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NCBI: 10-JUN-2013

Summary[edit | edit source]

  • organism: Staphylococcus aureus COL
  • locus tag: SACOL1894 [new locus tag: SACOL_RS09755 ]
  • pan locus tag?: SAUPAN004763000
  • symbol: SACOL1894
  • pan gene symbol?: hit
  • synonym:
  • product: HIT family protein

Genome View[edit | edit source]

Gene[edit | edit source]

General[edit | edit source]

  • type: CDS
  • locus tag: SACOL1894 [new locus tag: SACOL_RS09755 ]
  • symbol: SACOL1894
  • product: HIT family protein
  • replicon: chromosome
  • strand: +
  • coordinates: 1948487..1948909
  • length: 423
  • essential: unknown other strains

Accession numbers[edit | edit source]

Phenotype[edit | edit source]

Share your knowledge and add information here. [edit]

DNA sequence[edit | edit source]

  • 1
    61
    121
    181
    241
    301
    361
    421
    ATGTCAGAAACAATTTTCGGCAAAATTTTAACTGGAGAAATTCCTAGCTTTAAAGTATAT
    GAAGACGATTATGTCTATGCCTTTTTAGATATATCACAAGTTACTAAAGGACATACGTTA
    TTAATTCCTAAAAAAGCTTCTGCTAATATCTTTGAAACTGATGAAGAAACAATGAAACAT
    ATCGGTGCAGCATTACCTAAAGTAGCAAATGCTATTAAGCGTGCATTTAATCCTGATGGT
    TTAAACATTATTCAAAATAATGGTGAGTTTGCAGATCAATCTGTATTTCATATTCATTTC
    CACTTAATTCCTCGATACGAAAATGATATTGATGGATTTGGTTATAAGTGGGAAACACAT
    GAAGACATTTTAGATAACGATGCAAAACAACAAATTGCTGAACAAATTCAAGCACAATTT
    TAA
    60
    120
    180
    240
    300
    360
    420
    423

Protein[edit | edit source]

General[edit | edit source]

  • locus tag: SACOL1894 [new locus tag: SACOL_RS09755 ]
  • symbol: SACOL1894
  • description: HIT family protein
  • length: 140
  • theoretical pI: 4.65977
  • theoretical MW: 15944.8
  • GRAVY: -0.363571

Function[edit | edit source]

  • TIGRFAM:
  • TheSEED  :
    • Histidine triad (HIT) nucleotide-binding protein, similarity with At5g48545 and yeast YDL125C (HNT1)
  • PFAM:
    HIT (CL0265) HIT; HIT domain (PF01230; HMM-score: 93.2)
    and 2 more
    DcpS_C; Scavenger mRNA decapping enzyme C-term binding (PF11969; HMM-score: 38.2)
    CwfJ_C_1; Protein similar to CwfJ C-terminus 1 (PF04677; HMM-score: 12.5)

Structure, modifications & cofactors[edit | edit source]

  • domains:
  • modifications:
  • cofactors:
  • effectors:

Localization[edit | edit source]

  • PSORTb: unknown (no significant prediction)
    • Cytoplasmic Score: 2.5
    • Cytoplasmic Membrane Score: 2.5
    • Cellwall Score: 2.5
    • Extracellular Score: 2.5
    • Internal Helices: 0
  • LocateP: Intracellular
    • Prediction by SwissProt Classification: Cytoplasmic
    • Pathway Prediction: No pathway
    • Intracellular possibility: 1
    • Signal peptide possibility: -1
    • N-terminally Anchored Score: 1
    • Predicted Cleavage Site: No CleavageSite
  • SignalP: no predicted signal peptide
    • SP(Sec/SPI): 0.002902
    • TAT(Tat/SPI): 0.000496
    • LIPO(Sec/SPII): 0.000222
  • predicted transmembrane helices (TMHMM): 0

Accession numbers[edit | edit source]

Protein sequence[edit | edit source]

  • MSETIFGKILTGEIPSFKVYEDDYVYAFLDISQVTKGHTLLIPKKASANIFETDEETMKHIGAALPKVANAIKRAFNPDGLNIIQNNGEFADQSVFHIHFHLIPRYENDIDGFGYKWETHEDILDNDAKQQIAEQIQAQF

Experimental data[edit | edit source]

  • experimentally validated: PeptideAtlas
  • protein localization: Cytoplasmic [1] [2] [3]
  • quantitative data / protein copy number per cell: 1788 [4]
  • interaction partners:
    SACOL1247(acpP)acyl carrier protein  [5] (data from MRSA252)
    SACOL0557(cysK)cysteine synthase  [5] (data from MRSA252)
    SACOL1637(dnaK)molecular chaperone DnaK  [5] (data from MRSA252)
    SACOL2622(fdaB)fructose-1,6-bisphosphate aldolase  [5] (data from MRSA252)
    SACOL1329(femC)glutamine synthetase  [5] (data from MRSA252)
    SACOL1278(frr)ribosome recycling factor  [5] (data from MRSA252)
    SACOL0593(fusA)elongation factor G  [5] (data from MRSA252)
    SACOL1961(gatA)aspartyl/glutamyl-tRNA amidotransferase subunit A  [5] (data from MRSA252)
    SACOL1960(gatB)aspartyl/glutamyl-tRNA amidotransferase subunit B  [5] (data from MRSA252)
    SACOL1513(hup)DNA-binding protein HU  [5] (data from MRSA252)
    SACOL1102(pdhA)pyruvate dehydrogenase complex E1 component subunit alpha  [5] (data from MRSA252)
    SACOL1103(pdhB)pyruvate dehydrogenase complex E1 component subunit beta  [5] (data from MRSA252)
    SACOL1104(pdhC)branched-chain alpha-keto acid dehydrogenase E2  [5] (data from MRSA252)
    SACOL1105(pdhD)dihydrolipoamide dehydrogenase  [5] (data from MRSA252)
    SACOL1091(ptsH)phosphocarrier protein HPr  [5] (data from MRSA252)
    SACOL1092(ptsI)phosphoenolpyruvate-protein phosphotransferase  [5] (data from MRSA252)
    SACOL1745(pyk)pyruvate kinase  [5] (data from MRSA252)
    SACOL2236(rplB)50S ribosomal protein L2  [5] (data from MRSA252)
    SACOL2239(rplC)50S ribosomal protein L3  [5] (data from MRSA252)
    SACOL2238(rplD)50S ribosomal protein L4  [5] (data from MRSA252)
    SACOL2224(rplF)50S ribosomal protein L6  [5] (data from MRSA252)
    SACOL0585(rplJ)50S ribosomal protein L10  [5] (data from MRSA252)
    SACOL2220(rplO)50S ribosomal protein L15  [5] (data from MRSA252)
    SACOL2232(rplP)50S ribosomal protein L16  [5] (data from MRSA252)
    SACOL2223(rplR)50S ribosomal protein L18  [5] (data from MRSA252)
    SACOL1257(rplS)50S ribosomal protein L19  [5] (data from MRSA252)
    SACOL1702(rplU)50S ribosomal protein L21  [5] (data from MRSA252)
    SACOL2234(rplV)50S ribosomal protein L22  [5] (data from MRSA252)
    SACOL2233(rpsC)30S ribosomal protein S3  [5] (data from MRSA252)
    SACOL2222(rpsE)30S ribosomal protein S5  [5] (data from MRSA252)
    SACOL0437(rpsF)30S ribosomal protein S6  [5] (data from MRSA252)
    SACOL2225(rpsH)30S ribosomal protein S8  [5] (data from MRSA252)
    SACOL2214(rpsK)30S ribosomal protein S11  [5] (data from MRSA252)
    SACOL1292(rpsO)30S ribosomal protein S15  [5] (data from MRSA252)
    SACOL2230(rpsQ)30S ribosomal protein S17  [5] (data from MRSA252)
    SACOL2235(rpsS)30S ribosomal protein S19  [5] (data from MRSA252)
    SACOL1642(rpsT)30S ribosomal protein S20  [5] (data from MRSA252)
    SACOL0095(spa)immunoglobulin G binding protein A precursor  [5] (data from MRSA252)
    SACOL1449(sucA)2-oxoglutarate dehydrogenase E1 component  [5] (data from MRSA252)
    SACOL1448(sucB)dihydrolipoamide succinyltransferase  [5] (data from MRSA252)
    SACOL1262(sucC)succinyl-CoA synthetase subunit beta  [5] (data from MRSA252)
    SACOL1722(tig)trigger factor  [5] (data from MRSA252)
    SACOL1377(tkt)transketolase  [5] (data from MRSA252)
    SACOL1762(tpx)thiol peroxidase  [5] (data from MRSA252)
    SACOL1155(trxA)thioredoxin  [5] (data from MRSA252)
    SACOL0594(tuf)elongation factor Tu  [5] (data from MRSA252)
    SACOL03035'-nucleotidase  [5] (data from MRSA252)
    SACOL0617hexulose-6-phosphate synthase  [5] (data from MRSA252)
    SACOL0731LysR family transcriptional regulator  [5] (data from MRSA252)
    SACOL0944NADH dehydrogenase  [5] (data from MRSA252)
    SACOL1020hypothetical protein  [5] (data from MRSA252)
    SACOL1753universal stress protein  [5] (data from MRSA252)
    SACOL1759universal stress protein  [5] (data from MRSA252)
    SACOL1902hypothetical protein  [5] (data from MRSA252)
    SACOL2131Dps family protein  [5] (data from MRSA252)
    SACOL2173alkaline shock protein 23  [5] (data from MRSA252)

Expression & Regulation[edit | edit source]

Operon[edit | edit source]

Regulation[edit | edit source]

  • regulator:

Transcription pattern[edit | edit source]

Protein synthesis (provided by Aureolib)[edit | edit source]

Protein stability[edit | edit source]

  • half-life: 28.26 h [6]

Biological Material[edit | edit source]

Mutants[edit | edit source]

Expression vector[edit | edit source]

lacZ fusion[edit | edit source]

GFP fusion[edit | edit source]

two-hybrid system[edit | edit source]

FLAG-tag construct[edit | edit source]

Antibody[edit | edit source]

Other Information[edit | edit source]

You are kindly invited to share additional interesting facts.

Literature[edit | edit source]

References[edit | edit source]

  1. Dörte Becher, Kristina Hempel, Susanne Sievers, Daniela Zühlke, Jan Pané-Farré, Andreas Otto, Stephan Fuchs, Dirk Albrecht, Jörg Bernhardt, Susanne Engelmann, Uwe Völker, Jan Maarten van Dijl, Michael Hecker
    A proteomic view of an important human pathogen--towards the quantification of the entire Staphylococcus aureus proteome.
    PLoS One: 2009, 4(12);e8176
    [PubMed:19997597] [WorldCat.org] [DOI] (I e)
  2. Kristina Hempel, Florian-Alexander Herbst, Martin Moche, Michael Hecker, Dörte Becher
    Quantitative proteomic view on secreted, cell surface-associated, and cytoplasmic proteins of the methicillin-resistant human pathogen Staphylococcus aureus under iron-limited conditions.
    J Proteome Res: 2011, 10(4);1657-66
    [PubMed:21323324] [WorldCat.org] [DOI] (I p)
  3. Andreas Otto, Jan Maarten van Dijl, Michael Hecker, Dörte Becher
    The Staphylococcus aureus proteome.
    Int J Med Microbiol: 2014, 304(2);110-20
    [PubMed:24439828] [WorldCat.org] [DOI] (I p)
  4. Daniela Zühlke, Kirsten Dörries, Jörg Bernhardt, Sandra Maaß, Jan Muntel, Volkmar Liebscher, Jan Pané-Farré, Katharina Riedel, Michael Lalk, Uwe Völker, Susanne Engelmann, Dörte Becher, Stephan Fuchs, Michael Hecker
    Costs of life - Dynamics of the protein inventory of Staphylococcus aureus during anaerobiosis.
    Sci Rep: 2016, 6;28172
    [PubMed:27344979] [WorldCat.org] [DOI] (I e)
  5. 5.00 5.01 5.02 5.03 5.04 5.05 5.06 5.07 5.08 5.09 5.10 5.11 5.12 5.13 5.14 5.15 5.16 5.17 5.18 5.19 5.20 5.21 5.22 5.23 5.24 5.25 5.26 5.27 5.28 5.29 5.30 5.31 5.32 5.33 5.34 5.35 5.36 5.37 5.38 5.39 5.40 5.41 5.42 5.43 5.44 5.45 5.46 5.47 5.48 5.49 5.50 5.51 5.52 5.53 5.54 5.55 Artem Cherkasov, Michael Hsing, Roya Zoraghi, Leonard J Foster, Raymond H See, Nikolay Stoynov, Jihong Jiang, Sukhbir Kaur, Tian Lian, Linda Jackson, Huansheng Gong, Rick Swayze, Emily Amandoron, Farhad Hormozdiari, Phuong Dao, Cenk Sahinalp, Osvaldo Santos-Filho, Peter Axerio-Cilies, Kendall Byler, William R McMaster, Robert C Brunham, B Brett Finlay, Neil E Reiner
    Mapping the protein interaction network in methicillin-resistant Staphylococcus aureus.
    J Proteome Res: 2011, 10(3);1139-50
    [PubMed:21166474] [WorldCat.org] [DOI] (I p)
  6. Stephan Michalik, Jörg Bernhardt, Andreas Otto, Martin Moche, Dörte Becher, Hanna Meyer, Michael Lalk, Claudia Schurmann, Rabea Schlüter, Holger Kock, Ulf Gerth, Michael Hecker
    Life and death of proteins: a case study of glucose-starved Staphylococcus aureus.
    Mol Cell Proteomics: 2012, 11(9);558-70
    [PubMed:22556279] [WorldCat.org] [DOI] (I p)

Relevant publications[edit | edit source]