Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Gmet_2165 |
Symbol | |
ID | 3741317 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Geobacter metallireducens GS-15 |
Kingdom | Bacteria |
Replicon accession | NC_007517 |
Strand | + |
Start bp | 2442671 |
End bp | 2445955 |
Gene Length | 3285 bp |
Protein Length | 1094 aa |
Translation table | 11 |
GC content | 64% |
IMG OID | 637779459 |
Product | Integrins alpha chain:multicopper oxidase, type 2 |
Protein accession | YP_385119 |
Protein GI | 78223372 |
COG category | [Q] Secondary metabolites biosynthesis, transport and catabolism |
COG ID | [COG2132] Putative multicopper oxidases |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 23 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 24 |
Fosmid unclonability p-value | 0.0000701868 |
Fosmid Hitchhiker | Yes |
Fosmid clonability | hitchhiker |
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Sequence |
Gene sequence | ATGAATGATC ACCCACCATG GAAAACCGGA ACCAGGCTGC TCTCCGCCCT CACCTTCCTG GGCCTGAGCA TCACGTCAAC CGCCCACGCG GTGCCTGTAC CGGGGGGGAC CGTCGACCCC GCCAGCATCC CCAAGTACGT GACCCCTCTG GTCATCCCCC CGGTGATGCC CGCAAGTGTC TCGTCACCGG CCCCGGCGGC CAAATATGAC ATCGCTGTCC GCCAGTTCAA ACAGCAGATC CTTCCCGGCG GCATCTGGGG GAGCAGCTTC CCCAACCCGC TCGCTGCTGC GCCGGCAACG GTCGGCCCAT TCCCTGCCAC AACCGTGTGG AGTTACGGCC GGGCATCGGA CCCGCAGCCG GATTCAACGG CGATCGTGGG GGGAGGCGTA GGGATCGCGC CGGCCACGAA CTCGAGCTTC AACTATCCGG CCTTCACCGT GGAAAACACC TCGAACGTGG CTACCTCGGT GCGCTGGAGC AACGATCTGG TCGCCGATCC GGTTGCCTGC GCGGCATCTC CCAACAAGAG CGTCGCCGCG TGTAATTTCC TGCCTCACCT CTTCAGCGTG GACCAGACCA TCCACTGGGC CAACCCGACC GGCACGGGCT GCGTCATGGC CATGAACCCC CTCGGGGTCG ATTGCCACAC GGCCAATGCA GCTCCCTACA TCGGTCCGGT CCCACTGGTG ACCCACGTCC ACGGCGCCCA TGTCATGCCC CATAGCGACG GCTATCCCGA AGCGTGGTGG CTCCCCGGCA CCCCCGGCAC CAAGGGGATT CCAGCCAGCT ATGTGGAGCG CGGCACGAAA TACGACCAGG CCAACACCGC CAACGCCATC GCCGGCACGG CCTACTTCAA CTACCTCAAC ACCCAGCCGG CCACAACGAT CTGGTATCAT GACCATACCA TCGGCATGAC CCGGCTTAAC GTCTATGCAG GCCCGGCCGG TTTCTGGCTC ATCAGGGGGG GCGTGAACGA TCTGGCAGCC GGCAGCCTTC CCGGCCCGGC ACCGACCGTC GGGCAAGACC CGAACCTAAC CCCCGCGACC CGCAACGCCA TCCGCGAGGT GCCGATTGTC ATCCAGGACC GTTCGTTCGA TTGGGCCGAT GCCGCCGGCA ACACGCTCCC CACGTCGACG GGGGCCACCC AGGCCAAGCT GTTCTACCCG TCCAGCCGCC TCTTCTTCGA CGGCTTCACC GGACCGTACA TCGGTGGAGT CGGCACCCCT GCCGGTCCTT CGGACATCTC CCCCATACTC AACCCCGAAG TGTTCTTCAA CACCATGGTG GTCAACGGCA CAACCTGGCC GAAATTCACC GTGGCGCCGA CCAAATACCG CTTCCGCTTC CTGGACGGCT GCAACTCCCG GACCCTCAAC CTCTCGATGT ATGTGGTAAC CGCCGGCCCC GACGGCAAAT GGGGCACGGC CGACGACGTG AAGACCACTA CGGAAATCCC CTTCTACCAG ATCGGCGGCG ATCAGGGGTT CCTTCCCAAG GTCGTCAAGA TCACCAAGGG CTTCGCTACC GCCCTTCCCG GGAACGGGAC CATCCCGGCA GCCGTGGCCG CTCCCTCCAC CGAACAGGGT TTGTTGATGG GTCCGGCTGA ACGTGCCGAC GTGATCATCG ACTTCACCGG TCTGGCCAAC GGTACCCATG TCCGGATTTT CAACACGGGT CCCGACGCCC CCTTCCAGGG GTTCCCGGCC AACCTGGCAC TCTATGCGCC GGCCGATCCG CTCACCTCCG GACAGGTGAT GGATTTCATC GTCGACTCCG TTGCCGTTCC CGTGCTCCCG AGCGACGCAA CCACAACGAC GGTGCAGAAC CTCGTCCTCC CCAGCGAGGC ACCCCTCGGC GCACCGGTGC CCACTCCCCG CAAGGTTTCC CTGAACGAGC TGGACTCCGC CCAGGTCTGC GTCGAAGTCA ATCCGGTCAC CGCGGCAATC GTCCGGACGA TTTTCAGCAC CTTCGCCGGG GATCCGAACT TTGCGGCCAA CTGCGCGAAG GCGGCGGTCC TCACACCGGG TGATGTGCCG TTGCCGGCAG GCCCCCGCAT AACGCTCCTC GGCACGCTGT CCGCCGACGG GCTTACGGCG GTCCCGTTGA ACTGGAATGA TCCGCTCACC GAACTGCCGC TTCTCAGCAG CACCGAAACC TGGGAAATCT ACAACACCAC CATGGATGGA CATCCTGTCC ACGTACACCT GGTGCGGTTC GAGCTGGTCA ACCGGCAAAA ACTCCTCGCC GCCACCCTGA CGCCGGACCC CGCGGCCGGC AGCACGACTC TCCCGCAACC CAACGAACAG GGCTTTAAAG ACACCATCAT CGCGCTGCCC GGACAGGTTA CCCGGATAAA GGCAAAGTTC GACATCGAGG GGCTCTATGT ATGGCACTGC CATATCGTCG AGCATGAAGA CAACGAGATG ATGCGCCCCT ATGTGGTGCA CAAGGCGCGG CTCAACGCCG ATTTCGACGG CGACGGCAAG ACCGACCTGG TGGTCTGGCG CCCCAACACG GGTGACTGGC TGCACATGCC ATCATTCACC AACATGACCC GCACGGTCAA CTTCGGCACC ACCGGCGATA AGCTGGTCCC CGGCGATTAC GACGGCGACG GCAGGGTCGA CATGGCTGTC TGGCGCCCCT CCAACGGCCA CTGGTACTTC ATGAACAGCA TCACCGGCGC CCAGAGCACC GTCAGCTACG GGACCATGGG CGATACCCCC GTCCCCGGCG ACTATGACGG CGACGGCAAG ACCGACATGG CCGTCTGGCG CGGCGGCAGC TGGTTCATCA AGAATAGCGC CACCGGCACC CAGAGCACCC CCAGCTACGG GACCACCGGC GACATCCCCG TTCCCGGCGA CTACGACGGC GACGGCAAGA CCGACCTGGC TGTCTGGCGC CCCACCAACG GGACCTGGTA CATCACGAAC AGCGCCACCG GCACGCAAAC CACCGCGGCT TACGGGACCA CCGGCGACGT TGTCGTCCCC GGCGACTATG ACGGCGACGG CAAGACCGAC ATCGCCGTCT GGCGCAACGG CACCTGGTTC ATCAAGAACA GCGGCAACGG CACCCAGAGC GTCATCAGTT ACGGGACCGC CGGCGATATC CCCGTACCGG GCGACTACGA CAGCATCGGC AGGACCAGCA TCGCTGTCTG GCGTCCTTCC AACGGAACCT GGTATATCAT GGACACCGTC ACCGGCAAGC AACGGACGGT GAGTTGGGGC CTGTCCACCG ATCAGCCCGT CCAGGCAAAC CAGCCAGTGA AGTAA
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Protein sequence | MNDHPPWKTG TRLLSALTFL GLSITSTAHA VPVPGGTVDP ASIPKYVTPL VIPPVMPASV SSPAPAAKYD IAVRQFKQQI LPGGIWGSSF PNPLAAAPAT VGPFPATTVW SYGRASDPQP DSTAIVGGGV GIAPATNSSF NYPAFTVENT SNVATSVRWS NDLVADPVAC AASPNKSVAA CNFLPHLFSV DQTIHWANPT GTGCVMAMNP LGVDCHTANA APYIGPVPLV THVHGAHVMP HSDGYPEAWW LPGTPGTKGI PASYVERGTK YDQANTANAI AGTAYFNYLN TQPATTIWYH DHTIGMTRLN VYAGPAGFWL IRGGVNDLAA GSLPGPAPTV GQDPNLTPAT RNAIREVPIV IQDRSFDWAD AAGNTLPTST GATQAKLFYP SSRLFFDGFT GPYIGGVGTP AGPSDISPIL NPEVFFNTMV VNGTTWPKFT VAPTKYRFRF LDGCNSRTLN LSMYVVTAGP DGKWGTADDV KTTTEIPFYQ IGGDQGFLPK VVKITKGFAT ALPGNGTIPA AVAAPSTEQG LLMGPAERAD VIIDFTGLAN GTHVRIFNTG PDAPFQGFPA NLALYAPADP LTSGQVMDFI VDSVAVPVLP SDATTTTVQN LVLPSEAPLG APVPTPRKVS LNELDSAQVC VEVNPVTAAI VRTIFSTFAG DPNFAANCAK AAVLTPGDVP LPAGPRITLL GTLSADGLTA VPLNWNDPLT ELPLLSSTET WEIYNTTMDG HPVHVHLVRF ELVNRQKLLA ATLTPDPAAG STTLPQPNEQ GFKDTIIALP GQVTRIKAKF DIEGLYVWHC HIVEHEDNEM MRPYVVHKAR LNADFDGDGK TDLVVWRPNT GDWLHMPSFT NMTRTVNFGT TGDKLVPGDY DGDGRVDMAV WRPSNGHWYF MNSITGAQST VSYGTMGDTP VPGDYDGDGK TDMAVWRGGS WFIKNSATGT QSTPSYGTTG DIPVPGDYDG DGKTDLAVWR PTNGTWYITN SATGTQTTAA YGTTGDVVVP GDYDGDGKTD IAVWRNGTWF IKNSGNGTQS VISYGTAGDI PVPGDYDSIG RTSIAVWRPS NGTWYIMDTV TGKQRTVSWG LSTDQPVQAN QPVK
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