| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Daud_1946 |
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| Symbol | |
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| ID | 6026394 |
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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 | Candidatus Desulforudis audaxviator MP104C |
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| Kingdom | Bacteria |
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| Replicon accession | NC_010424 |
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| Strand | + |
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| Start bp | 2049259 |
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| End bp | 2052606 |
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| Gene Length | 3348 bp |
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| Protein Length | 1115 aa |
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| Translation table | 11 |
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| GC content | 66% |
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| IMG OID | 641594764 |
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| Product | pyruvate, water dikinase |
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| Protein accession | YP_001718070 |
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| Protein GI | 169832088 |
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| COG category | [G] Carbohydrate transport and metabolism |
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| COG ID | [COG0574] Phosphoenolpyruvate synthase/pyruvate phosphate dikinase |
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| TIGRFAM ID | [TIGR01418] phosphoenolpyruvate synthase |
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Plasmid Coverage information |
| Num covering plasmid clones | 7 |
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| Plasmid unclonability p-value | 0.558692 |
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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 | n/a |
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| Fosmid unclonability p-value | n/a |
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| Fosmid Hitchhiker | n/a |
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| Fosmid clonability | n/a |
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Sequence |
| Gene sequence | ATGGCTCTGC ACAAAAAGAT TAAAGCGGGG CAAACCCCGC AAGAACAAGA TGCCGAAGTG
CCGGGGAAAG AAAAGTTCAT CGTCGGTTTT GACGAAGTAC GGGTGCAAGA CCTGGCCTTG
GTCGGGGGCA AGGGCGCCAA TCTGGGCGAA CTCGGCCACA TCCCGGGCTT AAGCGTCCCA
CCCGGTTTCG TGGTCACCAC CACCGCCTAC CGCCGGTTTC TGGAGGCCGA TCCCGAATTG
CGGACCTTCA TTCTCTCTCA CCTGGAGGGG CTGACCTTCG CCTCCCAGGA TTTCGTTTCT
CTGGTGTCCC TGGCCGGGCG CCGGATCCGC GACCGAATCA AAAGCCCGCA AAGCACAATT
CCGCCGGAGA TCATCAGCCA GTTGAGTGCG GCGTACCGCC GGCTCGCCGC GGACTCCGGA
CGTGAAGACG TCCCGGTGGC GGTACGCAGT TCGGCCTCCG CCGAAGACCT GCCCGACGCC
TCCTTCGCCG GCCAGCAGGA CACCTACCTG AACGTGCGGG GGGAGGCGGC GGTCGTGGAC
GCCGTGCGTC GCTGCTGGGC CTCCCTGTTC ACCGACCGGG CGATCAGCTA CCGGCTGGAG
AAGGGGTTCG ACCCTCTCGA GGTGGAAATC GCAGTGGTTG TCCAGCGGAT GATCCGGAGC
AAAAAGTCGG GCACGGCGTT CAGCGTCGAT ATCGAAACCG GTTGGAATGC CAGGCACGGC
ACCACCGCCG GGGTGGTCTA CCTGGAGGCC GGCGAGGGGC TGGGCGAGGC CATCGTCAGC
GGCCGGCAGA CCCCGGACCG TTTCCTGCTG GCCGTCTCCC CCACCGGGGA AATCGTTATC
TTGGACAAAC GGCTGGGCGG AAAGGAAGAG ATGGTAATCT ACCGGGACGA ACCCGGGGGC
GGCACCCAGA CAGTTCGGGT GCCCGAGGAA CTGCGGCGGC GGTTTTCAAT CACCGACGAC
CAGGCCCGCG AGGTCGCCCG GGCGGTACTG GCCATGGCCG ACCACTACCG CGATATCCGG
GACGTGGAGT TCGCCTTCGA TGACCAGGAC CGGCTCTGGA TCACCCAGTC ACGCCCGGAA
ACGGTGTTCG CCGTCAAGGC CGCCGGCGTG ATCGAACAGA AGAAAAGAAT GGTACGCCCG
GAAATCGCCC GCACCGCCGA GGTCCTGTTC ACCGGCGTGC CCGGTTCCGG AGCAGCGTGC
GGCCGGGTGG TGCTGATCGA CGCCAAAGAA CCTGAGGAAC TTTCCGCCCA GATGAGCCGG
GTCCGGGACG GCGACATCCT GTGCGCTGAG TTCACCACCC CGGACATGGT TCCCGCGATG
AAGATCGCCG GCGGGTTTAT CACCGCCGTG GGCGGCACCA CCTCCCACGC CGCGATCGTA
GCGCGCGAAC TCAGAAAACC GGCGGTGGTG GGCGTGGGTA ATGAACTGCT GGAGCGGATG
CGGCTTTTGC AGGCGGAGGC CCTGCGCCGG GGCGAAGAGC TGACCGTGAC CGTCGACGCG
AACGCCGGCC GGGTATACGG GGGCCGGTTC CCCCTGGATG AAGTCCTAGT GGAGACCGGG
GACAACGTAG ACATCGACCG GCTGCCAGCG ATCAAGACGA AGGTGGGGCT CATCGTCGCC
AACCCGGCGG TGGCGCGGAT GTTCCCGGTG GCCCGCTATC CCGGGCACTA CGGGGTCAGC
CTGATGCGGG CGGAGTTCGC CCTGGCCGAC ATCGGGGTAC ACCCGCAGGC CCTCCTCGCC
TACGATCAGG GCGAGTTCGA AGCCGGCGGA CGCTTCGAAA GCCAGGTCCA GCTACGAAAG
TCCATCACCG AGCGCCTCCG GGGGTACTCC AGCGGCCGGC AGTTCTACGT GGAAACGCTC
GCCCGGGCCA TCGCCGCCAT TGCGGCCACC CAGGCCCCGG ACCAGATCGT GATCTACCGG
ACCACCGACT TCAAGACCAA CGAATACCGT GAGATGCTGG GCGGCTTCCT GTTCGAGCAC
GAGGAGCCGA ACCCGATGCT TGGTTTCCGC GGCGAGGGCC GCATGATCGA TCCCGAGTAC
GCCGACGTGT TCCGCTGGGA ACTGGAGGCC TTCAAGGCGG CGCGGGACAT GGGCTACAAG
AATGTCGCCC TGATGCTCCC GGTGGTTCGC ACGCCCGGAG AACTCGAGCG GGCCCTGGAC
TTCCTGGCCG CCGAGGGCCT TGAGCGCGGC CGGGACGAGC TCCAGATCGG GATAATGGTT
GAAGTGCCCT ACAACGCCTT CGACCTGGAG TCGTTCCTTC TGGATGCGCA GGGCGGCAAG
CGGGTCGACT TCATTTCCAT CGGCTCCAAC GACCTGACTC AGTTCACCCT GGCCACCGGC
CGGGACAACG ACCGGATGCG CGGGGTTTTC GACGAAACGG ACCCGGCCGT CCTGAAGGCC
CTGGAAACAG TAATCACCAC TGCCCGGAAA CTGGGAGTCA AGACCGGGCT TTGCGGGCAG
CGGCCGTCTA ACGACCCCGC CTTCGCCGCG AAGCTCGTTC AGTTGGGTAT CGAATCGATC
GGCGTGGCCG ACACGACTTA CGTTCAGGTG ATCCGGGCGG TGGCCGGGGC GGAAGCCGCA
CTCCGGGAGG CTGCCGCCGG GAGCGGCCGT CCCAAGTCGG CGAGATCCAC AAGCGCCCCG
CCGCACCGCT TCTCGTCCCG GATTGCGGAG TTGCCCTGCC GCCGGGTTCG GGCCCGCGAA
GTTCTCACCG CCCTCGGACG GCACCCGCGG CACTTGGCCC TGACAGAACC GGAACCGGAA
AAGCTGTACA CGCGCCATTT CTGCGAGGCG CTTTTGGCGG CGGCCGAAGG GGCCCGGCCG
GACCAAGCCC TGGTATACAG CACGAATGAC CTGGACGCGC CCGGCTTCCG GAGTCTGGAA
GGCGGTGCCC GGTTCGAGTC CCCGGACGAG AACCCCCTGA TGGGATTCTC CGGCATGGCG
CGTCTCACCG ACCCCGAGTA TGAACCCTTC TTCCGCTGGG AACTCCGGGC GCTGAAGAAG
GCGGCCGGCG AGGGTCTGCC CTTCCGGCTG GAACTCACCC AGGTGCGCAC CCTGAAGGAA
CTGGACCGGG CCCTGGCAAT CATCACCGAA GAAGGGTTGG AGGATTTGCC GGTGGGCCTG
GAAATCGGCA TCCCCTCGAA CGTTCTGCTG GCCGACCAGT TCCTGGGGCG AAAACTCCAT
TTCGCCAGTA TCAACGAGGA AAAACTTGTT CGGTACCTCC TGGCCGCTGA CCCGGCCAAC
TCGAGGCCCC TGGTGCCCGC ACACGAAGTC CGCGAGGCCC GGAAAAAACT GCGCTGCTTC
CTGGAACGGA CGGTCGCGGA GCACGGCTTG TTCCTGTTCG CGCAGTGA
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| Protein sequence | MALHKKIKAG QTPQEQDAEV PGKEKFIVGF DEVRVQDLAL VGGKGANLGE LGHIPGLSVP
PGFVVTTTAY RRFLEADPEL RTFILSHLEG LTFASQDFVS LVSLAGRRIR DRIKSPQSTI
PPEIISQLSA AYRRLAADSG REDVPVAVRS SASAEDLPDA SFAGQQDTYL NVRGEAAVVD
AVRRCWASLF TDRAISYRLE KGFDPLEVEI AVVVQRMIRS KKSGTAFSVD IETGWNARHG
TTAGVVYLEA GEGLGEAIVS GRQTPDRFLL AVSPTGEIVI LDKRLGGKEE MVIYRDEPGG
GTQTVRVPEE LRRRFSITDD QAREVARAVL AMADHYRDIR DVEFAFDDQD RLWITQSRPE
TVFAVKAAGV IEQKKRMVRP EIARTAEVLF TGVPGSGAAC GRVVLIDAKE PEELSAQMSR
VRDGDILCAE FTTPDMVPAM KIAGGFITAV GGTTSHAAIV ARELRKPAVV GVGNELLERM
RLLQAEALRR GEELTVTVDA NAGRVYGGRF PLDEVLVETG DNVDIDRLPA IKTKVGLIVA
NPAVARMFPV ARYPGHYGVS LMRAEFALAD IGVHPQALLA YDQGEFEAGG RFESQVQLRK
SITERLRGYS SGRQFYVETL ARAIAAIAAT QAPDQIVIYR TTDFKTNEYR EMLGGFLFEH
EEPNPMLGFR GEGRMIDPEY ADVFRWELEA FKAARDMGYK NVALMLPVVR TPGELERALD
FLAAEGLERG RDELQIGIMV EVPYNAFDLE SFLLDAQGGK RVDFISIGSN DLTQFTLATG
RDNDRMRGVF DETDPAVLKA LETVITTARK LGVKTGLCGQ RPSNDPAFAA KLVQLGIESI
GVADTTYVQV IRAVAGAEAA LREAAAGSGR PKSARSTSAP PHRFSSRIAE LPCRRVRARE
VLTALGRHPR HLALTEPEPE KLYTRHFCEA LLAAAEGARP DQALVYSTND LDAPGFRSLE
GGARFESPDE NPLMGFSGMA RLTDPEYEPF FRWELRALKK AAGEGLPFRL ELTQVRTLKE
LDRALAIITE EGLEDLPVGL EIGIPSNVLL ADQFLGRKLH FASINEEKLV RYLLAADPAN
SRPLVPAHEV REARKKLRCF LERTVAEHGL FLFAQ
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