTELKRRYAQRLLQFPHVHNK
    Newman          KLTFIISPQWFTNHGLTNQNFDARMSQTQINQMFQQKNMSTELKRRYAQRLLQFPHVHNK
    USA300_FPR3757  KLTFIISPQWFTNHGLTNQNFDARMSQTQINQMFQQKNMSTELKRRYAQRLLQFPHVHNK
                    ************************************************************

    COL             EYLKSYAKNPKETKDSYISGFKENQLIKIEAIKSLFAMDKSPLEHVKPATKPDASWDEMK
    N315            EYLKSYAKNPKETKDSYISGFKENQLIKIEAIKSLFAMDKSPLEHVKPATKPDASWDEMK
    NCTC8325        EYLKSYAKNPKETKDSYISGFKENQLIKIEAIKSLFAMDKSPLEHVKPATKPDASWDEMK
    Newman          EYLKSYAKNPKETKDSYISGFKENQLIKIEAIKSLFAMDKSPLEHVKPATKPDASWDEMK
    USA300_FPR3757  EYLKSYAKNPKETKDSYISGFKENQLIKIEAIKSLFAMDKSPLEHVKPATKPDASWDEMK
                    ************************************************************

    COL             QKAVEIGKADTTSNKFGIRDQYWKLIQESKRKVRRDYEFNVNSPEFQDLELLVKTMRAAG
    N315            QKAVEIGKADTTSNKFGIRDQYWILIQESKRKVRRDYEFNVNSPEFQDLELLVKTMRAAG
    NCTC8325        QKAVEIGKADTTSNKFGIRDQYWKLIQESKRKVRRDYEFNVNSPEFQDLELLVKTMRAAG
    Newman          QKAVEIGKADTTSNKFGIRDQYWKLIQESKRKVRRDYEFNVNSPEFQDLELLVKTMRAAG
    USA300_FPR3757  QKAVEIGKADTTSNKFGIRDQYWKLIQESKRKVRRDYEFNVNSPEFQDLELLVKTMRAAG
                    *********************** ************************************

    COL             ADVQYVSIPSNGVWYDHIGIDKERRQAVYKKIHSTVVDNGGKIYDMTDKDYEKYVISDAV
    N315            ADVQYVSIPSNGVWYDHIGIDKERRQAVYKKIHSTVVDNGGKIYDMTDKDYEKYVISDAV
    NCTC8325        ADVQYVSIPSNGVWYDHIGIDKERRQAVYKKIHSTVVDNGGKIYDMTDKDYEKYVISDAV
    Newman          ADVQYVSIPSNGVWYDHIGIDKERRQAVYKKIHSTVVDNGGKIYDMTDKDYEKYVISDAV
    USA300_FPR3757  ADVQYVSIPSNGVWYDHIGIDKERRQAVYKKIHSTVVDNGGKIYDMTDKEYEKYVISDAV
                    *************************************************:**********

    COL             HIGWKGWVYMDEQIAKHMKGEPQPEVDKPKN
    N315            HIGWKGWVYMDEQIAKHMKGEPQPEVDKPKN
    NCTC8325        HIGWKGWVYMDEQIAKHMKGEPQPEVDKPKN
    Newman          HIGWKGWVYMDEQIAKHMKGEPQPEVDKPKN
    USA300_FPR3757  HIGWKGWVYMDEQIAKHMKGEPQPEVDKPKN
                    *******************************

  1. Christopher Weidenmaier, Andreas Peschel, Volkhard A J Kempf, Natalie Lucindo, Michael R Yeaman, Arnold S Bayer
    DltABCD- and MprF-mediated cell envelope modifications of Staphylococcus aureus confer resistance to platelet microbicidal proteins and contribute to virulence in a rabbit endocarditis model.
    Infect Immun: 2005, 73(12);8033-8
    [PubMed:16299297] [WorldCat.org] [DOI] (P p)    B McKay Wood, John P Santa Maria, Leigh M Matano, Christopher R Vickery, Suzanne Walker
    A partial reconstitution implicates DltD in catalyzing lipoteichoic acid d-alanylation.
    J Biol Chem: 2018, 293(46);17985-17996
    [PubMed:30237166] [WorldCat.org] [DOI] (I p)
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