| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Ping_2549 |
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| Symbol | |
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| ID | 4624196 |
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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 | 3117354 |
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| End bp | 3120374 |
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| Gene Length | 3021 bp |
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| Protein Length | 1006 aa |
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| Translation table | 11 |
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| GC content | 43% |
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| IMG OID | 639797675 |
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| Product | fused CheR-type MCP methyltransferase and PAS sensor protein |
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| Protein accession | YP_943869 |
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| Protein GI | 119946189 |
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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 | [TIGR00229] PAS domain S-box |
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Plasmid Coverage information |
| Num covering plasmid clones | 8 |
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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 | 20 |
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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 | GTGAAGAAAA AAACCAATAT CACCAGCGCC ACATCAAGTC AGCAAGCAAA GCCAACAACA
AAAAAAGGAA AAAGTGAAAA ATTTGCAGTG GTCGGGATTG GTGCTTCCGC TGGCGGACTC
GCTGCATTTG AAGACTTTTT TTCAGGCATG CCAAAAGAGT TAAAGACAGG CTTCGCTTTT
GTTTTAGTAC AGCATCTCGC CCCGGATCAC AAAAGCATGC TCACTGAAAT AATTCAACGT
TATACAAGCA TGCAGGTTTT CGAGGTAACA GATGGCATGA AAGTGCAACC TAACTGCACA
TACATTATAC CGCCCAAGTA TGATATGGCT TTTGCAAAGG GAGAGTTGCA TTTATCTGAG
CCAATAAAGC CTCGGGGGCA ACGTTTTACT ATCGATTTCT TTTTCAAATC ACTTGCCAAG
GATCAACTCG AGCACGCCAT TGGCATTATA CTCTCCGGCA CCGGCAGTGA CGGCACGTTA
GGCATAAAAG CGATCAGAGA CTCAGATGGC ATGGTCATGG TACAGCAGCC AGACACGGCA
GAATATGATG GTATGCCGCG CAGCGCTATC GCCACAGGTC TGGTCGATTA TGAACTGGCC
CCCAGCCTCA TGCCCGCCGA ACTTATCGAC TATGTTTGCC ATAATTTTAG CAAGGCTCTG
TCAGAAAATA TCGAACTACA AGAGCCTGAT AATGCCCTGG ATCAAATATT TATGCTGTTA
TTAGATAAAT CAGGTCATGA CTTTTCTGAG TATAAATCAA GCTCTATAAT ACGCCGTATC
GAGCGGCGCA TGGCAGTACA TAATCTCTCC TCACTAAACG ATTATGTGTC TTGTTTACAG
ACAATCCCCT CTGAAGCGAA TGCCTTATTT AACGATCTAT TGATTGGAGT AACCCGTTTT
TTCCGAGATT TACCCGCTTT TAAAATTCTG GAAGAACAAA TAATACCTAA ATTATTAGCG
GAAGCAGCTG ACACTGATTT TATTCGTATC TGGGTACCAG GCTGCTCCTC TGGCGAGGAA
GCCTATTCAA TCGCTATCAT ATTGAAAGAA AAGATGAAGT TACTTAAACA GCGCGTTAAT
GTGCAGATAT TTGCGACGGA TATCAGCTCC AAGGCGATTG CCGCAGCACG TTATGGCCAT
TATCCAGTCA GTATCAACGA AGATCTCTCT CAAACACGAG TCAAAAATTT CTTTAACTTT
GACACAGAGA GCCAACAGTT TCGTATTCAT AAAGAAATCC GCGATATGGT GGTATTTTCT
GAGCACGACG TAATCTTAGA TCCGCCCTTT TCCAAACTCG ATTTAATCAG TTGTCGCAAT
GTCCTTATTT ATATGGACAT TAGTTTACAA AAAAAAATCC TGTCTTTGTT TCATTACGCG
CTAAAAAGTG ATGGCATATT ATTTCTGGGT AGCTCTGAGA ACGTGACCGG CTATACAACG
TTATTTTCAG TCTTAGACAG TAAAACTAAA CTTTATCGAA AAAAAGATTA TCTTCGTTAT
CAACAGCCGT TAGCTTTTGG CTGCTCTAAA TTACTGGCGC TAACGGATAA AGAATATAAA
GCAATGCGAG CACCGTTACA TACACCAGCA CCTGTACGCA AGATACGTTC ATTGCGAGAA
ATCACTGAGC AGGCCATTTT GCAACACCTC CCCCTAAGTG GCGCACTGAT CAATGATCTG
GGCGATATTC TCTATTTGCA TGGCCGCACC GGTCAATATC TAGAGCCTGT ATCAGGAGAT
GCTAGCGCTT ATAATATATT AAAAATGGCC CGCAGAGGAC TGCAATTTGA CTTAACCATG
GCACTGTCCA AAGTGCGAAA AAAACCAGAC ACAGTACATC ACTCGGCGTT GCAGGTTAAA
AATAATGAAC ACTACTTAGG CGTGGATCTG ACCCTGTTGG CTGTTACTGC CACGCCGGAT
ATCCCGTCCA CAACGCCTGT TTTTTTAGTC CTGTTTGAAC CCTGCCAACC AACGCCGGCT
TCGCAGGATC ACAAAGCAGA AAGCATCACC ACCACTACCG ATCTCAGCGC TGATAATGCT
GAGCAAAATA ACGAGATCCG CAGACTAAAA CAACAGTTGC GCATTAAAGA TGAATATCTT
CAGAGCATCA ATGAGTCCCT TGAAGCCTCC AATCAGGAGC TCAAATCATC CAATGAAGAA
ATGCAGTCAA TAAATGAAGA ATTGCAATCA AGCAACGAAG AGCTGGAAAC GTCCAAAGAA
GAATTACAAT CAACCAACGA AGAGCTCAAT ACAGTTAATA GTGAGCTGCA AGATAAATTA
CTCGATTTAT ACCGGCTCAA TAATGATATG AATAATTTGC TGTCAGGCAC AGGTATCGCC
ACTATTTTTG TCGACCTTAA CTTAAAAATT ATGCGCTTTA CACCCGCAGC CACTAAAATC
ATTAACTTTA TTGCAAGCGA CATAGGTCGT CCTATCACCG ACATACACTC CAACTTGATC
AATGACACTG AGCTAATCAC TGATGTACGG CAAGTACTCA ATACCTTGAT CCCTAAATCG
AGGGAAGTCG AGACCAAACT CGGTCACTGG TATACGATGC AGCTGTTAGC CTATCGCACC
ATAGACAACG CCATTGAAGG CTGTGTCATC ACCTTTAGCG ATATCACCGA GATCCGTCAC
GAACGCGAGT TAATACGTGA AAAGCTAAAT TTAGTGCACT TAGGTTCCCT AATGCACGAT
GCACGTGATG CTTTTATAAT GCAAGATCTC GATGGTCGTA TTTTAGCCTG GAACAACGGT
GCAGTTCGCT TATACGGCTG GACAGAGCAA CAAGCGCTCA CCATGAATAT TAGCCAGCAC
ATTCCCTCAG ATCAGCAAGA GCAGGCGTCA CTGATGATAG CCAAACTTAA TCAGGTCAGT
CAATCTTATC AAAGCCAACG TTTACATAAA AACGGATCGC TCCTTGATGT CTCTGTCACC
GCCACCGCAC TGGTTAATGA ATCCGACAAT ATGTATGCCG TAGTGAATAT GGAACGTCCA
TTAGAAGGTC AAAAATTATG A
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| Protein sequence | MKKKTNITSA TSSQQAKPTT KKGKSEKFAV VGIGASAGGL AAFEDFFSGM PKELKTGFAF
VLVQHLAPDH KSMLTEIIQR YTSMQVFEVT DGMKVQPNCT YIIPPKYDMA FAKGELHLSE
PIKPRGQRFT IDFFFKSLAK DQLEHAIGII LSGTGSDGTL GIKAIRDSDG MVMVQQPDTA
EYDGMPRSAI ATGLVDYELA PSLMPAELID YVCHNFSKAL SENIELQEPD NALDQIFMLL
LDKSGHDFSE YKSSSIIRRI ERRMAVHNLS SLNDYVSCLQ TIPSEANALF NDLLIGVTRF
FRDLPAFKIL EEQIIPKLLA EAADTDFIRI WVPGCSSGEE AYSIAIILKE KMKLLKQRVN
VQIFATDISS KAIAAARYGH YPVSINEDLS QTRVKNFFNF DTESQQFRIH KEIRDMVVFS
EHDVILDPPF SKLDLISCRN VLIYMDISLQ KKILSLFHYA LKSDGILFLG SSENVTGYTT
LFSVLDSKTK LYRKKDYLRY QQPLAFGCSK LLALTDKEYK AMRAPLHTPA PVRKIRSLRE
ITEQAILQHL PLSGALINDL GDILYLHGRT GQYLEPVSGD ASAYNILKMA RRGLQFDLTM
ALSKVRKKPD TVHHSALQVK NNEHYLGVDL TLLAVTATPD IPSTTPVFLV LFEPCQPTPA
SQDHKAESIT TTTDLSADNA EQNNEIRRLK QQLRIKDEYL QSINESLEAS NQELKSSNEE
MQSINEELQS SNEELETSKE ELQSTNEELN TVNSELQDKL LDLYRLNNDM NNLLSGTGIA
TIFVDLNLKI MRFTPAATKI INFIASDIGR PITDIHSNLI NDTELITDVR QVLNTLIPKS
REVETKLGHW YTMQLLAYRT IDNAIEGCVI TFSDITEIRH ERELIREKLN LVHLGSLMHD
ARDAFIMQDL DGRILAWNNG AVRLYGWTEQ QALTMNISQH IPSDQQEQAS LMIAKLNQVS
QSYQSQRLHK NGSLLDVSVT ATALVNESDN MYAVVNMERP LEGQKL
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