| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Ping_1840 |
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| Symbol | |
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| ID | 4626135 |
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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 | 2233264 |
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| End bp | 2235786 |
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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 | 639797014 |
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| Product | MCP methyltransferase, CheR-type |
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| Protein accession | YP_943216 |
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| Protein GI | 119945536 |
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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 | 7 |
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| Plasmid unclonability p-value | 0.59391 |
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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 | 16 |
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| Fosmid unclonability p-value | 0.603716 |
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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
GAAGAATTTT TCTCTCATGT GCTAACGCCT TGTAATATCG CATTTGTTGT TATCCAGCAC
CTTGACCCCA CTCACAAAGG GATCATGCCT GAGCTGTTGC AGCGCGACAC GACGATGAAA
GTAAAACAAG CTTGCAACAA TATGAAGGTA AAGCCCAACT GTGTGTATGT GATCCCACCT
GACAAAGATT TATCAGTTCT TCACGGGGTA TTATTTCTGT TAGAACCGGT GGTTAAGCAC
ACGATCCGGT TACCCATTGA TTCATTCTTT CAATCTTTGG CCGCTGATCA GCATGAACGC
GCTGTGGGTG TTATTTTGTC AGGCATGGGA TCCGATGGCA CGCTTGGTTT ACGCGCCATC
AAAGAAAATG CCGGACTGTC TCTGGTACAG TCGCCTGAGT CAGCTAAATT TGATTCAATG
CCTCAAAGTG CTATTAATGC CGGGCTAGCT GACATCACAG CCCCTGCTGA AGAACTACCG
GAACGGATTA TAGCGTTTCT CGAACATAGC CGACGGGGTG TTCCAAACAA ACTTGAACCG
ATAGTGAAAC GCAAGTCAAC AAGCGCACTA GCGCAGATCA TTATGATACT GCGTGAACGC
AGTGGAAACG ACTTCTCACT GTACAAGACA AATACCATAG ATCGTCGTAT TAAACGGCGT
ATGGGTCTGC ATCAGCTTGA AACCATCTCG CTCTATGCCC GTTATCTACG TGATAATTCG
CAAGAACAAG ACCTGTTATT CAAGGAGCTG TTAATTGGGG TAACCAATTT CTTTCGTGAT
AAAGACGTTT GGGCGCAGCT CAAGTCAACC TCACTGCCAG CACTATTAGC TAATTATCCT
GAAGGTAAAG AACTGCGGGC ATGGGTAACC GCTTGCTCAT CTGGTGAGGA GGCTTACTCT
CTCGCAATGA CGGTAATGGA TGTATTGGAT GAAATTAAGC CCAAAGGGCA TTTCAAATTA
CAAATTTTTG CGACCGATCT TAATCAGGAT GCCATCAATA TTGCAAGGAA AGGCTATTAT
CCGGCAGGCA TTGAGGCTGA CATGTCCGCA CAGCAATTGG ATCGTTATTT CATTAAAGAT
GGCAGTGGTT ACCGCATAAA CAAGAACATT CGTGACATGG TGATCTTCGC ACCACAGAAT
ATCATTATGG ATCCCCCTTT CACTCGATTA GATATTCTCA CCTGTCGTAA TCTTCTGATT
TATCTTGCAC CGGAATTACA AAAAAAGTTA CTGCCACTGT TCCACTACAC ATTAACTTCT
CATGGGCTTT TGATTCTGGG CAATTCCGAA ACGATTGGTA ATGCCACCTC ATTGTTCTCA
GAAATCAAAG AAAACACACG GATTTACACG CGCATTGACA GGCCTGGACA GCACACGGAA
GTCGACTTTC CTACTAAGAT ATTTCCGATT ATGCCCCTGG CAGAAAATGA ACATGAGGGA
ACCCGTAAGA TGACCAAAAA TATTAGCAAT CTACAAACGC AGGCAGATCA AATTCTGTTG
CAAAACTATT CGCCAGCAGC GGTGTTAGTC AATGCGGCAG GCGACATTAT CTACATCAAT
GGTCGTACCG GAAAATATTT AGAGCCTGCT GCGGGCAAAG CCAACTGGAA CATTCACGTA
ATGGCACGTG AAGAACTACA ACATCAGCTT GAGCTCGCTA TCAAGAAAGC ACAGATGCAG
GTAGAGCCAG TGACGATTGA AAATATCACA GTAGATACAC ACAGTGTCAA TTTGACGGTA
CAAGCGATTA TTAAGCCAAA AGATTTGCTT GGCTTAATAA TGGTGGTGTT TACTGAAGTT
GTGACGCCGA CCAGGCGGCG ACGCAAAAAA CAGGGGGCAG CGGAGCAAGA AAGTCAGGCC
GAACTACAAC TGGCGCATGA TGAAATAAAA TCCCTCCGCG AACAAATGCA ATCCACTCAT
GAGGAACTAA AGTCTGCCAA TGAGGAGTTG CAATCAACGA ATGAGGAGTT GCAATCCACC
AATGAAGAAT TGACCACCTC TAAAGAGGAG ATGCAGTCAA TGAATGAAGA GTTGCAAACC
GTCAACACCG AACTGCAATC CAACGTTGAT GATTTGTCAT GGGTCAACAA TGACATGGAG
AACCTGCTTA ACAGTACAGA AATTGCTACC ATTTTTCTGG ATAACGGACT GCATATACGG
CGCTTCACCA ACCATGCCAC TCATGTATTC AAGCTGATTG AAGGTGATAA GGGCCGACCA
CTGTTCGACA TTGTCACGGA TCTGGATTAT AAAGATCTGC AAAAAGATGC TAAGAAGGTG
TTAAAAACGC TGGCCTTCGT AGAAAAAGAG ATAGCGGCTA ACAATGAACG CTGGTTCAAA
GTCCGGATCA TGCCTTATCG TACCCAAGAA AATGTCATTG ACGGTGTGGT GATAACCTTC
ACCAATATTA GTGAAGCCAA ACTGCTTGAG TCAGAATTAC GCAAGACGAG GTCCAACCCA
TGA
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| Protein sequence | MINTPVIVGI GASAGGFEAL EEFFSHVLTP CNIAFVVIQH LDPTHKGIMP ELLQRDTTMK
VKQACNNMKV KPNCVYVIPP DKDLSVLHGV LFLLEPVVKH TIRLPIDSFF QSLAADQHER
AVGVILSGMG SDGTLGLRAI KENAGLSLVQ SPESAKFDSM PQSAINAGLA DITAPAEELP
ERIIAFLEHS RRGVPNKLEP IVKRKSTSAL AQIIMILRER SGNDFSLYKT NTIDRRIKRR
MGLHQLETIS LYARYLRDNS QEQDLLFKEL LIGVTNFFRD KDVWAQLKST SLPALLANYP
EGKELRAWVT ACSSGEEAYS LAMTVMDVLD EIKPKGHFKL QIFATDLNQD AINIARKGYY
PAGIEADMSA QQLDRYFIKD GSGYRINKNI RDMVIFAPQN IIMDPPFTRL DILTCRNLLI
YLAPELQKKL LPLFHYTLTS HGLLILGNSE TIGNATSLFS EIKENTRIYT RIDRPGQHTE
VDFPTKIFPI MPLAENEHEG TRKMTKNISN LQTQADQILL QNYSPAAVLV NAAGDIIYIN
GRTGKYLEPA AGKANWNIHV MAREELQHQL ELAIKKAQMQ VEPVTIENIT VDTHSVNLTV
QAIIKPKDLL GLIMVVFTEV VTPTRRRRKK QGAAEQESQA ELQLAHDEIK SLREQMQSTH
EELKSANEEL QSTNEELQST NEELTTSKEE MQSMNEELQT VNTELQSNVD DLSWVNNDME
NLLNSTEIAT IFLDNGLHIR RFTNHATHVF KLIEGDKGRP LFDIVTDLDY KDLQKDAKKV
LKTLAFVEKE IAANNERWFK VRIMPYRTQE NVIDGVVITF TNISEAKLLE SELRKTRSNP
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