| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Ping_3128 |
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| Symbol | |
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| ID | 4626139 |
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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 | Psychromonas ingrahamii 37 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_008709 |
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| Strand | + |
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| Start bp | 3850842 |
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| End bp | 3853364 |
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| Gene Length | 2523 bp |
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| Protein Length | 840 aa |
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| Translation table | 11 |
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| GC content | 45% |
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| IMG OID | 639798239 |
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| Product | MCP methyltransferase, CheR-type |
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| Protein accession | YP_944422 |
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| Protein GI | 119946742 |
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| COG category | [N] Cell motility
[T] Signal transduction mechanisms |
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| COG ID | [COG1352] Methylase of chemotaxis methyl-accepting proteins
[COG2201] Chemotaxis response regulator containing a CheY-like receiver domain and a methylesterase domain |
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| TIGRFAM ID | |
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Plasmid Coverage information |
| Num covering plasmid clones | 15 |
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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 | 26 |
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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 | GTGATTAATA CCCCCGTTAT TGTCGGCATA GGGGCTTCTG CTGGCGGCTT TGAAGCATTG
GAAGAATTCT TCTCTCATGT GCTAACACCT TGTAATATCG CATTTGTTGT CATCCAGCAT
CTTGACCCCA CTCACAAAGG GATGATGCCT GAGCTGTTGC AACGCGACAC AACGATGAAA
GTAAAACAAG CTCGCAACAA TATGAAGGTA AAGCCCAACT GCGTGTATGT GATCCCACCT
GACAAAGATT TATCAGTCCT TCACGGGGTA TTATTTCTGT TAGAACCGGT GGTTAAGCAC
ACGATTCGGT TACCCATTGA TTCATTCTTT CAATCTTTGG CCGCTGATCA GCATGAACGC
GCTGTGGGTG TTATTTTGTC AGGCATGGGA TCCGATGGCA CGATTGGTTT ACGCGCCATT
AAAGAAAATG CCGGACTGTC TCTAGTACAG TCGCCTGAGT CAGCTAAATT TGATTCAATG
CCTCAAAGTG CTATTAATGC CGGGCTAGCT GACATCACAG CCCCTGCTGA AGAACTACCG
GAAAGGATTA TAGCGTTTCT CGAACATGGC CGACGAGGTG TTCCAAACAA ACTTGAACCG
ATAGTGAAAC GCAAGTCAAT AAGCGCACTA GCGCAGATCA TGATGATACT GCGTGAACGC
AATGGAAACG ACTTCTCACT GTACAAGACA AATACCATAG ATCGTCGTAT TGAACGGCGT
ATGGGTCTGC ATCAGCTTAA AACCATCTCG CTCTATGCCC GTTATCTACG TGATAATCCG
CAAGAACAAG ACCTGTTATT CAAGGAGCTG TTAATTGGGG TAACCAATTT CTTTCGTGAT
AAAGACGTTT GGGCGCAGCT CAAGTCAACC TCACTGCCAG CACTACTGGC CAATTATCCT
GAAGGTAAAG AACTGCGGGC ATGGGTAACC GCTTGCTCAT CTGGTGAAGA GGCTTACTCT
CTCGCAATAA CGGTAATGGA TGTATTGGAT GAAATTAAGC CCAAAGGGCA TTTTACATTA
CAAATTTTTG CTACCGATCT TAATCAGGAT GCCATCAATA TTGCAAGGAA AGGCTATTAT
CCGGCAGGCA TTGAGGCTGA CATGTCCGCA CAGCAATTGC AGCGTTATTT TATTAAAGAT
GGCAGTGGTT ACCGCATAAA CAAGAAAATT CGTGACATGG TGATCTTCGC ACCACAGAAC
ATCATTATGG ATCCCCCTTT CACTCGATTA GATATTCTCA CCTGTCGTAA TCTTCTGATT
TATTTTGCAC CGGAATTACA AAAAAAGTTA CTGCCACTGT TCCACTACAC ATTAACTTCT
CATGGGCTTT TGATTCTGGG CCATTCCGAA ACGATTGGTA ATGCCACCTC ATTGTTCTCA
GAAATCAAAG AAAACACCCG GATTTACACG CGCATTGACA GGCCTGGACA ACAGATGGAA
GTCAACTTTC CTACTAAGAT ATTTCCGATT ATGCCCCTGG CAGAAAATGA ACATGAGGGA
ACCCGTAAGA TGACGAAAAA TATTAGCAAT CTACAAACGC AGGCAGATCA AATTCTGTTG
CAAAACTATT CGCCAGCAGC GGTGTTAGTC AATGCGGCAG GCGACATTAT CTATATCAAT
GGTCGTACCG GAAAATATTT AGAGCCTGCT GCGGGCAAAG CCAACTGGAA CATTCACGTA
ATGGCACGTG AAGAACTACA ACATCAGCTT GAGCTCGCTA TCAAGAAAGC ACAGATCCAG
GTAGAGCCAG TGACGATTGA AAATATCACA GTAGATGGAC ACAGTGTCAA TTTGACGGTA
CAAGCCATTA TCAAGCCAAA AGAGCTGCTT GGCTTAATAA TGGTGGTGTT TACTGAAGTA
GTGAGACCGA CCAGGCGGCG ACGCAAAAAA CTGGGGGCAG TGGAGCAAGA AAGTCAGGCC
GAACTACAAA TGGCGCATGA TGAAATAAAA TCCCTCCGCG AACAAATGCA ATCCTCTCAT
GAGGAACTAA AGTCCGCCAA TGAAGAGTTG CAATCAACGA ATGAAGAGTT GCAATCCACC
AATGAAGAAT TGACGACCTC TAAAGAAGAG ATGCAGTCAA TGAACGAAGA GTTGCAAACC
GTCAACACCG AACTGCAATC CAACGTTGAT GATTTGTCAT GGGTCAACAA TGACATGGAG
AACCTGCTTA ACAGTACAGA AATTGCCACC ATTTTTCTGG ACAAAGGACT GCATATACGG
CGCTTCACCA ACCATGCAAC TCACTTATTC AAGCTGATTG AAGGGGATGT GGGCCGACTA
TTGTCCGACA TTGTTACGGA TCTGGACTAT AAAGATCTGC AAAAAGATGC GAAGGAGGTA
TTGAAGAGAC TGGCCTTCGT AGAAAAAGAG ATAACGGCTA ACAATGAACG CTGCTTCAAA
GTCCGGATCA TGCCTTATCG TACCCAAGAG AATGTGATTG ACGGCGTGGT GATAACCTTC
ACCAATATTA GTGAAGCCAA ACTGCTTGAG TCAGAATTAC GCAAGACGAG GTGCAAAACA
TGA
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| Protein sequence | MINTPVIVGI GASAGGFEAL EEFFSHVLTP CNIAFVVIQH LDPTHKGMMP ELLQRDTTMK
VKQARNNMKV KPNCVYVIPP DKDLSVLHGV LFLLEPVVKH TIRLPIDSFF QSLAADQHER
AVGVILSGMG SDGTIGLRAI KENAGLSLVQ SPESAKFDSM PQSAINAGLA DITAPAEELP
ERIIAFLEHG RRGVPNKLEP IVKRKSISAL AQIMMILRER NGNDFSLYKT NTIDRRIERR
MGLHQLKTIS LYARYLRDNP QEQDLLFKEL LIGVTNFFRD KDVWAQLKST SLPALLANYP
EGKELRAWVT ACSSGEEAYS LAITVMDVLD EIKPKGHFTL QIFATDLNQD AINIARKGYY
PAGIEADMSA QQLQRYFIKD GSGYRINKKI RDMVIFAPQN IIMDPPFTRL DILTCRNLLI
YFAPELQKKL LPLFHYTLTS HGLLILGHSE TIGNATSLFS EIKENTRIYT RIDRPGQQME
VNFPTKIFPI MPLAENEHEG TRKMTKNISN LQTQADQILL QNYSPAAVLV NAAGDIIYIN
GRTGKYLEPA AGKANWNIHV MAREELQHQL ELAIKKAQIQ VEPVTIENIT VDGHSVNLTV
QAIIKPKELL GLIMVVFTEV VRPTRRRRKK LGAVEQESQA ELQMAHDEIK SLREQMQSSH
EELKSANEEL QSTNEELQST NEELTTSKEE MQSMNEELQT VNTELQSNVD DLSWVNNDME
NLLNSTEIAT IFLDKGLHIR RFTNHATHLF KLIEGDVGRL LSDIVTDLDY KDLQKDAKEV
LKRLAFVEKE ITANNERCFK VRIMPYRTQE NVIDGVVITF TNISEAKLLE SELRKTRCKT
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