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ACD1_57_3

Organism: ACD1

near complete RP 51 / 55 MC: 12 BSCG 49 / 51 MC: 2 ASCG 0 / 38
Location: comp(4259..8005)

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
hypothetical protein (db=KEGG evalue=3.0e-94 bit_score=350.0 identity=24.76 coverage=96.8775020016013) similarity KEGG
DB: KEGG
  • Identity: 24.76
  • Coverage: 96.88
  • Bit_score: 350
  • Evalue 3.00e-94
Putative uncharacterized protein n=1 Tax=Dickeya dadantii Ech586 RepID=D2BTC5_DICD5 (db=UNIREF evalue=4.0e-94 bit_score=350.0 identity=24.76 coverage=96.8775020016013) similarity UNIREF
DB: UNIREF
  • Identity: 24.76
  • Coverage: 96.88
  • Bit_score: 350
  • Evalue 4.00e-94
coiled-coil (db=Coil db_id=coil from=1079 to=1100 evalue=NA) iprscan interpro
DB: Coil
  • Identity: null
  • Coverage: null
  • Bit_score: null

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Taxonomy

ACD1 → ACD1 → ACD1 → ACD1 → Parcubacteria → Bacteria

Sequences

DNA sequence
Length: 3747
CTATAAATTTTTAATAAAATCGTCTAGCAATCTAGCTTCGACAAATTTAACATCTGTTTTTATAGGAGGATGCTTTGTCCACCAAAACCCCACCTTAGTAACAAAAATGGATAGGATTTGTGGATCAGTACTTGGCACAGTCCAACCCAATTTTCTTATTATATCCTTACTATTGGATTTTAAATAATCAGCCCTATCTTCAACTTTTTTAAGATAACTTCTTTTTACCTTGCCGTCTTCACTATTGCGACTAACATATATTTTTCTTTGCATACGGCCAGAGTCCTTATGACAACGCGGAAAACCAATTATCTTAGCTTCGATATTCAACAAAATATTTTTATTGTCCAGATATCCAAGCACATCAAAATCACCAATATCATTCATTGCGCCATCATATTTATGAGGAAAAATATCTGTTTCAACTTTCTGCGTATATCTCAAAACTATTTTCTTTATTATTTGCACTAATTCCTTTTCTAAGTTTTCATGACCTTTCTTAAGAACTTCTACAATCAAAGGCGCACTGAAATCAGCTGGTAATTGATGTTCACTGGTAATATTAATCCATGTCCAACTAGCCTTTTCAACAGAATGTGGTCCCCAACAGTAAAAGCTTCCTAGTTTAATCAAAGGCTTAATGCTATATCGCATAATCCTTTTATAGTATTCCCAGACAGGAAGATCCGAAGCTTTTACTGGATCACCTTGAATATTTAGGATTTCATCTGGCTTAAGCGTTAAGAATTCCAAAATCGCTTCGGTTTCGGACTTGTCATAGCCTTTAATTTGTTTTGAGCATACCGCGGCTATCTTATTTGCTTTAGCCATGTAATAAGTTTTTTCTTTTTTTTCTGCCTGCATAGCCCAAAGACCCAGGACTTGATGCACGTTTACAAGATTTCTCAAACCGAATCCAAAATCTTTCTTAAAAGCAATATCTAATTCATCTAAATAATTTTCTATAGGTATAGTAGATTCTGCAATATCTTCACTATTACCAATAAGCCCTAGCCTCAATTTAGACTGCTCATTGCTAAAAACCTTTTCCATTTCGGAAAGATTTTCAACATATTTTATAGAAACAATATAATCCCTATCAATAATTACGCGTACTGGGTAGAGCTCATAATGAATAAAGTCGCTTGCCGTATAAACATTTAGTATTCTATTGATCAATGCTAACAATTCTCTCATCAAAAATTCATCTATGATTTTTTTTCCTTTTGGTTGTAACTGAACAAACTTTTCGACAAGATAACGACAATCACGATGCTGGCTTATAAACTCCGTTTTTTGATCTACCAATCTTTCACTTCTTTCATAATCCACTTCATGCTCAAGTGAGTTTTTTATTTCTGCCTCATTTCGTCCATAATCATTTATTAAGGCGTCAATCTTTTCAAGTAAAAAACCAAGACTGCCCCTAAAGCTAAAGTCGAGCACCTTTTTATTTATATGATTTATGATAGCCGCTATCAAAGAATTTAGTTTTTCTTTTGCTTCTTCAGATGAATACTCTCCGGGAGCTATTCCAAGCGCAAGAGCTATTTTAGCTATATCTTTATCCGCCATTTTGTATTCTCTTTCTTGTGGGATAACAGCTCTCACATTCTCAGGAAAAGATGCTTTCTTTTCAATTTGAAACATTCTAAATCTTGATGGATTATGTTTTTCATCATCTAACTCTTTGATAACATCTTTTGCTTTTTTATCCTGAAACCAACTGTTCATCTGATCGATAATGCCAATAATAAGCTCCATTTGCAAAGATCTATCATTCACGGTCTTGAGATTATCAACAATTTTGTCATCCTTATACACAATTCTTATTCCGTATCCACCTGCACCAAGTGGAGCAAAGTCCATTTCCCAAGGATCATCAGTTGATATTAAGTGTTTTAGATGTTCAAATTTGCCAGATTGAAGAACTAGAGAAGCTGGACATAAAAAAACTTGTGTTTTATTTTTATGTTTGGCGAAATTTAATATTTCAATATTCTTTCTATATAATTCGATTGAGTCAGAAATACTATGCATCAACAAGTCAGTCATTTTTCCTTGCTCCCAACTCATCTTATCAACTGGAGAATTTATAAAAAAAGACATTGATCCGATTTTTTGACAATATACGTAACCAAAGAAATTTCTAGATTCCAACATGAGACCTAGTTCAGATTTTCTTTCAGAGGGTATTTTCCAGCTTCTGGGATTTCCGAAAAAACTTTCATCTGGAAAATCATCCCAAAATTCTTTTAGAGATCTAAATCGCAAACTTGAGCCCCAATTAGTATCAAGCGATATCATGTCCGGCTCTAATGCGCCAGGAATTAAAACTTCATGTGAGTCCCTGAATGAACCAAAACGATCCAAGTACGTATTAAGAGGGGCCATTCTATAATTTTGTTTTCTTTCAGATTCGAGTGAATCAAAAAAGCGAATTATTTCTTCTGGATCTTTTGCTTCATCAAAAATTCCAGCTATTTGATCAATCCCCATAATTTCTATGGGTACATCCCTAGGAATTTCAACACCTATGATAGAACTTGTTAACGGGGTTGGTAATGCTATAAAAAATACTGGTCTCAATGATTTCTTTTGCTTTTTTGACCTGAATTCAACAATTTGATTCTTAGCCATTAAATAGAATTTCGTTGGAGTTTTTGAAAATAACTCGTTACACTCTTTGATTTTTGGCATTAACATGGACAGATGCTTATCTAGTGTCTCCTGGTCATATATTGGAGGAATAACATGCACGAGAAGCAATGTATCCTCAACATGTATTGCAGTAAAAACCAAATCATAAGGCTTTCCGCTTAATTCCAACGGCTTTGCCATCGGAAAAACATTGTCCTCATTGACCCTATCTCCAATAAATTTATACATTTCAATTCCTATTAAAATGTCTGGGTCTTTATTACCAAGCGCTTTAGAGATATCTTTATAATTTTCACTAAGCAATATTCCCCACGTATCATACAAAACAGTTATATAACTTCTAGGCATTACAGGATAATACTTACCGTCCCTGAATATAAAAAAATATCTGCAATTCTTTCCTCTAAATGCATCCTCGGTGAATGTATCAAAATTTGGCAGAAAAGAATTATCAGTAAGATCTTTAACATAAAATGACAACATCTCGGAATTGACTGCCGTTTCGGGATTGTAACCGTCAATAAAGTTACAAACGTTTTGCCAAAATTTTTCAGAAGGTGCTCCTATATCGCCAGGTCTAATATTTTCAATTTTTTCAGATTTATCTTGATTTAATGAATTAATTAAATTATTTTGAATGCTCAAGCAAAATCGCAACTCATCCATTGGAGACCTTTTGATTAATTCAACATAAGTATCTTTGAAAGCCTTATGGATAATTTCAAATTCATAATAGTAATCGTATGGATTTGAAAGATCCCCTCCATAAAAAATATCATAGAAACGTTTCTCAAAAAAATATCTGACATCTTTCCAATCAGCCTCCGGCACATAATCTTCTAGCATGATAAAGGAAGGCACAAGCTCAAATAATTTTGTACAGAATTCTTGATAATCAGAATATGCAACAATTCTATTTTGAGCCGATAGCTCATTGTGCATTGATTCCAGGATAACATACAAGTATTGTATTTTTATTGGACTTGCGATATTTGGAAGCCATAAGTTCAATGCAAAAAATCCTTTGGCAAGGTCATCAAGACTATACTTTCTTAAAAATTCTTTTAACTCTTTTATATTCTCCAT
PROTEIN sequence
Length: 1249
L*IFNKIV*QSSFDKFNICFYRRMLCPPKPHLSNKNG*DLWISTWHSPTQFSYYILTIGF*IISPIFNFFKITSFYLAVFTIATNIYFSLHTARVLMTTRKTNYLSFDIQQNIFIVQISKHIKITNIIHCAIIFMRKNICFNFLRISQNYFLYYLH*FLF*VFMTFLKNFYNQRRTEISW*LMFTGNINPCPTSLFNRMWSPTVKAS*FNQRLNAISHNPFIVFPDRKIRSFYWITLNI*DFIWLKR*EFQNRFGFGLVIAFNLF*AYRGYLICFSHVISFFFFFCLHSPKTQDLMHVYKISQTESKIFLKSNI*FI*IIFYRYSRFCNIFTITNKP*PQFRLLIAKNLFHFGKIFNIFYRNNIIPINNYAYWVELIMNKVACRINI*YSIDQC*QFSHQKFIYDFFSFWL*LNKLFDKITTITMLAYKLRFLIYQSFTSFIIHFMLK*VFYFCLISSIIIY*GVNLFK*KTKTAPKAKVEHLFIYMIYDSRYQRI*FFFCFFR*ILSGSYSKRKSYFSYIFIRHFVFSFLWDNSSHILRKRCFLFNLKHSKS*WIMFFII*LFDNIFCFFILKPTVHLIDNANNKLHLQRSIIHGLEIINNFVILIHNSYSVSTCTKWSKVHFPRIIS*Y*VF*MFKFARLKN*RSWT*KNLCFIFMFGEI*YFNILSI*FD*VRNTMHQQVSHFSLLPTHLINWRIYKKRH*SDFLTIYVTKEISRFQHET*FRFSFRGYFPASGISEKTFIWKIIPKFF*RSKSQT*APISIKRYHVRL*CARN*NFM*VPE*TKTIQVRIKRGHSIILFSFRFE*IKKANYFFWIFCFIKNSSYLINPHNFYGYIPRNFNTYDRTC*RGW*CYKKYWSQ*FLLLF*PEFNNLILSH*IEFRWSF*K*LVTLFDFWH*HGQMLI*CLLVIYWRNNMHEKQCILNMYCSKNQIIRLSA*FQRLCHRKNIVLIDPISNKFIHFNSY*NVWVFITKRFRDIFIIFTKQYSPRIIQNSYITSRHYRIILTVPEYKKISAILSSKCILGECIKIWQKRIISKIFNIK*QHLGIDCRFGIVTVNKVTNVLPKFFRRCSYIARSNIFNFFRFILI**IN*IILNAQAKSQLIHWRPFD*FNISIFESLMDNFKFIIVIVWI*KIPSIKNIIETFLKKISDIFPISLRHIIF*HDKGRHKLK*FCTEFLIIRICNNSILSR*LIVH*FQDNIQVLYFYWTCDIWKP*VQCKKSFGKVIKTILS*KFF*LFYILH