| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | PputGB1_2665 |
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| Symbol | |
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| ID | 5870453 |
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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 putida GB-1 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_010322 |
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| Strand | + |
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| Start bp | 2983423 |
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| End bp | 2986818 |
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| Gene Length | 3396 bp |
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| Protein Length | 1131 aa |
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| Translation table | 11 |
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| GC content | 63% |
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| IMG OID | 641547786 |
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| Product | multicopper oxidase type 2 |
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| Protein accession | YP_001668898 |
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| Protein GI | 167033667 |
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| COG category | [Q] Secondary metabolites biosynthesis, transport and catabolism |
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| COG ID | [COG2132] Putative multicopper oxidases |
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| TIGRFAM ID | |
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Plasmid Coverage information |
| Num covering plasmid clones | 15 |
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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 | 33 |
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| Fosmid unclonability p-value | 0.717674 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGAAAACAC CTGCCGTGAT TCACCCGAAC CGGTATGTAT TCCAGCTCTC TTCCGTCACC
GCGCTGATGC TCAGCCTTGG GCTGATCACG GCCATGGCGA GCCCGCTGGA CGACAACAGC
CCGCCACCGC CGACGGACCC CTCGGCCTAC ACCGACCAGC CGGACGACCC GACCCCGGCC
TTGCTCAACC TGAGCACCTT GCCAGAAGCC AACGAAGGCT CGCTGGAGCT GACCGATGGC
GTGTACGGCA ACCGCGATAC GGTGCGTACC GACAACGTGC TGCCACCCGC CTTGCAAACC
TCGGACAGGT ACCCCACCAA CGGCAAGCCC AGCCCGTTGT TCGGTGCGCA ACCCTTCACC
CAGCAACTGC TGCTTTTCGA AGAGTTCGGC CCGGAAAAAC TCGACCCGAC ACTGCCGCCG
CCAGACCTGA CCTTCCCGGT GCCCACCTTG GGCGCGGCCC CGGCTCAAGA CCCCAACGTA
GTGGCCCGCA GCGGCCCCAG TGGCACAGCA CTGGAAGCTT TCCTCAAGCA ACCGGGCCTG
TACCCGTTCC CGACCCAGTT CTCCAACGTG CTTGATCGAA ACCCGTGGAA AGCACAGATC
GAGATGTTCC TCAACCGCCA CCCGGTCGGT TCGCCCGCCG AAGGCCGTCC ACCAGGAAAA
GGCTGGTCGC ACCAGCGCTG GAACGAGTTT TATCCGCAGG CGGCATTCAA GACCGCGCAG
GCTGGCGCGC GCATCAACCT TGGCCTGCGC GATCGCAGGC AAATGCACAA CTACACAGTC
GGGGAATTCG CCCCAGGTGG CCTGTACTAC CAGACCTCCG ATATCCCGAC CACGCTGGGC
ACCACCAAGG GCATCGATAC CCGCTTCCAC CCGAACTTCC CGCTGCAGAA CCACAAGTCG
CTGTGGACCT TCGACGGCAC CTTCCCGCCC AAGCTGCTGA TGGTGCGCTA CGGCCAGCCG
ATCCTGATGC GCCACTACAA TGCCCTGCCG ATCGACCCGT CGGCCAACGG CGGTTTTGGC
CTGCACACCA TCTCGACCCA CGAGCACAAC GGCCATTCCC CGGCCGAAAG CGATGGTTTC
GCCAACGCCT ACTTCTTCCC CGGCCAGTAC TACGACTACC GTTGGCCGGT GCAACTGGCC
GGCTACGACA CCATCAACAC CCGTGCCCAG GACCCGCGTG CGGCCTTCCC CTGCTCGCCG
GGCGAAACCC TGTTCGTCAA CGACGGCACA CCGGGCCTGA AAACCTGCCA GAACGGCAGC
ATCAAGATTC GCGGCGACTG GCGTGAAACC ATGAGCACCC ACTGGTTCCA CGACCACATG
ATGGATTTCA CGGCGCAGAA CGTCTACAAA GGCAACGCCG TGATGATGAA CTACTACAGC
GCCCTGGACC GTGGCAACGA AGCCCTGCAG GACGGCGTCA ACCTGCGCTT CCCCAGCGGT
TCGGGCATGC CGTGGGGTAA CCGTGACTAC GACGTCAACC TGGTGATAGC CGACAAGGCC
TGGGATGCCA ACGGCCAACT GTGGTTCAAC CCGTTCAACA CCGACGGCTT CCTGGGTGAT
CAGATCCTGG TCAACTGGCA GTACCAGCCC AAACTCAAGG TGCGTGCACG CAGCTACCGC
TTCCGTATCC TCAACGGCTC GGTGTCGCGC TACTTCAAGT TTGCCGTGGT GCGGGAAATT
GCCGGCACCA GTGGCGAGTT CAAAGGCCCT TCCGGCTCCA ACGTATCGTA TGCCCGAGTG
CCGTTCCACA TGATCGCCAA CGACGGCAAC ATCATGGAGC ACGCCGTGCC GTTCGACGGC
ACCCTGGACC TCAACGGTGA CGGCAACCTG CAGGACAACA ACGGCATTCT GCCGCTGCAA
GGCATCGCCG AGCGCTACGA CATCATCATC AACTTCGCCA AGAACGGCAT CAAGGCGGGC
GACAAGCTGT ACTTCGTCAA CCTGGAAGAG CACCGCACGG GCAAGGGCCC GGAAGGCACC
ATTTCGCTGG CCGACGTACT GTCGGAAAAA TACAAGGCGG TGATCAAGCA GACCAGCAAA
GGCCCACAGT GGGATAAAGG CGACCCAGCG GTCGGCAAGT TCCTGCAACT GTTGGTGCAG
CCATACACCG GCCAGGACCT GAGCATGGAC CCGGTGGCCT ACGAGCCAGC CAAGCCAGGC
AAAGCTGCAG GCCTGAAAAT GCTGCCGCTG CCCATTGATC GCAACTCGGC TACCGACCTG
GCCAAGATCA AGGATGCCCG CCACCGTGAG TTCATCTTTG GCCGCTCCGA TGGCACCGAC
ACCACCCCCT GGACCATCAA GACCGACGGT GGCTTTGGCT ACAGCATGGA CCCACGGCGT
ATCAGTGCGG CACCGCAACT GGCCAACCAG TCCACCGACG GCGGCTTCAG TGGCGACGGC
ACCCTGGAAG TGTGGAAGAT CAAGAACGGC GGTAATGGCT GGAGCCACCC GGTACACGTG
CACTTCGAGG AAGGCGTGAT TCTTAGCCGT GACGGCAAGG CCCCGCCAGA ATGGGAAAAA
TGGGCACGCA AGGACGTATA CCGTATCGGG CCGGATGCCG ATTCTTCGGA AGAGGTGGAA
ATGGCCATCC GCTTCCGCGA ATTCGCCGGT ACCTACATGG AGCACTGCCA CAACACCCAG
CATGAAGACT CGTCGATGCT ATTGCGCTGG GACATTGAAC ACCCAGGGCA GTTCCAGGTG
ATGCCGACAC CGCTGCCAGG GTGGGATGGC GTGCAATACA TGGCGTCGGT TGGCCTGCCG
ACCTTCCGCA CCAAAGGCCA TGACGACAAC GACGACCCGG CCAACAAACC ACCTGTGGCG
GCTAACGACA GTGCTGCAAC GACCGCTGGC AAACCGATCA CCCTGAACGT GCTGGCCAAT
GACACCGACC CGGACGGCAA CGTACCGCTG ACCGTGACCG GCCTCAGCCA ACCGGACTCT
GGCCAGGGCA CCGTCAGCAC GGATGGCACC ACGGTGACCT ATACCCCACC GGCCACGGTC
GAGACGCCGT TCACTGCCAG CTTCAATTAC ACCGCGCGTG ATGCCAAGGG TGCCGAGTCG
GTAACCCCGG CCACCGTCAG CATTGCCGTG AGCCCGGCAG CCGCGGTCGA CCAGGTCCAG
GTCACCAGTG CCACGGTGCA GGTGCGCAGT GGCAACCGCT ACACCTGGGA CGTGGCGGGC
ACGACTTCGG TGGCGACCGG CAACAGCATC AGTGTGACTG CAGCGTCTAC CAGCGGCCCG
CTGAATCTGG GCAATGCCAC GCTGACGGTC GCCACCTCCG GTGCTCGCTG GAAGCTGTCG
GTGACCACCA CCGGCACGGG CCCGGCAACG CCGGCAACGG TGACCGTGAA ATCGGCCCTG
GGGCAAAGTG TGACGGTGCC GATCAGCATC AAGTAA
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| Protein sequence | MKTPAVIHPN RYVFQLSSVT ALMLSLGLIT AMASPLDDNS PPPPTDPSAY TDQPDDPTPA
LLNLSTLPEA NEGSLELTDG VYGNRDTVRT DNVLPPALQT SDRYPTNGKP SPLFGAQPFT
QQLLLFEEFG PEKLDPTLPP PDLTFPVPTL GAAPAQDPNV VARSGPSGTA LEAFLKQPGL
YPFPTQFSNV LDRNPWKAQI EMFLNRHPVG SPAEGRPPGK GWSHQRWNEF YPQAAFKTAQ
AGARINLGLR DRRQMHNYTV GEFAPGGLYY QTSDIPTTLG TTKGIDTRFH PNFPLQNHKS
LWTFDGTFPP KLLMVRYGQP ILMRHYNALP IDPSANGGFG LHTISTHEHN GHSPAESDGF
ANAYFFPGQY YDYRWPVQLA GYDTINTRAQ DPRAAFPCSP GETLFVNDGT PGLKTCQNGS
IKIRGDWRET MSTHWFHDHM MDFTAQNVYK GNAVMMNYYS ALDRGNEALQ DGVNLRFPSG
SGMPWGNRDY DVNLVIADKA WDANGQLWFN PFNTDGFLGD QILVNWQYQP KLKVRARSYR
FRILNGSVSR YFKFAVVREI AGTSGEFKGP SGSNVSYARV PFHMIANDGN IMEHAVPFDG
TLDLNGDGNL QDNNGILPLQ GIAERYDIII NFAKNGIKAG DKLYFVNLEE HRTGKGPEGT
ISLADVLSEK YKAVIKQTSK GPQWDKGDPA VGKFLQLLVQ PYTGQDLSMD PVAYEPAKPG
KAAGLKMLPL PIDRNSATDL AKIKDARHRE FIFGRSDGTD TTPWTIKTDG GFGYSMDPRR
ISAAPQLANQ STDGGFSGDG TLEVWKIKNG GNGWSHPVHV HFEEGVILSR DGKAPPEWEK
WARKDVYRIG PDADSSEEVE MAIRFREFAG TYMEHCHNTQ HEDSSMLLRW DIEHPGQFQV
MPTPLPGWDG VQYMASVGLP TFRTKGHDDN DDPANKPPVA ANDSAATTAG KPITLNVLAN
DTDPDGNVPL TVTGLSQPDS GQGTVSTDGT TVTYTPPATV ETPFTASFNY TARDAKGAES
VTPATVSIAV SPAAAVDQVQ VTSATVQVRS GNRYTWDVAG TTSVATGNSI SVTAASTSGP
LNLGNATLTV ATSGARWKLS VTTTGTGPAT PATVTVKSAL GQSVTVPISI K
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