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PLM1_5_coex_redo_sep16_scaffold_56_13

Organism: PLM1_5_coex_sep16_Aeromicrobium_marinum_64_17

near complete RP 49 / 55 MC: 3 BSCG 49 / 51 MC: 3 ASCG 15 / 38 MC: 1
Location: 11502..14960

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
Error-prone DNA polymerase {ECO:0000256|HAMAP-Rule:MF_01902}; EC=2.7.7.7 {ECO:0000256|HAMAP-Rule:MF_01902};; species="Bacteria; Actinobacteria; Propionibacteriales; Propionibacteriaceae; Microlunatus.;" source="Microlunatus phosphovorus (strain ATCC 700054 / DSM 10555 / JCM 9379 /; NBRC 101784 / NCIMB 13414 / VKM Ac-1990 / NM-1).;" similarity UNIPROT
DB: UniProtKB
  • Identity: 71.7
  • Coverage: 1150.0
  • Bit_score: 1604
  • Evalue 0.0
dnaE2; error-prone DNA polymerase (EC:2.7.7.7) similarity KEGG
DB: KEGG
  • Identity: 71.7
  • Coverage: 1150.0
  • Bit_score: 1604
  • Evalue 0.0
Error-prone DNA polymerase Tax=Microlunatus phosphovorus (strain ATCC 700054 / DSM 10555 / JCM 9379 / NBRC 101784 / NCIMB 13414 / VKM Ac-1990 / NM-1) RepID=F5XRK7_MICPN similarity UNIREF
DB: UNIREF100
  • Identity: 71.7
  • Coverage: 1150.0
  • Bit_score: 1604
  • Evalue 0.0

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Taxonomy

Microlunatus phosphovorus → Microlunatus → Propionibacteriales → Actinobacteria → Actinobacteria → Bacteria

Sequences

DNA sequence
Length: 3459
ATGGGCTGGAATAATCCGCCGATCTCTTGGCGGGAGCTGGAACGTCGGATGTCCGGGCGGTCTATGCCAGACAACTCCGCGGACAATCCCGAGGGCGACAGCGCTCCGGGCTATTCGCACAAACGACCCGCCTACGAAGCTGATGAGCAGCGGGTCAAGCGTCCTACCGGACCGGTGGTGCCGTACGCGGAGCTGCACTGTCACAGCAACTTCAGCTTCCTGGACGGGGTGAGCGATCCCGAGGAACTGATCGAGGAGGGCGTACGACTGGGACTGGATGCGCTGGCGATTACCGATCATGACGGGTTCTACGCGGCTTCTCGCTTCGCAGAGGCGGCACTCGCGTACGACTTGCGCACCATCTACGGTGCCGAGCTGTCGCTTGGACTCACTACGCCCCAGAACGGAGTAGCCGACCCCGAAGGCCGGCATCTCCTCGTGCTCGCTCAAGGTGTCGAGGGATATCACCGGCTCGCCGGGGCTATCACCGAAGCCCAATTGAGAGGCGATGAGAAAGGTCGTCCCAGCTATCTGGAGGAGGAGCTGGCCGCGCAGTCAGACGGCAACTGGATGATCTTGACCGGCTGTCGCAAAGGAGCCGTACGGCAGGCGCTGATCACCTCCGGTCGGGCAGCGGCAATGGCGGAGCTGGACCGGCTGACGACCCTGTTCGGCCATGATCATGTTGTGATCGAGCTGATCGATCATGGGCTGCCGACCGACTCCGATCTCAATGACGCCCTCCTCGGCTTGGCCCATGATCACAAGTTGCCGGTCGTGGCCACCAACAACGTGCACTTCGCCACACCTGACGGCGGTCGTCTGGCAGCCGCCCTGGCTGCCGTACGTGCCCGCAGAAGCCTGTCGGACATGGACGGCTGGCTGTCCGGACCCGGTGCCCATCTGCGTTCAGGGGCGGAGATGGCGCAAATTTTCGCGCGTTATCCCGGTGTCGTGGAGCGGACTGTCGAGATCGCCAACCAATGCGCCTTCAATCTGCGGCTGGCTAAGCCGCGGCTCCCCAAACTGAATGTGCCAGCTGGAGAATCCCCCATCAGCTGGTTACGTGAACTGACCCGCCAAGGTGCAGACAAGCGCTATGCGCACATCCGCGAGGAGGCTGAGGAGCGGTTGCGTAAAGAGCTGGCAGTGATCGAGGACAAGGACTTCCCCGGCTACTTCTTGATCGTGCACGGCATGGTGAAGTTCGCGCGTGACAAAGGGATTCTCTGCCAGGGCAGGGGGTCGGCGGCCAATTCGGTTGTTTGCTACGTGCTCGGGATCACCGCGGTCGACCCCATTGCGTTCAAGCTGCCCTTCGAACGTTTCCTCTCGGCCACTCGAGATGAAGAGCCGGATATCGACGTCGACTTCGACTCCGACCGGCGCGAGGAGGTGATCCAGGAGGTGTACCGCCGCTACGGTCGCCACAACGCCGCCCAGGTGGCCAATGTGATCAGCTATCGGCCGAGGTCGGCGGTTCGTGATATGGCGAAGGCGCTCGGCTACTCCACCGGTCAGCAAGATGCCTGGTCAAAGCAGATCGACTCCTGGGGGACGCTTCCGATCAGTGAGACGGCAGAGGATCGCGGGAGCACAACGACCGCCGTCGTGCTGGACCACCAGATTCCTGATCAGGTTGTGGACCTGGCTGAGCAGCTGCTGAAGGCGCCACGCCACCTTGGCATTCACTCCGGCGGCATGGTGTTGACCGAGCGTCCGGTAGGGGAGGTGTGCCCGATCGAGCGAGGCCGCATGGACAACCGAACCGTGCTGCAGTGGGACAAAGACAGCTGTGCGTGGATGGGACTAGTGAAGTTCGACTTCCTCGGTCTGGGGATCCTGGCCGCCATCCAATACACCTTCGACCTGGTAGCGCTAAGGGTGGGGGAACGCTGGACGCTCAACACCATGCCCAAAGAGGAAGCCGGGGTCTACGACATGTTGTGTCGTGCCGACTCGATTGGCGTCTTCCAGGTCGAGAGCCGAGCTCAAGTCGGGACCCTCCCGCGACTGCTGCCTCGCCGGTTCTATGACCTGGTGATCGAGGTAGCGCTGATCCGCCCCGGACCGATCCAGGGTGGCGCTGTGCATCCCTACATTCGACGGGCGACCGGCCGGGAAGAGGTGACCTACCTGCATCCGGCGTTGGAGCCTGTGCTGGAGCGGACCAAGGGAGTGCCGTTGTTCCAGGAGCAGCTGATGCAGATCGCGATGGCGGTCGGTGGCTGCACCGGCGATGATGCCGATCTGCTCCGTCGCGCCATGGGGTCCAAGCGAGGCGTGGAGAAGATCGAACGGCTCAAGAACAAGCTCTACGCGGGGATGGCGTCCAACGGGATTACTGGTGCGCTGGCTGACGACATCTACAGCCGTATCCAGGCCTTTGCCAACTTCGGGTTCGCCGAGAGCCATGCGATCAGCTTCGCGCTACTGGTCTACGCCTCCTCCTGGCTCAAGCTGCACTATCCAGGAGCGTTTCTGGCCGGGTTGTTGAGAGCACAGCCGATGGGCTTCTACTCACCTCAGTCATTGGTCGCTGATGCGCGTCGGCACAGCGTAGCGATTTTGCGTCCTGACATCATGCAGTCAGAGGTCGATGCCGACCTGGAATCGATCGAACCCGGTCGCTGCGGCGCAACTGGCCTTGACAGCTGCTTGCAGCGCGTTCAACTCGAGGTAGGGCCTTTCGTACGGTCGGCTCCTGATCGAACGCTCGAACATCGTCGTGATGGCAACTTCGCAGTCAGGTTGGGACTCACTGAGGTGCAAGGCATCGGCCGCGAGTTGGCCAAGCGGATTGTCCTGCAACGCCAGGAAGCAAGGTTCACCGACATCAACGACGTGGTACGCCGGGCCGGGCTCACAGTGGCGCAGGCCGAAGCCCTGGCCACGGCTGGAGCATTCGACTGTTTCGGGTTATCTCGTCGCCAGGCGCTTTGGAACGCCGGATACGCCGACAACGACCAAACTCTGCCCGGCTCAGCCATCGACGCCACCCCGCCAGTGCTTCCAGGAATGAGCGAGGTCGAATTGACCCTCGCTGATCTGTGGTCCACGCGGATTTCTCCGGATGATCATCCGGTGCAGCATCTACGCCCGGTGCTTGATGATCACGACATAGTGCCGATCGGTCGCCTTGGTGCCGCGTACGCGGAAAGTCGCGTGCAAGTGGCGGGGCTGGTGACGCACCGGCAGCGCCCGTCCACGGCAGGCGGAGTGACCTTCCTCAACCTGGAGGACGAGACGGGGATGCTCAATGTGGTCTGCTCCTCCGAGCTCTGGAGGCGTTTCGGCCGGATCGGTCGCAACGCCTCAGGCATGATCATTCGGGGCAGGGTGGAGCACAGCGACGGTGTCACCAACTTGGTGGCCGAACGGCTGCAGCCGTTGAGCTCGGTCTATCCAGAGGCCAGGGGCATCCTGCCATCAAGGCATCGCTCCCGTGACTTCCGTTAG
PROTEIN sequence
Length: 1153
MGWNNPPISWRELERRMSGRSMPDNSADNPEGDSAPGYSHKRPAYEADEQRVKRPTGPVVPYAELHCHSNFSFLDGVSDPEELIEEGVRLGLDALAITDHDGFYAASRFAEAALAYDLRTIYGAELSLGLTTPQNGVADPEGRHLLVLAQGVEGYHRLAGAITEAQLRGDEKGRPSYLEEELAAQSDGNWMILTGCRKGAVRQALITSGRAAAMAELDRLTTLFGHDHVVIELIDHGLPTDSDLNDALLGLAHDHKLPVVATNNVHFATPDGGRLAAALAAVRARRSLSDMDGWLSGPGAHLRSGAEMAQIFARYPGVVERTVEIANQCAFNLRLAKPRLPKLNVPAGESPISWLRELTRQGADKRYAHIREEAEERLRKELAVIEDKDFPGYFLIVHGMVKFARDKGILCQGRGSAANSVVCYVLGITAVDPIAFKLPFERFLSATRDEEPDIDVDFDSDRREEVIQEVYRRYGRHNAAQVANVISYRPRSAVRDMAKALGYSTGQQDAWSKQIDSWGTLPISETAEDRGSTTTAVVLDHQIPDQVVDLAEQLLKAPRHLGIHSGGMVLTERPVGEVCPIERGRMDNRTVLQWDKDSCAWMGLVKFDFLGLGILAAIQYTFDLVALRVGERWTLNTMPKEEAGVYDMLCRADSIGVFQVESRAQVGTLPRLLPRRFYDLVIEVALIRPGPIQGGAVHPYIRRATGREEVTYLHPALEPVLERTKGVPLFQEQLMQIAMAVGGCTGDDADLLRRAMGSKRGVEKIERLKNKLYAGMASNGITGALADDIYSRIQAFANFGFAESHAISFALLVYASSWLKLHYPGAFLAGLLRAQPMGFYSPQSLVADARRHSVAILRPDIMQSEVDADLESIEPGRCGATGLDSCLQRVQLEVGPFVRSAPDRTLEHRRDGNFAVRLGLTEVQGIGRELAKRIVLQRQEARFTDINDVVRRAGLTVAQAEALATAGAFDCFGLSRRQALWNAGYADNDQTLPGSAIDATPPVLPGMSEVELTLADLWSTRISPDDHPVQHLRPVLDDHDIVPIGRLGAAYAESRVQVAGLVTHRQRPSTAGGVTFLNLEDETGMLNVVCSSELWRRFGRIGRNASGMIIRGRVEHSDGVTNLVAERLQPLSSVYPEARGILPSRHRSRDFR*