| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Pput_2532 |
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| Symbol | |
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| ID | 5194890 |
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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 F1 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_009512 |
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| Strand | + |
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| Start bp | 2879451 |
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| End bp | 2882846 |
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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 | 640586985 |
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| Product | multicopper oxidase, type 2 |
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| Protein accession | YP_001267851 |
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| Protein GI | 148547749 |
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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 | 11 |
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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 | 31 |
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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 | ATGAAAACAC CTGCTGCGAG TCACGCGTCC AGACGCGTGT TCCATCTGTC CTCCGTCACG
GCACTGATGA TCAGCCTCGG GTTGATCACG GCCATGGCAG CCCCCCTCGA CGACAACAGC
ATGCCACCGC CGACCGACCC TTCGGCCTAC ACCGACCAGC CGGACGACCC GACCGCTGCC
TTGCTTGAGC TGAACACCAT GCCGGAGGCC AACGAAGGCT CGCTGGAGCT GACCGATGGC
GCGTATGGCG ACCGCAACAC GGTAGGCACC GACAACGTGC TGCCGCCGGC CCTGCAAACA
TCGGACAAGT ACCCTACCAA CGGCAAACCC AGCCCGTTGT TCGGTGCACA ACCTTTCACC
CAGCAACTGT TGCTGTTCGA AGAATTCGGG CCAGAGAAGC TCGACCCGAC CACGCCGGCG
CCCGATCTGA CCTTCCCGGT ACCGACGCTC GGCGCGGCCC CCGCGCAAGA CCCCAACGTG
GTAGCACGCA GCGGACCCAG TGGCAGCGCT CTGGAAGCGT TCCTCAAGCA ACCCGGCCTG
TACCCGTTTC CGACCCAGTA CGCCAACGTG CTGGACCGCA ACCCATGGAA GGCGCAGATC
GAGATGTTCC TCAACCGCCA GCCGGTCGGT TCACCCGCTG AAGGCCGGCC ACCAGGAAAA
GGCTGGTCGC ACCAGCGCTG GACCGAGTTC TACCCGCAGG CAGCGTTCAA GACCGCCCAG
GCCGGTGCGC GCATCAACCT CGGTCTGCGC GACCGCAAGC AAATGCACAA CTATGCCGTC
GGCGAATTTG CCCCGGGCGG CCTGTACTAC CAGACCTCCG ACATTCCGAC CACGCTGGGC
ACCACCAAGG GCATCGACAC ACGCTTCCAT CCGAACATGC CGCTGCAAAA CCACAAATCG
CTCTGGACCT TCGACGGCAC CTTCCCGCCC AAACTGCTGA TGGTGCGCTA CGGCCAGCCA
ATTCTGATGC GCCATTACAA CGCCCTGCCG ATTGACCCCT CGGCCAACGG TGGCTTTGGC
CTGCATACCA TCTCGACCCA CGAGCACAAC GGCCACTCGC CGGCCGAAAG CGACGGCTTT
GCCAACGCGT ACTTCTTCCC CGGCCAGTAC TACGACTACC GCTGGCCGGT GCAGCTGGCC
GGCTACGACA CCATCAACAC CCGTGCCCAG GACCCGCGTG CAGCTTTCCC CTGCTCGCCG
GGTGAAACCT TGTTCGTCAA CGATGGTTCA CCGGGCCTGA AAACCTGCGA GAACGGCAGC
ATCAAGATTC GTGGCGACTG GCGCGAAACC ATGAGTACCC ACTGGTTCCA CGACCACATG
ATGGATTTCA CGGCGCAGAA CGTCTACAAG GGCAACGCCG TGATGATGAA CTACTACAGC
GCCCTGGACC GCGGCAACGA GGCCCTGCAG GACGGTGTCA ACCTGCGCTT CCCAAGCGGG
TCAGCCATGC CTTGGGGGAA CCGTGACTAT GACGTCAACC TGGTGGTTGC CGACAAAGCC
TGGGATGCCA ATGGCCAGCT GTGGTTCAAC CCGTTCAACA CGGACGGCTT CCTCGCTGAC
CAGATTCTGG TCAACTGGCA GTACAAGCCC AGGCTCAAGG TGCGTGCGCG CAGTTACCGC
TTCCGTCTCC TCAACGGCTC GGTGTCGCGC TACTTCAAGT TCGCCGTGGT GCGGGAGATT
GCCGGTACCA GTGGTGAGTT CAAAGGCCCG TCCGGCTCCA ACCTGTCGTA TGCGCGGGTG
CCGTTCCACA TGATCGCCAA CGACGGCAAT ATCATGGAAC ACGCGGTGCC ATTCGACGGC
ACGATGGACC TCAATGGTGA CGGCAACCTG CAAGACAACA ACGGCGTCTT GCCGTTGCAG
GCCATTGCCG AGCGCTACGA CATCATCATC AACTTCGCCA AGAACGGTAT CAAGGCGGGC
GACAAGCTGT ACTTCGTCAA CCTGATGGAG CACGACTCCG GCAAAGGTCC GAATCAAGCT
ATCCCGTTGG CCGACGTGCT GTCGGAAAAA TACAAGGCGG TAATCAAGCA GACCAGCAAA
GGCCCGCAGT GGGACAACGG CGACCCGGCT GTCGGCAAGT TTCTGCAACT GTGGGTGCAA
CCGTACACCG GCCAGGACCT GAGCATGGAC CCGGTAGCCT ATGAGCCGGC CAAGCCAGGC
AAAGCTGCTG GCCTGAAAAT GCTGCCCCTG CCCATTGACC GCGACGCCGC AGCCGACCAG
GCCAAACTCA AGGATGCCCG CCACCGCGAG TTCATCTTTG GCCGCTCTGA CGGTACGGAC
ACCACCCCGT GGACCATCAA GACCGACGGC GGCTTTGGCT ACAGCATGGA CCCGCGCCGC
ATCAGTGCCG CGCCGCAATT GGCCAACCAA TCCACCGACG GTGGTTTTAG CGGCGACGGC
ACCCTGGAAG TGTGGAAGAT CGTCAACGGC GGCAATGGCT GGAGCCACCC GGTACACGTG
CATTTCGAGG AAGGCGTGAT CCTTAGCCGC GACGGCAAGG CCCCGCCAGA ATGGGAAAAA
TGGGCGCGCA AGGATGTGTA CCGTATCGGG CCGGATGCTG ATTCGTCCGA AGAGGTGGAA
ATGGCCATCC GCTTCCGCGA GTTCGCCGGC ACCTACATGG AGCACTGCCA CAACACCCAG
CACGAGGACT CTTCGATGCT GCTGCGCTGG GACATTGAAC ATCCGGGGCA GTTCCAGGTG
ATGCCCACCC CGCTGCCAGG ATGGGATGGC GTGCGTTACA TGGCCTCGGT AGGCCTTCCA
ACGTTCCGCA CCAAAACCGA TAACGACAAT GACGACCCGG CCAACAAACC ACCTGTCGTG
GCCAATGACA GTGCCGCAAC GACTGCAGGC AAGGCGATCA CCCTGAACGT GCTGGCCAAC
GACAGCGACC CGGACGGCAA CGTACCGCTC ACGGTCACCG GCCTCAGCCA GCCAGACTCC
GGCCAGGGAG CCGTCAGCAC AGACGGCACC ACCGTGACGT ACAACCCACC CGCTACGGTC
GCCACGCCGT TCACGGCCAG CTTCAATTAC ACGGCGCGTG ATACCAAGGG AGCCGAGTCG
GTGACCCCGG CCACGGTCAG CATCGCCGTA ACCGCAGCAG CGGCGGCCGA CGAGCTCAAG
GTCACCAGTG CCACGGTGCA GGTACGCAGC GGCAACCGTT TCACCTGGGA TGTGCAGGGG
ACTACCACGG TCGCCACGGG CAACAGCATC AGCGTGACTG CAGCAACCAC TGGTGGTCCG
GTAAGCCTGG GGAACGCGAC GCTGACTGCC ACGACCACGG GGGCCCGTTG GCGGGTAGCG
GTGACCACCA CCGGCTTTGG CCCGGCCACG CCAGCGACGG TCACGGTGAA ATCGACGCTG
GGCCAGACGG TAACAGCGCC AGTTACATAC AAGTGA
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| Protein sequence | MKTPAASHAS RRVFHLSSVT ALMISLGLIT AMAAPLDDNS MPPPTDPSAY TDQPDDPTAA
LLELNTMPEA NEGSLELTDG AYGDRNTVGT DNVLPPALQT SDKYPTNGKP SPLFGAQPFT
QQLLLFEEFG PEKLDPTTPA PDLTFPVPTL GAAPAQDPNV VARSGPSGSA LEAFLKQPGL
YPFPTQYANV LDRNPWKAQI EMFLNRQPVG SPAEGRPPGK GWSHQRWTEF YPQAAFKTAQ
AGARINLGLR DRKQMHNYAV GEFAPGGLYY QTSDIPTTLG TTKGIDTRFH PNMPLQNHKS
LWTFDGTFPP KLLMVRYGQP ILMRHYNALP IDPSANGGFG LHTISTHEHN GHSPAESDGF
ANAYFFPGQY YDYRWPVQLA GYDTINTRAQ DPRAAFPCSP GETLFVNDGS PGLKTCENGS
IKIRGDWRET MSTHWFHDHM MDFTAQNVYK GNAVMMNYYS ALDRGNEALQ DGVNLRFPSG
SAMPWGNRDY DVNLVVADKA WDANGQLWFN PFNTDGFLAD QILVNWQYKP RLKVRARSYR
FRLLNGSVSR YFKFAVVREI AGTSGEFKGP SGSNLSYARV PFHMIANDGN IMEHAVPFDG
TMDLNGDGNL QDNNGVLPLQ AIAERYDIII NFAKNGIKAG DKLYFVNLME HDSGKGPNQA
IPLADVLSEK YKAVIKQTSK GPQWDNGDPA VGKFLQLWVQ PYTGQDLSMD PVAYEPAKPG
KAAGLKMLPL PIDRDAAADQ AKLKDARHRE FIFGRSDGTD TTPWTIKTDG GFGYSMDPRR
ISAAPQLANQ STDGGFSGDG TLEVWKIVNG GNGWSHPVHV HFEEGVILSR DGKAPPEWEK
WARKDVYRIG PDADSSEEVE MAIRFREFAG TYMEHCHNTQ HEDSSMLLRW DIEHPGQFQV
MPTPLPGWDG VRYMASVGLP TFRTKTDNDN DDPANKPPVV ANDSAATTAG KAITLNVLAN
DSDPDGNVPL TVTGLSQPDS GQGAVSTDGT TVTYNPPATV ATPFTASFNY TARDTKGAES
VTPATVSIAV TAAAAADELK VTSATVQVRS GNRFTWDVQG TTTVATGNSI SVTAATTGGP
VSLGNATLTA TTTGARWRVA VTTTGFGPAT PATVTVKSTL GQTVTAPVTY K
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