| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Bamb_5388 |
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| Symbol | |
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| ID | 4314277 |
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| Type | CDS |
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| Is gene spliced | No |
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| Is pseudo gene | No |
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| Organism name | Burkholderia ambifaria AMMD |
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| Kingdom | Bacteria |
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| Replicon accession | NC_008391 |
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| Strand | + |
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| Start bp | 2432515 |
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| End bp | 2435508 |
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| Gene Length | 2994 bp |
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| Protein Length | 997 aa |
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| Translation table | 11 |
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| GC content | 64% |
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| IMG OID | 638153229 |
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| Product | amino acid adenylation domain-containing protein |
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| Protein accession | YP_777269 |
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| Protein GI | 115360131 |
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| COG category | [Q] Secondary metabolites biosynthesis, transport and catabolism |
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| COG ID | [COG1020] Non-ribosomal peptide synthetase modules and related proteins
[COG3320] Putative dehydrogenase domain of multifunctional non-ribosomal peptide synthetases and related enzymes |
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| TIGRFAM ID | [TIGR01733] amino acid adenylation domain
[TIGR01746] thioester reductase domain |
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Plasmid Coverage information |
| Num covering plasmid clones | 9 |
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| Plasmid unclonability p-value | 0.82388 |
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| Plasmid hitchhiking | No |
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| Plasmid clonability | normal |
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Fosmid Coverage information |
| Num covering fosmid clones | 14 |
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| Fosmid unclonability p-value | 1 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGACGACTC AATCGAATGT GCTCGAAAAA TTCCGGCTGC GTGCGGCGCT CGACGGGAAT
CGGCCCGCCG TGGTCTCGGC GCGCGAATGC GTGAGTTACG GGGAACTCGA CCGGCGTAGC
GATATGCTTT CGCGTGAGTT GCGCGATCGG GGAATCGCGG GCGGCAGCCT GGTGCCGATC
GAGGCGGCGC GCAACGCCGA TTTCATCGTC GGCATCCTCG GCATTCTGAA GGCGGGCGCG
ACGTATGTGC CGATCGACGA CCGCTATCCG GATGCGCGCA AGCGCTACAT CCTGCAGCAA
TGCAACGCCG CGCTGGTGTT GACGACGGGC GCGACACATC GGGACGCGGC CTTCCGGTTC
GCCGGTGTGG CGGACCTGTC CGCGGATCGG TCGGCGCGTG ACGACGCGCG CCCGACCTAC
GATGCGGATG CACGGGACGC AGCGATTTAC GTGATCTTCA CGTCCGGTTC CACCGGTGCG
CCGAAGGGCG TGATCGTCGA ACATGCCGCC GTCGCGGCAC TCGTCGATTG GCACAACGCG
CGTTTCGCGA TGCATGCCGA ATGCCGCACG ACGTTGATGG CGGGTCTCGG TTTCGATGTA
TCGCAGTGGG AAATCTGGTC GACGCTCTGC GCGGGCGCGA CGCTGTTCTT GCCCGACGAC
GAAACGCGCT TCGATCCCGA CGCACTGGTC GGCTTCTTCG TTCGTCATCG GATCACGCAT
GCATACGTGC CCACCGCGAT GGTCGCCGAC GTCGTGAGTG TCGGGCAGCC TGCCGGCCTG
GCGCTGAAAT ATCTGTTCAC GGCGGGCGAA AAGCTCGGCC CGATCGATAC AGGCAGCATC
GATTACACGG TGATCGATTA CTACGGACCG ACCGAAGCGA CGATCTTCGC GACGTGCCAC
GTCGTTCCGA GCGCAACGCT CCGCCGTCCC GAGTCGATCG GATGGCCGGT CGGCGGTACG
GAGATCCTGA TCCTGAACGA CGCGCGGGAA GCGGTGACGG GAAGCAACGT CGGCGAGATC
TGCATCGGCG GGCCCGGCCT CGCCCGCGGC TATCTGGGCA ACGCCGCGTT GACGCTCGAA
AAGTTCCGTC CTCATCCGCT GCGGCCGGGC AGCACCCTCT ATCACACCGG CGACCGCGGC
CGCCGGCTGG ATGACGGCTC GATCCAGTTT CTCGGCCGAG TCGACGATCA GGTCAAGATC
AGGGGCAATC TGGTCGAGCT GAGCGAGATT CATGCTGCGC TCATCCGATC CGGCGAGGTG
CGAAAGGCCG TGGTGCTGGC GTTGCCCAAT GCGGCTGGAA GCGGGGTCGA ACTCGTCGCG
TTCGTCGTGC CGCATGATCC GGCCAAGCCG GCCACGCATG TCGTCGATGC GCTCAGGGCG
AGCGTCCGGC GCGATTTGCC CGATTACATG TGGCCCGTCG GTCATGTGCT GCTCGACGAT
CTGCCGATGA CGGCAAACGG CAAGACCGAC CGGGCCGCGC TCGAACGGCG TTACCGCGCG
GAACAGCGCG AGCGGACGGA GAAGGAGCCG TATGCGCCCG CCGAGCGAAT CGTTGCGGAC
GCATTCATCA CATTGATCGG CCATGCGTCG TTTCGCAAGA CCGACAGTTT TTTCGACATC
GGCGGTAATT CGCTGCTGAC GGCGAAACTC GCAAAGGCGC TGTCGGATGC CGCAGGCACG
AAGATGCTGA TCCGGGATGT TTACGAGCAC CAGTCGGTGG CGGCGCTGGC GTGCGAAATC
GAGCGGCGTG TCGGCGCCGC GGCGCTCGAG ATCGAGCGCG AGCCCGTCTA TGCGCTGGAT
AACGATATCC GCGTGCCGGA CGAGGCGGAT TTCAGCCGCC CGTTCGACGA TGCGTTGCTG
GCGTGTCCGC GCACGATCCT GCTGACGGGT GCCACGGGAT TCGTTGGCGT CCACTTGCTG
GCCGAACTGC TCGCGACGAC GTCGGCGGTG GTGCATTGTC TGGTGCGGGC CGACGATGCC
GCGGCGGGGC GCGCGCGGAT CGACGAAAAG CTGCGTGCAT ACGACGTGAA TGTCGGGCCG
GACGAGCGAT CCCGCATCCG TGTGTGCGCG GGCGATATCA CGCAGGCGCG CTTCGGCATG
AACGAGCACG ATTACGCGGA GCTGGCGGAC GAAATCGACA TCGTTTACCA CTCGGCCGGC
GCCGTGAATT TCATCCAGCC GTATTCGTAC ATGAAGAAGA TCAACGTGGA CGGGCTGACG
CAGATTCTCG CTTTCGCCGG GTGCCGGCGA ACCAAGGCGC TGATTCTGCT GTCGACGATC
TCGGTGTACA GCTGGGGACA TCGTTTCACC GGCAAGACCA TGATGACCGA AGCCGACGAC
ATCGATCAGA ATCTGCCGGC GGTGCTCGAG GACATTGGCT ATACGCGCAG CAAATGGGTG
ATGGAGAAGA TGGCCGATCT GGCCGCGCAG CGCGGCCTGC CGCTGATGAC GTTCCGGCTC
GGCTACGCGA CGTTTCATGG CGAGACGGGC GTCAGCGCCG ATTATCAGTG GTGGGGGCGG
CTGGTGAAGA CCTGCATCGC GCTCGGTACC GTCCCCGATC TCGACGATCT GCGCGAAGGG
TTGACGAGCG TGGATTACAT GACGAAAGCG CTCGCGAGGA TTTCGCGTAA TCCGGCGGCG
CTCGGGCGCA AATTCAATCT GATCAATTCG CCGGAGACCA ACATCACGCT CAAGGAGTTT
TTCGCGAGGC TGGAGCGATA CTTCGGTCTG CGGTTCCGGG TCGTTCCGTT CCGTGAATGG
CTCGGCGCGT GGAAGACGGA TATCGATGCG CCGCTCTATC CGTTGTTGAG CCTCTTCGAC
GACAACATTC GCGATGGCAT GAGTACCGCC GAACTCTATC AGAACAACTA TGTATGGGAC
TGCCGCAATG TAATCGAATT TCTCGAGGGC AGCGGGATCG AACAGCCGGC ATTTTCCCGC
GAGCAGCTTG CGCGATACCT GGAGCGTTCG GTCGGTTATC GGGTGACGGG GTGA
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| Protein sequence | MTTQSNVLEK FRLRAALDGN RPAVVSAREC VSYGELDRRS DMLSRELRDR GIAGGSLVPI
EAARNADFIV GILGILKAGA TYVPIDDRYP DARKRYILQQ CNAALVLTTG ATHRDAAFRF
AGVADLSADR SARDDARPTY DADARDAAIY VIFTSGSTGA PKGVIVEHAA VAALVDWHNA
RFAMHAECRT TLMAGLGFDV SQWEIWSTLC AGATLFLPDD ETRFDPDALV GFFVRHRITH
AYVPTAMVAD VVSVGQPAGL ALKYLFTAGE KLGPIDTGSI DYTVIDYYGP TEATIFATCH
VVPSATLRRP ESIGWPVGGT EILILNDARE AVTGSNVGEI CIGGPGLARG YLGNAALTLE
KFRPHPLRPG STLYHTGDRG RRLDDGSIQF LGRVDDQVKI RGNLVELSEI HAALIRSGEV
RKAVVLALPN AAGSGVELVA FVVPHDPAKP ATHVVDALRA SVRRDLPDYM WPVGHVLLDD
LPMTANGKTD RAALERRYRA EQRERTEKEP YAPAERIVAD AFITLIGHAS FRKTDSFFDI
GGNSLLTAKL AKALSDAAGT KMLIRDVYEH QSVAALACEI ERRVGAAALE IEREPVYALD
NDIRVPDEAD FSRPFDDALL ACPRTILLTG ATGFVGVHLL AELLATTSAV VHCLVRADDA
AAGRARIDEK LRAYDVNVGP DERSRIRVCA GDITQARFGM NEHDYAELAD EIDIVYHSAG
AVNFIQPYSY MKKINVDGLT QILAFAGCRR TKALILLSTI SVYSWGHRFT GKTMMTEADD
IDQNLPAVLE DIGYTRSKWV MEKMADLAAQ RGLPLMTFRL GYATFHGETG VSADYQWWGR
LVKTCIALGT VPDLDDLREG LTSVDYMTKA LARISRNPAA LGRKFNLINS PETNITLKEF
FARLERYFGL RFRVVPFREW LGAWKTDIDA PLYPLLSLFD DNIRDGMSTA ELYQNNYVWD
CRNVIEFLEG SGIEQPAFSR EQLARYLERS VGYRVTG
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