| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | SO_2465 |
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| Symbol | |
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| ID | 1170179 |
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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 | Shewanella oneidensis MR-1 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_004347 |
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| Strand | + |
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| Start bp | 2584711 |
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| End bp | 2587428 |
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| Gene Length | 2718 bp |
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| Protein Length | 905 aa |
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| Translation table | 11 |
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| GC content | 46% |
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| IMG OID | 637344296 |
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| Product | surface protein, putative |
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| Protein accession | NP_718054 |
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| Protein GI | 24374011 |
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| COG category | |
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| COG ID | |
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| TIGRFAM ID | |
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| 
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Plasmid Coverage information |
| Num covering plasmid clones | n/a |
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| Plasmid unclonability p-value | n/a |
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| Plasmid hitchhiking | n/a |
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| Plasmid clonability | n/a |
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Fosmid Coverage information |
| Num covering fosmid clones | n/a |
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| Fosmid unclonability p-value | n/a |
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| Fosmid Hitchhiker | n/a |
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| Fosmid clonability | n/a |
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Sequence |
| Gene sequence | ATGTGGATGG TACACTATTC AGCTCAGTTG GACGTCACTC AAGCGGTGGT AACAGCCTTG
CAAGTCACAC CGACAACTGA GCCCGTTCCG GTTGGATTAA CCAAGCCATT TACGGCAATA
GCCACCCTGT CTGATGGTAG AACACTTGAT GTTACTAACG ACCCAGCGTT AAGCTGGAGT
AGCTCGTCAT TAAGTATTGC AACTATCAGC AGCAACCAGC CCAGCAGCAA TGGAATTGCA
ACTGGGGTGA CTACTGGCAC AGCAACCATC ACGGCCACTG CATATGTGGA TGGCACTCTA
TTCAATGCAA CGGCTCAGTT GGACGTTACT AAAGCGGTGC TCACCGCTTT GCAAGTCACA
CCAGTAACCG AGTCTGTTCC TACTGGATTA ACCAAGCAAT TTACGGCAAT AGCCATCCTT
TCCGATGGTA GAACACTGGA TGTTACTAAC GATCCAGCTA TTAGCTGGAA TAGCACGCCA
TCGACTGTTG CCACCATCAG CAGTAATCAG GCTGAAGACA ATGGTATTAT CACTGGTGTT
GCTCCCGGAA CAGCAATGAT CACGGCATCT GTAACGGCTA ATCGAACGTT CTTTAGTGCA
ACGGCTCAAC TGACAGTAAC CAATGCCGTT GTGACGGCAC TGCAAGTCAC ACCAGTAACC
GAGTCTGTTC CGGTTGGATT GACAAAAGCA TTTACAGCAA TAGCTACCCT ATCCGATGGT
CGAACTCAGG ATCTGACTAA CGACCCAGCG TTAAGCTGGA GTAGCTCGTC ATTAAGTATT
GCAACTATCA GCAGCAACCA GCCCAGCAAC AATGGAATTG CAACTGGGGT GACTACCGGC
ACAGCAACCA TCACGGCCAC TGCATATGTG GATGGCACTC TATTCAATGC AACGGCTCAG
TTGGACGTTA CTAAAGCGGT GCTCACCGCT TTGCAAGTCA CACCTGCAAC CGAGTCCGTT
CCTGCTGGAT TAACCAAGAA ATTTACGGCA ATAGCTACCT TATCCGATGG CAGCACACAG
GATGTAACCA ATGATCCGTC GCTAAGCTGG AGCAGTAATG CATTGAATAT CGTTACCATC
AGCAGTAACC AGTCAGATAG TAATGGTATT GCTACTGGAG TCAGTATCGG TACTGCAACA
ATAACAGCAT CAGGGACTGT GAACAGAGTG TTCATTAGTG CTACAGCTCA GCTTACAGTG
TCAGAAGCCG TTATCACTGC TTTGGAAGTC TCGCCAGTAA CGGAATTCGT CCCAGTTGGA
CTGACAAAAG CGTTTACTGC AATAGCTACC TTTTCTGATG GCAGAATGCG AGATGTTACA
AATGAGCCAA CTCTAAGCTG GAGCAGTAAT GCGCCGAGTA TTGCGACTAT CAGCAGTAGT
CAACCAGATA ACAATGGTCT TGCTACAGGA GTGAGTACTG GTATTGCAAC AATAACTGCG
TCTGGGACAG TGAACAGGAC GTTTTTTAGT GCGACAGCTC AATTAACAGT AACGGATGCT
GTGATTACAG CTTTGGAAAT CTCACCAACA CCCCAGATCG TTCCGGTTGG ATTAACTAAA
ACATTTATTG CCACAGCTAT TTTTTCTGAC GGCAGAATGC AAGATATTAC TAATGATCCA
GCCATTAGTT GGAGTAGCAC TCCATCAAGT GTTGCCATTA TCAGCAGTAA TCAACCGGGA
AATAATGGTG TTGCCACAGG TATCACTCCC GGAATTGCTA CGATTACGGT CTCAGGATCT
GCCAATCGGA CATTCTTTAG TGCTACTGCC CAACTGACAG TAACCAATGC TGTTGTGACA
GCCTTAGCCA TCGAACCAAA GACTGAATTG GTACCAATAG GTTTAACTAA ACCATTCTCA
GCGATAGCCA CTATGTCTGA CGGTGAAATG ATTGATGTCA CTAACGAGCC AACATTAAGT
TGGAGTACAG CACCATCGAG TGTGGCGACT ATCAGCAGCA ATCAACCAGG CAGTAACGGA
ATCGCGACTG GAGTTGCCCT TGGCAATGCC ACTGTTACTG CATCAGGTAC CACGAACGGA
ATATCTTTCA GTGCAACAGC TCAGCTGACT GTCACCAATG CTGCTCTGGT TGCCATCTCA
ATTACTCCAA ATTCTCTTGA TTCACTCTCT TTGGGGCGTA ACACTGCGGA AACAAGTAGA
TATATACAAG CCACTAAACA GCTAAAAGCA ACGGGGCAAT ATTCTGATGG AAGTAATACA
GATATCACCA ATACAGTGCT GTGGTCCACT AACAACTCTG GTGCAATGAG TGTCAATGCT
ACAGGTGTAA TCAAAGCTGG ACCGAGTGGT ATTGCAACAA TATCCGCGTC TTTGGATGGT
ATATCCTCTA GTGTAGAAAC CAAAGCCGTG CCATGGATTA ATGTGTTCAC CGAACCTGAA
AAAATAAGGA GATCTTATGC ACAAGCAAAT AGTTTTTGTA CAGATTTGGG ATTGCGGCTA
GGGAGTGTCA ATGAGATGAA AGCCCTTTTT GTTGATGCAA CCCAATCTCC CACAGCAGCA
CCAGATTCAG GTTATGTACC AAATAATGCG ATGTGTGCTA CTCATGGCTG GCCGATAGCC
AGTAGCTGTG GTGGTTCATC GAACGGATAC TGGACAAAAT TGTCAGGCTC AACCTATTAC
TCAGTGCACT TAAACAGTGG AGAAAGAGTA ACAAGTAGCA GCACATCCAA CTATTACGCT
GCCTGTATGT TGAATTAA
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| Protein sequence | MWMVHYSAQL DVTQAVVTAL QVTPTTEPVP VGLTKPFTAI ATLSDGRTLD VTNDPALSWS
SSSLSIATIS SNQPSSNGIA TGVTTGTATI TATAYVDGTL FNATAQLDVT KAVLTALQVT
PVTESVPTGL TKQFTAIAIL SDGRTLDVTN DPAISWNSTP STVATISSNQ AEDNGIITGV
APGTAMITAS VTANRTFFSA TAQLTVTNAV VTALQVTPVT ESVPVGLTKA FTAIATLSDG
RTQDLTNDPA LSWSSSSLSI ATISSNQPSN NGIATGVTTG TATITATAYV DGTLFNATAQ
LDVTKAVLTA LQVTPATESV PAGLTKKFTA IATLSDGSTQ DVTNDPSLSW SSNALNIVTI
SSNQSDSNGI ATGVSIGTAT ITASGTVNRV FISATAQLTV SEAVITALEV SPVTEFVPVG
LTKAFTAIAT FSDGRMRDVT NEPTLSWSSN APSIATISSS QPDNNGLATG VSTGIATITA
SGTVNRTFFS ATAQLTVTDA VITALEISPT PQIVPVGLTK TFIATAIFSD GRMQDITNDP
AISWSSTPSS VAIISSNQPG NNGVATGITP GIATITVSGS ANRTFFSATA QLTVTNAVVT
ALAIEPKTEL VPIGLTKPFS AIATMSDGEM IDVTNEPTLS WSTAPSSVAT ISSNQPGSNG
IATGVALGNA TVTASGTTNG ISFSATAQLT VTNAALVAIS ITPNSLDSLS LGRNTAETSR
YIQATKQLKA TGQYSDGSNT DITNTVLWST NNSGAMSVNA TGVIKAGPSG IATISASLDG
ISSSVETKAV PWINVFTEPE KIRRSYAQAN SFCTDLGLRL GSVNEMKALF VDATQSPTAA
PDSGYVPNNA MCATHGWPIA SSCGGSSNGY WTKLSGSTYY SVHLNSGERV TSSSTSNYYA
ACMLN
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