Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Shel_01710 |
Symbol | |
ID | 8394063 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Slackia heliotrinireducens DSM 20476 |
Kingdom | Bacteria |
Replicon accession | NC_013165 |
Strand | - |
Start bp | 209617 |
End bp | 212916 |
Gene Length | 3300 bp |
Protein Length | 1099 aa |
Translation table | 11 |
GC content | 62% |
IMG OID | 644984944 |
Product | polyphosphate kinase |
Protein accession | YP_003142591 |
Protein GI | 257062919 |
COG category | [P] Inorganic ion transport and metabolism |
COG ID | [COG0855] Polyphosphate kinase |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 4 |
Plasmid unclonability p-value | 0.249117 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 27 |
Fosmid unclonability p-value | 1 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | GTGGTCAAAT CTTCCAAAGA TGAAAAGCTT GCAAAAGAGG CGAAAGAGAG CGCTCGTCCT GAGAAAAAAC CTTACATGCA AAACCGTGAG CTTTCGTGGC TCATGTTCAA TAAGCGCGTC TTGGATCAGT CCATCGACGA GAATCAGCCC CTGCTTGAGC GTCTGAAATT CCTTGCCATC TGGCGCTCGA ACCTGCAGGA GTTCTTCATG GTTCGCGTCG GCAGCCTTCT CGATCTCGAG CTTACCGGCG ACGTCATTTA CGACAGCAAG TCCGGCATGA CCCCTACCGA ACAGCTGGAA GCAATCTATA AGCGCGTCCA GGAGCTCACT CCCCTGGCAT CCAAGGACTA TCAGACCGTC CGCCATCAGC TGGAAGCGGT AGGCATCCAT CAGATGTATC CCGACGAGCT CTCCATCGAC GAGGACGAAC AAGTCCGCAG CTACATGGAG AAGAACGTCA TGCCGCTGGT GTCTCCGCAG ATCGTCAACG CCACGCATCC GTTCCCCCAT CTTGAAAACG GCAAGATGTA CATTTGCGTG CGCCTTGATG ACCAGGCGGA ATACAGCAAG ACCAAGAACA TGTCCAAGTC CGAGCGCAAG CTGCTGCGCG CCCAGGCCGC CGAAAACGTT ATCATGGGAT TCATCCCCAT GCCGGCCAAC TGCCCGCGCT TCGTCCCCAT CAGCTCCGAA GACGGCACCT TCAAGTTCAT CCTCCTCGAA CACGCCCTGG AGATGGTGGC TCCGGACATC TTCGATATGT ACCCCGTAAA GATGGCCAAC GTCGTCATGG TCACCCGCAA CGCCGACCTT GACGCCTACG AGGAATCCGA CGAGAGCGAC GAGGACTTCC GCAGCCACAT GCGCCGCATC CTGAAGAAGC GCGCCCGCCT GGCTCCGGTT CGCCTCGAAT CCGAGCGCGA GCTGTCCGGC GACACCGAAC GCTTCCTCCG CGAGCGCCTG GGCCTCAAGC GCAGCCAGGT GTACAACACC GGCATGCCGC TTGACATGGG CTTTGCCTTC GCGCTGCCCG GCATTGTCGG CGGCGAGCTT GAAGAGCAGT ACTCCAACGA GCCCGCAGAG CCCCAGTGGC CCGCCAGCCT GGCCCGCAAG CGCAGCATCA TGAAGCAGGT CACCCACAAG GACGTCATCC TTTCGTACCC GTACGAAGCC ATGGACCCCT TCGTCCGCCT GCTGCAGGAA GCTGCCAACG ACCCCGACGT CATCTCCATC AAGATCACGC TGTACCGCCT GGCCAGCCAG TCGCGCCTTG CCGAGGCCCT GATCACCGCC GCCGAAAACG GCAAGGACGT CACGGCGCTG TTCGAGCTGC GCGCCCGCTT CGACGAGTTC AACAACATCG AGTGGTCGCA GCGCTTCGAG CAGGCCGGAT GCAACATCAT CTACGGCTTC CACGACTTCA AGGTGCATAG CAAGATCTGC GCCATCACTC GCCGCACCGA CGAGGGTCTG CAGTTCATCA CCCAGCTGGG CACCGGCAAC TACAACGAGA AGACCGCCAA GCTGTACACC GACCTGTCCA TGATCACCTG CGATCCGGTC ATCGGCCAGG ACGCCGCGAA GTTCTTCCGC AGCATGCAGC TGGAATCTGT GTCCAAGGAT TACAAGAAGC TCCTGGTTGC ACCGCTCATG ATCAAGCAGC AGCTCAGCAA GTTCGTGGAC GAGGAAATCG AGAAGGCCAA GGCCGGCCAG CCCGCCGAAA TCTGGCTGAA GACCAACTCC GTCACCGACA AGGATATGAT CGAGAAGCTG GCCGAAGCCA GCCAAGCCGG CGTGAAAATC ACCATGTTGG TCCGCGGCAT CTCCTGCCTG GTCCCCGGCG TCGAGGGATA CACCGAGAAC ATCCGCGTAG TCAGCGTCGT CGGCCGTCTG CTCGAGCACT CTCGCATATA TATGTTCGGC TCCGATCCGG ACACCCGCAA GATCTATCTG TCCAGCGCCG ACCTCATGAC CCGCAACCTC GACAAGCGCG TCGAGATTGC TTGGCCGGTC GAGAAGGAAG ACCTGCGCGC CCGTGTCGTC GGCTACTTCG ACACCATGCT TTCCGATACC GCCAAGCTGC GCGAGCTCTT GCCCGATGGC GAATACACCG AGCTGTGCCA CTTCGTGCCC AAGGACGAAG AGGGCAACTA CCTGGAGCGC CCGATCGATG CTCAGGACAC GCTCATCAAG GAGGCGTATA TCGCCAACGA ACACTCCATG GCAGGTGCCG ACTTCGACCA TGCCGTGCAG ATTTCCACGC AGGTATCTGC GTTGCAGGAG GAAGCCGAAG ACGATTACGT CGTCGTAAAG GCCGCCGAAG AGAAGAACGA GGCCGAGTCT TTTAGGCCTG AGCCGGCGCC GGATACCGAG TTCGTGACCG AGCCGGTGGC GTCGGCTGTT GAAGAAGACG TACTGGAAGA AGAGCCCGAG GTCGAGGACG AACCCGAAGC CGAACCTGAG GTTGAAGACG AACCTGAGGA CGAGGATGAG GATGAGCCCG AGACCGAAGA CGAGGTCGAG GACGAGCCCG AGGTTGAAGA CGAGCCTGAA ACCGAAGACG AGCCCGAGGT CGAAGAGGAC AACGACGAAT CCGATGACGA GCCGGAAAAG GATCTTGACG ATGAGGACGA AGGCGACGTT GCCGAGACGT ATGTCCCGAA GCATGCGGCG CCTGAACCTG AGGTAGAAGC CGCGGCCGAG GCGCTGGAAC CTGTGACCGA GGCCCCCGCT GCCGAGGCCG AGGCTGAACC TCAGCCCGAA TCGGAGCCCG TTGCCGAACC CGAGCTGGAA CCCGTTGCCG AACCCGAGCC GGAGCCTGAG CCCGAGCCGG AGCCTGAGCC CGAGCCGGAG CCTGAGCCCG AGCCGGAGCC GGAACCGGAG CCCGTTGCCG AACCCGAGCT GGAACCCGTT GCCGAACCCG AGCCGGAGCC TGAGCCCGAA CCGGAACCGG AGCCGGAACC TGAACCGGAG TCCGTTGCCG AACCCGAGCT GGAACCCGTT GCCGAACCCG AGCCGGAGCC TGAACCCGAA CCGGAACCGG AGCCGGAACC TGAACCGGAG TCCGAGCCTG AACCCGAGAT TCCGACCGCC GAGCCGACCG AGGTTATCGA GGCGCCTAAC GCCCAGGTGG CCGACGCCGC CCATACCGCC GACGCCACGC CGGCTGCCGT CCAAAACCCT GCACCGCAGC CCGACCCGGC GTGGGATCCC CAGCCGCAAC CCGGCCTGGT TGTGGCCGAA CCCAAGAAGC GCGGCGGCAT CTTCGGATTC TTCCGTCGCC TGTTCCGCCG CAACAAGTAA
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Protein sequence | MVKSSKDEKL AKEAKESARP EKKPYMQNRE LSWLMFNKRV LDQSIDENQP LLERLKFLAI WRSNLQEFFM VRVGSLLDLE LTGDVIYDSK SGMTPTEQLE AIYKRVQELT PLASKDYQTV RHQLEAVGIH QMYPDELSID EDEQVRSYME KNVMPLVSPQ IVNATHPFPH LENGKMYICV RLDDQAEYSK TKNMSKSERK LLRAQAAENV IMGFIPMPAN CPRFVPISSE DGTFKFILLE HALEMVAPDI FDMYPVKMAN VVMVTRNADL DAYEESDESD EDFRSHMRRI LKKRARLAPV RLESERELSG DTERFLRERL GLKRSQVYNT GMPLDMGFAF ALPGIVGGEL EEQYSNEPAE PQWPASLARK RSIMKQVTHK DVILSYPYEA MDPFVRLLQE AANDPDVISI KITLYRLASQ SRLAEALITA AENGKDVTAL FELRARFDEF NNIEWSQRFE QAGCNIIYGF HDFKVHSKIC AITRRTDEGL QFITQLGTGN YNEKTAKLYT DLSMITCDPV IGQDAAKFFR SMQLESVSKD YKKLLVAPLM IKQQLSKFVD EEIEKAKAGQ PAEIWLKTNS VTDKDMIEKL AEASQAGVKI TMLVRGISCL VPGVEGYTEN IRVVSVVGRL LEHSRIYMFG SDPDTRKIYL SSADLMTRNL DKRVEIAWPV EKEDLRARVV GYFDTMLSDT AKLRELLPDG EYTELCHFVP KDEEGNYLER PIDAQDTLIK EAYIANEHSM AGADFDHAVQ ISTQVSALQE EAEDDYVVVK AAEEKNEAES FRPEPAPDTE FVTEPVASAV EEDVLEEEPE VEDEPEAEPE VEDEPEDEDE DEPETEDEVE DEPEVEDEPE TEDEPEVEED NDESDDEPEK DLDDEDEGDV AETYVPKHAA PEPEVEAAAE ALEPVTEAPA AEAEAEPQPE SEPVAEPELE PVAEPEPEPE PEPEPEPEPE PEPEPEPEPE PVAEPELEPV AEPEPEPEPE PEPEPEPEPE SVAEPELEPV AEPEPEPEPE PEPEPEPEPE SEPEPEIPTA EPTEVIEAPN AQVADAAHTA DATPAAVQNP APQPDPAWDP QPQPGLVVAE PKKRGGIFGF FRRLFRRNK
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