| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | PA14_11140 |
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| Symbol | |
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| ID | 4382067 |
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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 | Pseudomonas aeruginosa UCBPP-PA14 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_008463 |
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| Strand | - |
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| Start bp | 968223 |
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| End bp | 971198 |
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| Gene Length | 2976 bp |
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| Protein Length | 991 aa |
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| Translation table | 11 |
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| GC content | 69% |
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| IMG OID | 639323453 |
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| Product | putative nonribosomal peptide synthetase |
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| Protein accession | YP_789042 |
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| Protein GI | 116052114 |
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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 | 23 |
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| Plasmid unclonability p-value | 1 |
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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 | 75 |
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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 | ATGTCGAAAG ATTCTGTTCT TGGCTTATTC AGGCAACACG CAGATACCCA TCCCGAACGC
CCCGCCCTCG TCGATCGCGA GCGCTCGTTC AGCTACCGCG AACTCGACCG ACTCAGCGAC
CGGCTGGCCG CCCACCTGGC CAGGCGCGGC GTCGCCCGGG GCGAGCGGCT GCCCCTGCTG
GCCGAACGCT CGGCCGAACT GGTCATCGCC ATCCTGGCGG CCGCCAAGTG CGCAGCGGCC
TACGTACCGG TGGACCGTCG GCAACCCGAC AGGCGCAAGC AGGAAATCCT CCGCCAGTGC
CAGGCCCCCG TGGCCCTCGC CACCCAGGCC GAGGACCTGC CGGGGCAACC GGTGGAGGTC
ATCGCACAGG TGCTCGCGAC GAGCGCGGCG GGTGCCGCGC CGAGGCCGGC GCTCGACGGC
AGCGAAGCGC TGTATGTGAT CTTCACCTCG GGCACCACCG GCGAACCCAA GGGCGTGGTG
ATCGAGAGCC GCTCCCTGAG CAACCTCGTG GACTGGCACA ACCGGCGCTT CGAGATGGAC
CAACGGAGCC GCACCACCCT GATGGCCGGC GTCGGCTTCG ACGTTTGCCA ATGGGAAATC
TGGTCCACCC TGTGCGCAGG CGCCTGCCTC CACCTGGTGC CCGACGAGGT GCGCCCGGAC
CCGGCGGCGC TGCTGGCATT CTTCGCCGAG CAGCGGATCA GCCATGCCTT CGCGCCTACC
GTGATGGTCC CTGCGCTGGT GGAGCAACCC GCTCCGCCGT CGCTGGCGCT GCGCTACCTG
TTCTGCGCCG GGGAAAAACT GCCGCCGGTC GCAACCGGCG GGCTGCCCTA TACCGTGGTG
GATTACTACG GCCCGACCGA AGCCACGGTC TTCGCCACCT GCCGCATCGT CGACGCCGAA
GCTCATCGGC GGCCCGCCTC AATCGGCACG CCCATCGACG GTTGCGAGGC ATTCATTCTC
GACGCCGACG ACCGGCCTTG CCATGGCGAC CGGCCCGGCG AGCTGAACCT GGCGGGCGTC
TGCCTGGCGC GCGAATACCT GCGCGACCCG GACATGACCG CCAGGCGCTT CCACTACTCG
CAGGCACTGC GGCGCCGGCT CTATCGCACC GGCGACAAGG CCCGCTGGCT GGCCGACGGC
AGCCTGCAGT TCCTCGGTCG GCTGGACGAC CAGGTGAAGA TCCGCGGCCA CCGCGTCGAA
CTCGGCGACG TCGAAGCCGC GCTGCTGCGC CAGCCGGCGA TCCATGGCGC GGTGGTGCTG
GCGCATGCCG ACCCACGCTG CGGTAGCCAG CAATTGAGCG CCTTCGTGGT CCCCCGCCAG
CGGGGCGGCG ATGCCAGGGC CGTGCTCGCC GCCATCAAGA CCGCCCTGCG CCAGGAACTG
CCCGACTACA TGCTGCCCAG CCGCTATCTG TCGCTGGACA GCCTGCCGAC CACGGTCAAC
GGCAAGATCG ACCGCCAGGC CCTGCGTCGA CGCCTGGAGG AACAATGCCA GGAACGACTC
GACGAGCAAC GCTTCGGCAC TCCCGGCGAA CTGCAAGTGG CTCTGGCCTG GCAGGAAGTG
CTGGGGCATA CCGACTTCGG CCTGGACGAC AGCTTCTTCG AGGTCGGCGG CCATTCCCTG
CTGGCCGCCG CCCTGGTGCG CGAACTGAGC CGACGCTTCG GCAACCGTGC CTACATCCAC
GACATCTACC GCACCCCGAG CGTGCGCCAA CTGGCGGCCA GCCTGGCGCG GCGCGCCGGC
GAAGCGCCGC CGGCGCTGGA CAGCGAACCG GCCCAGGAGC TGCAACGGGA CGTGCGCCTG
CCCGCCGACG TGGATTTCAG CCGGCCCATG GACACCGCCC AATTGCTCGC GCCACGGCAC
ATCCTGCTCA CCGGCGCCAG CGGGCTGATG GGCGCCCACC TGCTCGCCGA GCTGCTGGCC
AGCCGCGAGG CCGACCTGCA TTGTCCGGTC CGTGCGCAAA ACGACGCCCA CGCCCTCGAA
CGCCTGCGCC AGGCCGCCCG GCAGCACCGC ATCGAACTCG CCGAGTCGGA CTGGCGACGG
GTCAGGGCCT ACGCCGCCGA CCTCGCAGAA CCAGGTTTCG GACTACCGGC GGAAACCTAC
CGCGAGCTGG CCGGCAGCGT CGACCAGGTC TTCCATTCCG CCAGCGCGGT GAACTTCATC
CAGCCATACA GCTACATGAA GCGCGACAAC GTCGAGGGGC TCGGCCAGGT CCTGCGCTTC
TGCGCCAGCG GCCGCTGCAA GCCGCTGATG CTGCTGTCGA GCATCTCGGT GTACAGCTGG
GGCCACCTGC ATACCGGCAA GCGCCTGATG CGCGAGGACG ACGACATCGA CCAGAACCTG
CCGGCGGTGG TCACCGACAT GGGCTACGTG CGCAGCAAAT GGGTGATGGA AAAGATCGCC
GACCTCGCCG CCGAACGCGG CCTGCCGCTG ATGACCTTCC GCCTCGGCTA CGCCACCTGC
CACAGCCGTA CCGGCGCCCA TGCCGACTAC CAGTGGTGGA GCCGGCTGGC GCGGACCTGC
CTGGAGTACC GGGCCGTGCC GCTCCTGCGC GAGCTGCGCG AGGGCCTGAC CACGGTGGAC
TACATGGTAG AGGCGATCAG CGTCATCGCC CGCCAGCCTT CGGCGCTGGG CAAGAAATTC
AACCTGGTGC CGAGCATTCC GCGCTGCCTG ACCCTGGACG AGTTCTTCGA CCGTCTCGGG
CGACGCGCCG GGCGTCCCCT CCGGCAGATG CCGTTCGACG ACTGGGTAAG TCTCTGGGAA
GACAATCGCG ACGCCCCGCT CTATCCCCTG CTGAGTATGT TCCGCGACAA CATGTACGCC
GGCCGCAGCA CCGTCGAGTT GTACCAGGAT ACCTATCTCT GGGACTGCAC CAACGTCGAG
GAACACCTGC GCGGGAGCGC CGTGCGCGAG CCGGAGTTCG ACGACCGCCT GCTCGACCTG
TACCTCGCCG GCCTGGGCGG CAGCGCCATG CGGTAA
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| Protein sequence | MSKDSVLGLF RQHADTHPER PALVDRERSF SYRELDRLSD RLAAHLARRG VARGERLPLL
AERSAELVIA ILAAAKCAAA YVPVDRRQPD RRKQEILRQC QAPVALATQA EDLPGQPVEV
IAQVLATSAA GAAPRPALDG SEALYVIFTS GTTGEPKGVV IESRSLSNLV DWHNRRFEMD
QRSRTTLMAG VGFDVCQWEI WSTLCAGACL HLVPDEVRPD PAALLAFFAE QRISHAFAPT
VMVPALVEQP APPSLALRYL FCAGEKLPPV ATGGLPYTVV DYYGPTEATV FATCRIVDAE
AHRRPASIGT PIDGCEAFIL DADDRPCHGD RPGELNLAGV CLAREYLRDP DMTARRFHYS
QALRRRLYRT GDKARWLADG SLQFLGRLDD QVKIRGHRVE LGDVEAALLR QPAIHGAVVL
AHADPRCGSQ QLSAFVVPRQ RGGDARAVLA AIKTALRQEL PDYMLPSRYL SLDSLPTTVN
GKIDRQALRR RLEEQCQERL DEQRFGTPGE LQVALAWQEV LGHTDFGLDD SFFEVGGHSL
LAAALVRELS RRFGNRAYIH DIYRTPSVRQ LAASLARRAG EAPPALDSEP AQELQRDVRL
PADVDFSRPM DTAQLLAPRH ILLTGASGLM GAHLLAELLA SREADLHCPV RAQNDAHALE
RLRQAARQHR IELAESDWRR VRAYAADLAE PGFGLPAETY RELAGSVDQV FHSASAVNFI
QPYSYMKRDN VEGLGQVLRF CASGRCKPLM LLSSISVYSW GHLHTGKRLM REDDDIDQNL
PAVVTDMGYV RSKWVMEKIA DLAAERGLPL MTFRLGYATC HSRTGAHADY QWWSRLARTC
LEYRAVPLLR ELREGLTTVD YMVEAISVIA RQPSALGKKF NLVPSIPRCL TLDEFFDRLG
RRAGRPLRQM PFDDWVSLWE DNRDAPLYPL LSMFRDNMYA GRSTVELYQD TYLWDCTNVE
EHLRGSAVRE PEFDDRLLDL YLAGLGGSAM R
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