Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Ping_2694 |
Symbol | |
ID | 4625406 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Psychromonas ingrahamii 37 |
Kingdom | Bacteria |
Replicon accession | NC_008709 |
Strand | - |
Start bp | 3301912 |
End bp | 3304944 |
Gene Length | 3033 bp |
Protein Length | 1010 aa |
Translation table | 11 |
GC content | 45% |
IMG OID | 639797817 |
Product | endonuclease/exonuclease/phosphatase |
Protein accession | YP_944003 |
Protein GI | 119946323 |
COG category | [R] General function prediction only |
COG ID | [COG2374] Predicted extracellular nuclease |
TIGRFAM ID | [TIGR03501] gammaproteobacterial enzyme C-terminal transmembrane domain |
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Plasmid Coverage information |
Num covering plasmid clones | 10 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 15 |
Fosmid unclonability p-value | 0.434546 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGAAAAAGA ATGTTCTGGC GCTATCAATT GCCACCGCTC TGTCATTCAG TGCTCAAGCA GAAATTATTA TCTCTGAGTA CATTGAAGGA GGCTCGTACA ATAAAGCGAT CGAAATAGCC AACACAGGAT CAAGCGCGCT AACATTAGGT GGCTATGCAC TTGCTAAATC GCAAAATGGC AGCGGTGAAT GGGAAATTAG CCTGCCGCTT GATGACGTCA CTATTGCTGC GAACAGTGTT TATGTTGTTA TCCACAAAAC CGCTAATGAT GCAATTAAAG CGGCAGCAGG TGCGGTTATA GATAGTAGCG GAGTTGTCAA CCATAACGGT AATGATCCCA TCGCACTACT AAAAAACGGT AGTGTCCATG ATATGGTCGG TGTAATGGGG GGGGAGGACT TCGCAAAAGA TATAACCTTA GTCCGCCGCG TTTACTCTCC TTCTGCTGTC TATAATCCAC GGCAATGGGA AACGTTTGCA AAAGACAGTT CAAGCGACCT TGGCCAGCTC GGGGCAGAAG GCCAGGAGCT GGCTGAACTT GTCGTCAACG AATCAACCAT TATGGCACTT CAGGGATCCT CATGGAGCTC CCCCTACACA GATCCGGATA ATAACAAGTA CGTCTCTGAT GAAACCTTTA TCGTGGCCGG TGTGGTTACT GCGATTCAAA CTGAAAAGTT AGGTAATGAT CTGGGTGTTG GCTTTTTTAT CCAAGATGGA AATGGCGATA ATGACCCGCT GACTTCTGAC GGAATCTTTG TAATAGGTAA CATTAGCGGT CTGACTGTTG GTGATAAAGT CGCGGTGACC GGTAAAGTTA AAGAAGACTA CGGCTGGACT AAAATTGACT CAACCTTGGT TGAGGGGCTC AGCAGGGGGA GCACACTTGC GGCAACGGCG CTACGTATCC TGCCAACAGA TGAAAATTTT GACTTTACCT TAGAGCGCCA TGAAGGCATG TTCGTTGCCT TTGATAAACA ATCTGATATG CATGTCACAC GGTCATTTTC TTTTGATTAT GGTCCCTACC GTAACAACCT GATGGTTGCT AACAAACGAG TGAATCAGCA CCCTAACCAG TCTAATGCGC CTGCCGTTCA CCAGGGTGAA CTTGATAGTG CAGCGGAAAA ACAAACAGAC GATAATCAGG ACAGACGTGT GGTCATCGAA TCATTTATAA AAGCGGGCGA TGGCATTATT CCCTGGTATC CTGATTTTGC TAAAGAGGGA GCCGCGCAAA AAGGCAGTTC CGATGATTAT ATCCGTATTG GTGATGTTAT TGATGGACTT GAAGGAGTGA TCAGCTATTC CTATAATGAT TACCGTTTTT ACGTGACCAA TCAGGCGACA AAAGAAACAT TTTTGCACCA AGCAAGCGAC CGGAGCAAAG CACCTGTTAT GCAGGATGGC GATCTCACTA TTGCCACATT TAATGTACTT AACTACTTCA ACTCTCAACT CGGTGGTGAA CCCAACCCGC TAGATCAAAA CCGTGGTGCA GAAAGCGCAG AGGAATTCGA TAGGCAGGCA AGCAAAATTG TTACTGCAAT AGTGGCAATC AACGCCGATA TTTTAGGGCT AATGGAGATT GAAAATAATG GATTTGGGGA AAGTTCAGCG ATTATTGATC TGCTTAACCG CCTAAACGCA AATCTTGATG ATACTAACCA ATATTCAATA GCTCAACCGC AGACTGAAGA TCTTACTAAC GGCTTTGTCG GCAGCGATGC GATCACCTCG CAAATAATCT TTAAAGCATC AAAAGTAAGC CTTGAGACAG TGCGTATTAT CAAAATGCCC GAGCAGCATG CAACGCCCGT GACTGTCTAT ATCGATGGCC AATCAGAAAC AGAAAGCGGT GATAACTATA TGCGTGATGC TATTACCCCG ACTTTCTCAA TTGCCGGTTC AGATGAAAAG TTAACTATTT CAGTTAATCA CCTGAAATCT AAGGGTTCAC CTTGCTGGGA AGATTACAAA CTGCAGGAGG GGAAGGATCC AGATAAACAG GGTAGTTGCG AAAACCTGCG TGTTTCAGCT GCTTACCAAT TGGGTGAAAC CATGAAAAAT ATCGAAGGTA ATAAGCTTAT CATGGGAGAT TTGAATTCTT ATGCCAACGA AGATGCAATT ATGGTGCTCA CTAATCGTGA TAACGCACCG GCTGATTATC AGCTGAAAGC CGCACGTAAT ACTTATATTG GCGGACCTGA TGGGGAAGGC GTCGAGCTGC ATGGGGATGC AGGGGCGATA ATGACTGAAT CTTACGGTTA CGCAAATGTT ATTCGAGATA GACACCCTGA ATCTCACAGC TATTCTTACA ATGATGAAGT GGGTACGCTG GATTACATTT TAGCCTCTGC ATCACTTAAG GATAAAATTG TTGATAGCAT GTATTGGAAT ATCAATTCAT CGGAATCAAG CTTATTTGAA TATTCAACAA AGTACACTGG CTATCTGCCT AAATATGATA ATGCTTACAG ATCATCTGAT CACGATCCGG CAATTGTTGT CCTGAATTTT GCTGATAAGT CAGTCACTCC CATTGTACCT GTAGTTATAA CGCCTGCGTT GCCGGCTAAA GTAGATCTGC CAGTGGACGC ACCGCAAGAG CCTGCCGGAG CGATATCGGG TGTCGCGTTC AATATTTCTT TAAATCTGCT TGATGCCGCT AAAACTGCAA ATGCCGATCT CATCATTGGT GATATAGCCT CCGTGCTTGT CAATGACGGC GTTAACACTC GCGCGGTCAG GGTTTCAAAT ACAACACAAA AAGTGCTGAC AGGCGCTGAT TTCGAGGCAG GTTATATTGT CTTTGAAATT GAAGGGTTAG CTGGGGGGGA TTACACAATA CAAAATATCA TCACGAATAG TAAAGGTGAG CAAAAATTTT CAGCAATGCC TGTCTACTTT TCTGTGCAGG AGAGAGCAGC TCCCATCGCC ACTGAAAGCA GTATTAATGG TGGTTCAACG GGAATATTGA GTTTATTTGC GCTACTCGGG CTTGGATTCT TGCGCCGTAA AGCAATAAAA TAA
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Protein sequence | MKKNVLALSI ATALSFSAQA EIIISEYIEG GSYNKAIEIA NTGSSALTLG GYALAKSQNG SGEWEISLPL DDVTIAANSV YVVIHKTAND AIKAAAGAVI DSSGVVNHNG NDPIALLKNG SVHDMVGVMG GEDFAKDITL VRRVYSPSAV YNPRQWETFA KDSSSDLGQL GAEGQELAEL VVNESTIMAL QGSSWSSPYT DPDNNKYVSD ETFIVAGVVT AIQTEKLGND LGVGFFIQDG NGDNDPLTSD GIFVIGNISG LTVGDKVAVT GKVKEDYGWT KIDSTLVEGL SRGSTLAATA LRILPTDENF DFTLERHEGM FVAFDKQSDM HVTRSFSFDY GPYRNNLMVA NKRVNQHPNQ SNAPAVHQGE LDSAAEKQTD DNQDRRVVIE SFIKAGDGII PWYPDFAKEG AAQKGSSDDY IRIGDVIDGL EGVISYSYND YRFYVTNQAT KETFLHQASD RSKAPVMQDG DLTIATFNVL NYFNSQLGGE PNPLDQNRGA ESAEEFDRQA SKIVTAIVAI NADILGLMEI ENNGFGESSA IIDLLNRLNA NLDDTNQYSI AQPQTEDLTN GFVGSDAITS QIIFKASKVS LETVRIIKMP EQHATPVTVY IDGQSETESG DNYMRDAITP TFSIAGSDEK LTISVNHLKS KGSPCWEDYK LQEGKDPDKQ GSCENLRVSA AYQLGETMKN IEGNKLIMGD LNSYANEDAI MVLTNRDNAP ADYQLKAARN TYIGGPDGEG VELHGDAGAI MTESYGYANV IRDRHPESHS YSYNDEVGTL DYILASASLK DKIVDSMYWN INSSESSLFE YSTKYTGYLP KYDNAYRSSD HDPAIVVLNF ADKSVTPIVP VVITPALPAK VDLPVDAPQE PAGAISGVAF NISLNLLDAA KTANADLIIG DIASVLVNDG VNTRAVRVSN TTQKVLTGAD FEAGYIVFEI EGLAGGDYTI QNIITNSKGE QKFSAMPVYF SVQERAAPIA TESSINGGST GILSLFALLG LGFLRRKAIK
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