| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Ping_3004 |
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| Symbol | |
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| ID | 4623788 |
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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 | 3702109 |
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| End bp | 3704718 |
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| Gene Length | 2610 bp |
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| Protein Length | 869 aa |
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| Translation table | 11 |
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| GC content | 41% |
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| IMG OID | 639798122 |
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| Product | UTP-GlnB uridylyltransferase, GlnD |
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| Protein accession | YP_944305 |
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| Protein GI | 119946625 |
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| COG category | [O] Posttranslational modification, protein turnover, chaperones |
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| COG ID | [COG2844] UTP:GlnB (protein PII) uridylyltransferase |
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| TIGRFAM ID | [TIGR01693] [Protein-PII] uridylyltransferase |
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Plasmid Coverage information |
| Num covering plasmid clones | 13 |
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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 | 15 |
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| Fosmid unclonability p-value | 0.38403 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGGATTTTG AAGCGCTTGC CCCAAACAAT ATACCCGAAG ATGACCTGAC GCTGCCCTTC
CTAAAAAATC ATTTAAAGGA ATTCCACGAA TGGCAGGTTG AGTGCTTTTA TAAAAAACAT
AAAATCGCCG ACATTGTGAC ACTGCGGGCA CATTATATTG ATCAACTGTT AACACGTTTG
TGGAAATATG CGGGACTCGC ATTAAGTGAA AATATCTGCC TTGTGGCTGT CGGAGGTTAT
GGTCGCGGTG AACTGCATCC TAAATCTGAT ATTGATCTCC TTATTCTTTC AAAAGAAGGA
TTTGATGAAG AATCAGAAAA AAAGATAAGC GCCTTTATTA CTCAATTATG GGATCTAAAA
CTCGATATTG GTAACAGCGT ACGTACCTTA AAAGATTGTT TTGAACAGGG TAGTGCGGAT
ATTACGGTTG CAACCAGTAT GCTCGAAGCG CGTTATATCA GTGGCAATAA ACAAGCGTTT
GAAAAGCTGA CGGCACTCAT TGAAGATAAA GATTTTTGGC CTTCGGATCG GTTCTTTACG
GTTAAAAAAG AAGAACAAAT TAAGCGTCAT AAAAATTGCC GCGGTGATGG TTATAACCTC
GAACCGGATC TTAAAAATGG CAGTGGCGGT TTACGTGACA TTCAAACTAT TGCATGGATT
GCCAAACGTC ATTTTGGTGT CAACAGCCTG ATAGAATTAA CTGGTTCCAA CTATATAACC
CAAGGGGAAT ACCGTGAATT AGTCGACTGT CAGGCAATGC TTTGGACAAT TCGGTTTGCG
CTGCATTCTG TTACAAATCG ACCCGATAAT CGTCTGCTGT TTGATTATCA GACCGAGGTT
GCACGTATGC TTGGTTATTC AGGATCTGGT AATACTGCTA TTGAGCAGAT GATGAAAGCG
TTTTATCAAA CTATCCATCG CGTAAAAGAG CTCAATGAGA TGTTACTGCA ATATTTTGAT
GAAGCTATTT TAGGTAATAT TCCAACGCAC ATTGAATCTA TTGATGAAAA TTTTCAATTG
CGCGAAGATA TGATTGAGCT AAAAACCACC TCATTATTTA ACGAACAACC AGAATCAATC
CTACAGCTAT TCCTGCATAT CGCTGAAAAT CCCAAAATTA AAGGGATCTA CTCTCCCACT
CTGCGTGAAC TTCATGGCGC ACGACGCTGC TTAACACACT GGTTGCAGGA CATTCCCGAG
TGCCGTGATA TTTTTATGGA AATTATCAGG CACCCGCGGG GAATCGGACT GGCATTCACC
CTGATGCACA AATATGGCAT TCTAGCGGCT TATATTCCAC AGTGGAGCCG AATTGTCGGA
CAGATGCAGT TTGACTTGTT TCATGCTTAC ACCGTTGATG AGCATACCCA TAAATTGATT
AAGAATATTT GCAACTTTAA CGAGAATAAA CAGATATACC CTATAACCAC TGACATTTTT
AATCAGTTAG ATAAACCTGA ACTCCTTTAT ATAGCGGCTA TTTTTCATGA TATTGCTAAA
GGGCAAAAGG GAGATCATTC TACATTGGGA GCGGTTGATG CACGGGCATT TTGTGAATTA
CACGGACTCA CTCGCTATGA GAGTAAAACA GTTGCCTGGT TAGTTAAGCA ACATCTCACC
ATGTCGGTAA CGGCGCAACG TCGCGATATC AGTGATCCGC GGGTGGTCAT TGAATTTGCA
AAAATAGTGC GCGATGAAAA GCGCTTAAAC CTATTACAAT GCTTGACCGT TGCTGATATT
CGCGCCACCA ATGAAGAAAC CTGGAACAGT TGGAAAGCGG CTTTATTACG CGATTTATAT
TTAAGTACCT TAAAAGTACT GCGGCGCGGA TTGGAAAGCC CGCCGGATAT TCGTGATCGG
ATCCGCGACA GGCAACGTAA GACTCTGGTT CTTTTACGCC AGCAAGGTGT TACAGACTCT
CAAGCAAAAA CACTTTGGAA ACGCTTTAAG CTCGATTATT TTTTCCGTTA TCGCTCGAAA
CAAATAGCTT GGCATACTAA AAATCTTTTA GCCCATAAAG ATCATAGTCG ACCAATGGTT
TTAATCAGTG AGCAAAAAAG CAGTGAGGCA ACTGAAATTT TTGTCTATCA TAAAGAGATG
CCAGCGTTAT TTTCCAGCGT TGTCACTGTT ATTGATAATA AAAAACTCAG TATTCATGAT
GCAAAAATTC TCTCAAGCAG AGATGATTTT TCATTAAGTA CTTTTACTGT ATTGGAAGAG
GACGGTAGCC ATATTGATCC TGAGAAAATT CAGCGCCTCA AAAAAGAAAT CGAAATGGCA
CTGCTTGCGC CAGAAAAAGT CAATAGACAA CAAACTCGCC TGGCACGTGT TAAACGCCAA
TTCAAATTTG AACCGCAAGT GACTTTTTTA CCCACACGCC GTAAACGCAC CCAAATTGAA
CTGGTCGCTT TTGATGCACC GGGAATTTTA GCTGATATTG GCGAGATTTT CAGATTCAGC
GGCATGGTTC TTTTTACGGC TAAAATAACC ACCATTGGCG AGCGTGCGGA GGATCTCTTT
ATTATTTCAA CGGCCGAAGG GAATGCACTG ACTGAGCAGC AGGAAGAAAA CTTAAAAGCC
CAGTTGATGA TCAAGCTTAG CCCTGACTGA
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| Protein sequence | MDFEALAPNN IPEDDLTLPF LKNHLKEFHE WQVECFYKKH KIADIVTLRA HYIDQLLTRL
WKYAGLALSE NICLVAVGGY GRGELHPKSD IDLLILSKEG FDEESEKKIS AFITQLWDLK
LDIGNSVRTL KDCFEQGSAD ITVATSMLEA RYISGNKQAF EKLTALIEDK DFWPSDRFFT
VKKEEQIKRH KNCRGDGYNL EPDLKNGSGG LRDIQTIAWI AKRHFGVNSL IELTGSNYIT
QGEYRELVDC QAMLWTIRFA LHSVTNRPDN RLLFDYQTEV ARMLGYSGSG NTAIEQMMKA
FYQTIHRVKE LNEMLLQYFD EAILGNIPTH IESIDENFQL REDMIELKTT SLFNEQPESI
LQLFLHIAEN PKIKGIYSPT LRELHGARRC LTHWLQDIPE CRDIFMEIIR HPRGIGLAFT
LMHKYGILAA YIPQWSRIVG QMQFDLFHAY TVDEHTHKLI KNICNFNENK QIYPITTDIF
NQLDKPELLY IAAIFHDIAK GQKGDHSTLG AVDARAFCEL HGLTRYESKT VAWLVKQHLT
MSVTAQRRDI SDPRVVIEFA KIVRDEKRLN LLQCLTVADI RATNEETWNS WKAALLRDLY
LSTLKVLRRG LESPPDIRDR IRDRQRKTLV LLRQQGVTDS QAKTLWKRFK LDYFFRYRSK
QIAWHTKNLL AHKDHSRPMV LISEQKSSEA TEIFVYHKEM PALFSSVVTV IDNKKLSIHD
AKILSSRDDF SLSTFTVLEE DGSHIDPEKI QRLKKEIEMA LLAPEKVNRQ QTRLARVKRQ
FKFEPQVTFL PTRRKRTQIE LVAFDAPGIL ADIGEIFRFS GMVLFTAKIT TIGERAEDLF
IISTAEGNAL TEQQEENLKA QLMIKLSPD
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