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Summary[edit | edit source]

  • pan ID?: SAUPAN005405000
  • symbol?:
  • synonym:
  • description?: TIGR01440 family protein

      descriptions from strain specific annotations:

    • TIGR01440 family protein
    • hypothetical protein with DUF436
  • strand?: -
  • coordinates?: 5565764..5566162
  • synteny block?: BlockID0042010
  • occurrence?: in 100% of 34 strains

ywlG (efpG) : multifunctional HPF-sequestering glutamate dehydrogenase YwlG [1]

• A crystal structure is available : 7Z06

YwlG is a classic example of staphylococcal enzymes moonlighting to perform multiple functions. At its core, YwlG is an allosterically-regulated glutamate dehydrogenase. In this context, it likely provides an amino group for the post-translational 5-aminopentanol modification of Elongation Factor P. YwlG physically interacts with Hibernation-Promoting Factor with the mutual sequestration inhibiting YwlG's glutamate dehydrogenase activity and HPF's 100S hibernation ribosome assembly activity. A YwlG knockout has pronounced colonization deficits in both pneumonia and osteomyelitis infection models making it a bona fide virulence factor.

Orthologs[edit | edit source]

    COL:
    SACOL2106
    N315:
    SA1916
    NCTC8325:
    SAOUHSC_02355
    Newman:
    NWMN_2018
    USA300_FPR3757:
    SAUSA300_2068
    04-02981:
    SA2981_2054
    08BA02176:
    C248_2128
    11819-97:
    MS7_2130
    6850:
    RSAU_001952
    71193:
    ST398NM01_2156
    ECT-R 2:
    ECTR2_1970
    ED133:
    SAOV_2155c
    ED98:
    SAAV_2169
    HO 5096 0412:
    SAEMRSA15_20220
    JH1:
    SaurJH1_2188
    JH9:
    SaurJH9_2150
    JKD6008:
    SAA6008_02152
    JKD6159:
    SAA6159_02028
    JSNZ:
    JSNZ_002075
    LGA251:
    SARLGA251_19150
    M013:
    M013TW_2073
    MRSA252:
    SAR2202
    MSHR1132:
    SAMSHR1132_19370
    MSSA476:
    SAS2017
    Mu3:
    SAHV_2098
    Mu50:
    SAV2114
    MW2:
    MW2038
    RF122:
    SAB1998c
    ST398:
    SAPIG2156
    T0131:
    SAT0131_02276
    TCH60:
    HMPREF0772_11077 (ywlG)
    TW20:
    SATW20_22520
    USA300_TCH1516:
    USA300HOU_2104
    VC40:
    SAVC_09445

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             MKDLTMLLDELKDMSFFNKGDICLIGCSTSEVIGEKIGTVGSMEVAETIFNALDVVSKET
    N315            MKDLTMLLDELKDMSFFNKGDICLIGCSTSEVIGEKIGTVGSMEVAETIFNALDVVSKET
    NCTC8325        MKDLTMLLDELKDMSFFNKGDICLIGCSTSEVIGEKIGTVGSMEVAETIFNALDVVSKET
    Newman          MKDLTMLLDELKDMSFFNKGDICLIGCSTSEVIGEKIGTVGSMEVAETIFNALDVVSKET
    USA300_FPR3757  MKDLTMLLDELKDMSFFNKGDICLIGCSTSEVIGEKIGTVGSMEVAETIFNALDVVSKET
                    ************************************************************

    COL             GVTFAFQGCEHINRAITIEKSQYNPLTMEEVSVVPDVHAGGSLATYAFQHMKDPIVVEHI
    N315            GVTFAFQGCEHINRAITIEKSQYNPLTMEEVSVVPDVHAGGSLATYAFQHMKDPIVVEHI
    NCTC8325        GVTFAFQGCEHINRAITIEKSQYNPLTMEEVSVVPDVHAGGSLATYAFQHMKDPIVVEHI
    Newman          GVTFAFQGCEHINRAITIEKSQYNPLTMEEVSVVPDVHAGGSLATYAFQHMKDPIVVEHI
    USA300_FPR3757  GVTFAFQGCEHINRAITIEKSQYNPLTMEEVSVVPDVHAGGSLATYAFQHMKDPIVVEHI
                    ************************************************************

    COL             TVPCGIDIGQTLIGMHIKHVCVPVRTSVKQVGQAIVTIATSRPKKIGGERAKYQ
    N315            TVPCGIDIGQTLIGMHIKHVCVPVRTSVKQVGQAIVTIATSRPKKIGGERAKYK
    NCTC8325        TVPCGIDIGQTLIGMHIKHVCVPVRTSVKQVGQAIVTIATSRPKKIGGERAKYQ
    Newman          TVPCGIDIGQTLIGMHIKHVCVPVRTSVKQVGQAIVTIATSRPKKIGGERAKYQ
    USA300_FPR3757  TVPCGIDIGQTLIGMHIKHVCVPVRTSVKQVGQAIVTIATSRPKKIGGERAKYQ
                    *****************************************************:

  1. Aimee D Wilde, Daniel J Snyder, Nicole E Putnam, Michael D Valentino, Neal D Hammer, Zachery R Lonergan, Scott A Hinger, Esar E Aysanoa, Catlyn Blanchard, Paul M Dunman, Gregory A Wasserman, John Chen, Bo Shopsin, Michael S Gilmore, Eric P Skaar, James E Cassat
    Bacterial Hypoxic Responses Revealed as Critical Determinants of the Host-Pathogen Outcome by TnSeq Analysis of Staphylococcus aureus Invasive Infection.
    PLoS Pathog: 2015, 11(12);e1005341
    [PubMed:26684646] [WorldCat.org] [DOI] (I e)    Anne Witzky, Katherine R Hummels, Rodney Tollerson, Andrei Rajkovic, Lisa A Jones, Daniel B Kearns, Michael Ibba
    EF-P Posttranslational Modification Has Variable Impact on Polyproline Translation in Bacillus subtilis.
    mBio: 2018, 9(2);
    [PubMed:29615499] [WorldCat.org] [DOI] (I e)    Gyu-Lee Kim, Thomas A Hooven, Javiera Norambuena, Barry Li, Jeffrey M Boyd, Jason H Yang, Dane Parker
    Growth and Stress Tolerance Comprise Independent Metabolic Strategies Critical for Staphylococcus aureus Infection.
    mBio: 2021, 12(3);e0081421
    [PubMed:34101490] [WorldCat.org] [DOI] (I p)    David Ranava, Christopher M Scheidler, Martin Pfanzelt, Michaela Fiedler, Stephan A Sieber, Sabine Schneider, Mee-Ngan F Yap
    Bidirectional sequestration between a bacterial hibernation factor and a glutamate metabolizing protein.
    Proc Natl Acad Sci U S A: 2022, 119(39);e2207257119
    [PubMed:36122228] [WorldCat.org] [DOI] (I p)
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