Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Sbal223_2204 |
Symbol | |
ID | 7086010 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Shewanella baltica OS223 |
Kingdom | Bacteria |
Replicon accession | NC_011663 |
Strand | + |
Start bp | 2617691 |
End bp | 2620774 |
Gene Length | 3084 bp |
Protein Length | 1027 aa |
Translation table | 11 |
GC content | 44% |
IMG OID | 643461103 |
Product | diguanylate cyclase/phosphodiesterase with PAS/PAC sensor(s) |
Protein accession | YP_002358127 |
Protein GI | 217973376 |
COG category | [E] Amino acid transport and metabolism [T] Signal transduction mechanisms |
COG ID | [COG0547] Anthranilate phosphoribosyltransferase [COG4943] Predicted signal transduction protein containing sensor and EAL domains |
TIGRFAM ID | [TIGR00229] PAS domain S-box [TIGR00254] diguanylate cyclase (GGDEF) domain [TIGR01245] anthranilate phosphoribosyltransferase |
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Plasmid Coverage information |
Num covering plasmid clones | 8 |
Plasmid unclonability p-value | 0.833171 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 20 |
Fosmid unclonability p-value | 0.387508 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGATACGTG AGACGCTGAA GCACTTAGTG GCAAAACAAG CATTGTCCTC AGACGAAATC ATATCTTTTA TCAATGACGT TAATTGCGAC GATGTTAGCG AGGCTAATAT TGCAGCGTTT TTGATGGGGT TAACATCCAA AGGCGTTACG ACTAACGAAA CCGTCGCGAT TGTACGTGCT ATGAATGCGC ATCTTATTCC CGTTAGACCT AAGATCACCG AAGATTTACT TGATACTTGC GGAACAGGTG GTGGCCTAAG TACTTTTAAT ATCTCAACTG CAACTGCCAT TGTTTGTGCT GCGGCAGGTA TCCCAGTAGC AAAACATGGT AGCAGGTCAT TATCGAGTCC TTCGGGTAGT GCAGATGTGC TGGAGGCTTT GGGCGTCAAA ATAGATCTAC AAGCACCCAT GATAGAGAAA ATGATTGAAG AGATCGGACT CGCCTTCATA CACGCCCCTC ACTTTAATCC AGTGATGAAA CGAATACTTC CCGTCGAAAC AACCTTAGGC ATAAAAACCA TCTTCTATTC CCTAATTGGT CCGCTTGTTA ACCCAGCTAG CGCTCCACGA CATTTATTAG GAGTTTACCG TTCTGATTTA CAACAAATGA CCGTTGATGC TGCCCGCGAG TTAGGACTAC GAAGGGCAAT GGTCGTTCAT GGGCTAGATG GTTTAGATGA AGTATCACTA CTTGGTCGAA CCTGTATCCA TGAAATAGGC ACCAATGGCA CGTCGATATA TGAGATAACA CCTGAGGATG TTGGACTAAC GCGCTGCTGT TTACACGATA TCCGAACGTT AGGACCACGA GGAAATGCGG AGTTAATTCA GCAGATATTC TCAGGGAAAA TGCGAGGAGC ACCTAGAGAT GCCATTCTGT TAAACAGTGC TGGTGCACTT ATTCTGGGTG GACGAGCCAC CAATTTTCAC GAAGGCATCA GTTTAGCAGG GCACTTGCTC GATAGCGGCT TAGTAGCGCG TAAACTGCAC GATCTTATTG AAGCATCGCA TTCTTTTCCC GTTACGCAGC CACTTAAAAA AGAAAACAAA CATTTACGCA CTGCAGAACG GACTTGGCAA GGCATGCTTG CTGCATCACC CGATGGCATA TTGATCATAG GTAGCGATGG AATAATCGAG CAGGCTAATT TGCTGGCATG TGCTCAGCTA GGAATTGAAT ACCAAGAGGT TTCGGGACGT TCATATGGTC AGTTACTGAG TGCCGAGACA GCTTTAGTGC ATCTTGATAA CATCAAGGAG GCTATCTCAA CAGGAAAAGC TATCCGCTGG GATGATAGTT TAGACCATTC ACATTTGGGT CTAACGGCAA TTCCAATTGA CGATGGCAGC GGGGTAATAT TGATCTGTCG TGATCTGACA CAACAGATGC ATATTGCAGC GTCAGAAAAA GATAAACGCG CACGTTTGAA GACACTCATC GAAACGTTGC CCGATCTAAT TTGGTTAATG GATACAAATG GTTGTTTGTT AAACTGCAAC AGTAAATTTG AAAATTTAGT TGGGTTAGCA GAAAGTCAGC TCAAAGGACA TTCAATCCAA GATATCTTGC CACAAACTAT CGCGAAAACA CTCCAAGATA ATGCGACTCA AGTTTTATGG CGTAAAGCTG CCGTACATTC TCGAGAGTGG TTTACCTACG CCGCTGACAA ACACCGCGAA TATGTTGAAA TAATCCTAAC ACCATTCATC GATTACCTTG GCGACATTAA GGGCATAATG TGTGTTGCAC GTGATGTCAC GGCTTTTCGC TTAAACGAAG AAGAGTTAGA ACGGCAAAAG CTATCCCTAA GAGAGCTCCT TTACACGGAT AAACTAACGG GTTTACCCAG CAGGCAGGCT CAGCTTGAAC ACATTGAAGC ATTAGCGGCA AATAATTCAA CATTCTCAAT TATAGGCATT TCACTTAACC GATATTCTCG CGTGATCAGT AATTTTGGTC TTGCTATGAG TGAATTGTTG ATTATCAAAG CCGTTAGCGC GATTGCAGAG GTGATCCCTG AAGGCTGCCA GTTTGGCTCT TCAACTGATA TACGCTTTTC AATTGTCGTC GCTAATGTCG TTGACCCCAA TATTCTTGCT GATATTGCTA AGAAAATTAT TGATCGTATG TGTATTCCTC TGAAAATAGA TGACGCCACC GTTTTCGTTA ACATTTCAAT CGGCATTGCA TCCTATCCAA CACATGGAAA CAGTACCGAT CTGGTTATCC GTAACACCTA TATCGCACTT ACTGAAGCGG AGCAAATTGA TGGCTCTGCG ATGCACTTCT TTGAATCGAG TATGCTAACG AAAGTGCAGC AGTTGCAGTG GCTAGATCAA AATCTGAGGC TGGCATTTGA AAAAGATCAG TTTGAACTTC ACTATCAACC TAAAGTCAAT TTAACTGATA ACACGATACA CAGTGTCGAA GCGTTAATTC GCTGGGTGCA TCCCGAGCGA GGAAATATTC GGCCCGATGA ATTTATTAAT CGCTGTGAAG CGAATGGGTT AATCATTCCG ATTGGTAACT GGGTGATCAA TACCGCGGCT CAACAAGCAG CCATTTGGTG TGAACAAGGT AACCCATTGA GAATTGCGAT TAACCTTAGT GTCAGTCAAC TTGCGGACCC AGAATTGATC TGTAGACTAA GAACGGCGCA AACGCAGGCT TCTGGTTTGC TGGATATTGA AATCACAGAG AGCTGCCTGA TAAGTAACCA AGCTGGGATG TTGGAATTTA TCAATCAATG CCGTGAATTA AAGTTTGGTA TTCATCTAGA TGATTTTGGT ACGGGGTACT CTTCATTGTC AGTCTTAGCC AGTTTGCCAT TGACGAATAT TAAACTGGAT AAAATATTCG TCCAAAGAAT AGGCAAAGAG GGCAATGGTG AACCTCTGTT GAAATCTATG ATTAGCATGG CAAAAGAACT CGGTATTGCA GTCGTTGCTG AAGGGGTAGA AACCCAAAGC CAAGCAGATT TCCTAAAAGA GCAAAGGGTT TTAATGGCGC AGGGCTGGCT CTATGCCCCC GCAATGAAAG CGAACACATT GAATGCTTGG CGAACTGAGT TTTTAACGCA TTAA
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Protein sequence | MIRETLKHLV AKQALSSDEI ISFINDVNCD DVSEANIAAF LMGLTSKGVT TNETVAIVRA MNAHLIPVRP KITEDLLDTC GTGGGLSTFN ISTATAIVCA AAGIPVAKHG SRSLSSPSGS ADVLEALGVK IDLQAPMIEK MIEEIGLAFI HAPHFNPVMK RILPVETTLG IKTIFYSLIG PLVNPASAPR HLLGVYRSDL QQMTVDAARE LGLRRAMVVH GLDGLDEVSL LGRTCIHEIG TNGTSIYEIT PEDVGLTRCC LHDIRTLGPR GNAELIQQIF SGKMRGAPRD AILLNSAGAL ILGGRATNFH EGISLAGHLL DSGLVARKLH DLIEASHSFP VTQPLKKENK HLRTAERTWQ GMLAASPDGI LIIGSDGIIE QANLLACAQL GIEYQEVSGR SYGQLLSAET ALVHLDNIKE AISTGKAIRW DDSLDHSHLG LTAIPIDDGS GVILICRDLT QQMHIAASEK DKRARLKTLI ETLPDLIWLM DTNGCLLNCN SKFENLVGLA ESQLKGHSIQ DILPQTIAKT LQDNATQVLW RKAAVHSREW FTYAADKHRE YVEIILTPFI DYLGDIKGIM CVARDVTAFR LNEEELERQK LSLRELLYTD KLTGLPSRQA QLEHIEALAA NNSTFSIIGI SLNRYSRVIS NFGLAMSELL IIKAVSAIAE VIPEGCQFGS STDIRFSIVV ANVVDPNILA DIAKKIIDRM CIPLKIDDAT VFVNISIGIA SYPTHGNSTD LVIRNTYIAL TEAEQIDGSA MHFFESSMLT KVQQLQWLDQ NLRLAFEKDQ FELHYQPKVN LTDNTIHSVE ALIRWVHPER GNIRPDEFIN RCEANGLIIP IGNWVINTAA QQAAIWCEQG NPLRIAINLS VSQLADPELI CRLRTAQTQA SGLLDIEITE SCLISNQAGM LEFINQCREL KFGIHLDDFG TGYSSLSVLA SLPLTNIKLD KIFVQRIGKE GNGEPLLKSM ISMAKELGIA VVAEGVETQS QADFLKEQRV LMAQGWLYAP AMKANTLNAW RTEFLTH
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