Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Jann_2176 |
Symbol | |
ID | 3934630 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Jannaschia sp. CCS1 |
Kingdom | Bacteria |
Replicon accession | NC_007802 |
Strand | + |
Start bp | 2181948 |
End bp | 2185346 |
Gene Length | 3399 bp |
Protein Length | 1132 aa |
Translation table | 11 |
GC content | 64% |
IMG OID | 637904533 |
Product | indolepyruvate ferredoxin oxidoreductase |
Protein accession | YP_510118 |
Protein GI | 89054667 |
COG category | [C] Energy production and conversion |
COG ID | [COG4231] Indolepyruvate ferredoxin oxidoreductase, alpha and beta subunits |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 4 |
Plasmid unclonability p-value | 0.0667179 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 18 |
Fosmid unclonability p-value | 1 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGGGGGTGC AGCAGGTCTC GCTGAATGAC AAATTCGATC TTACGAAATC ACCGGTTTTG CTGAACGGCA CCCAGGCACT GGTCCGCCTG ATGCTGATGC AGAAGGCCCG CGATGCGCAG GCGGGGCTGA ACACGGCGGG GTTTGTCTCG GGCTACCGGG GATCGCCCCT GGGCGCCGTG GATTTGCAGA TGGCCCGCGC GGGCAAGGTT CTGGAGGCCT CGGACATCAC CTTCAAGCCG GGCCTGAATG AGGATCTCGC CGCCACCGCC CATTGGGGCG CGCAGAAGGC GGAATTGCGG GGCGAGGGCA AGTTCGATGG CGTCTTCGGC CTGTGGTACG GCAAGGGGCC GGGCGTTGAC CGCACCGGCG ATGTGATGCG CCACGTCAAC ATGGCGGGCA CGTCGAAACG TGGCGGCGTG ATCATGGCGA TGGGCGATGA CCACACGGGC GAGTCGTCCA CCGTCTGTCA CCAATCCGAC TGGGCGATGG TCGATGCCCA TATGCCGGTG CTGAGCCCTG CCGGCGTGCA GGAAATCCTG GATTACGGCA CCTATGCCTA TGCTTTGTCG CGCTATGCGG GCGTTTGGGT GGGCCTGAAA TGCGTGAAAG ATAATGTGGA GGCCACGGCA GTGGTCGATG CACGTCCGGA CCGGATGCAT TTCGTGGAGC CGGAGTTTGA GTTGCCCGAG GGCGGGCTGA ATATCCGCCT CGGCGATCAC TGGATCCCGC AGGAAGAACG CCTTCTGGAG CACAAGCGCT ACGCGGCGGA GGCGTTTTCC CACGCCAACA AGATCGACAA ACGGGTCCAC GGCCGCGCGG GTGCGAAGAT CGGGCTGGTT GCGGCGGGCA AGAACTGGCT GGACCTGCTA AGCGCGCTGG ACGCCCTCGG GATCGATCAA GATGAGGCCG AAAAGCTCGG GATCACAACC TATAAGGTGG GGCAGACCTG GCCGCTGGAC ATGCGCGGGT TCCACGATTG GGCCGAAGGG CTCGACCTGA TCGTTGTGGT GGAAGAGAAG CGCAAGCTGA TCGAAGTGCA GGTGAAAGAG GCGATCTTCG ATGATCGTCA GGGTCGCCGC GTCTACGGGT ACAAGGACGG GCAGGGGAAT ACCCTGTTTC CAATGCATTT CGCGCTGGAT CCGGCGGACA TTGCCGTGAA ACTGGGCAAC ATCCTGATCG AGGAGGGGTG CGCCACGGAT CGCGTGCGGG CGGGCATCGC GACGGTGGAG GACGCGCGCC GTGCCTCCAA CGCGCCCGAT CTGGCGAAGC GCACGCCGTG GTTCTGCTCG GGCTGTCCGC ACAATTCATC GACCAAGGTG CCCGATGGGT CGCGCGCCGG GGCGGGCATC GGCTGTCACT TCATGGCCAA ATGGATGGAC CGCGAGACGG AGGCCTATAC CCATATGGGT GGCGAGGGCG TGAACTGGGT GGGCGAGTCG CTGTTTTCCA AGCGCGACCA CATGTTCCAG AACCTCGGTG AGGGCACATA TAACCACTCC GGCATCCTCG CCATCCGGGC GGCTTTGGCG GCTGGCACGA ACATCACCTA CAAGATCCTG TTCAACGATG CCGTCGCCAT GACCGGCGGG CAGACCAATG AGGGGGAGCT GTCGCCCGGC CGCATTGCCC ACGAGCTGAC GGCCATGGGT GTGGGCGAGG TCGCGCTGGT CTATGACGAG AAGGAAGACG TGGATTTCGC CAGCTTCCCC AAGGATGTGG CGCGGTTCGG ACGCGATGAC TTGATGAACG TGCAGGAGTG CATGGCCAAA GTGCAGGGCG TCAGCGCCAT CATCTATGTG CAGACCTGCG CGGCTGAGAA ACGCCGTCGC CGCAAGCGCG GGACGTTCCC GGATATCGAC AAGCGCGTGT TTATCAACAC CGATGTTTGC GAGGGCTGCG GCGATTGCGG CGTACAGTCG AACTGCGTCT CCATCGTGCC GGTGGAAACC GAGTTGGGCC GCAAACGGGC GATTGACCAA TCGACCTGCA ACAAGGATTT TTCCTGCGTC AAAGGGTTTT GCCCGTCCTT CGTGACGCTG GAGGGCGCGG TGATCCGCAA GGAGGCCTCG GCTTCCGTCG ATCTGGACGG CCTGCCAACG CCGGATCTGC CGGTTATCGA CGGGACCCAC AACGTGCTGG TCACCGGCGT GGGCGGCACC GGCGTGGTGA CAATCGGCGC CGTCATGGCC CAAGCCGCGC AGCTGGATGG CAAAGGCGCG GGCATGATCG AGATGGCGGG ACTGGCGCAA AAGGGCGGCG CCGTTGCGAT CCACCTGCGC CTTGCGAACC GGCCCGAGGA TATCGCCGCG ATCCGCGTGG GCGCGGGGGA GGCCGATGCG GTCATCGGCG GTGATCTGGT GGTCACCGGC GGCGCAAAGA CGCTGGCGCA GATGAAGACC GGGCGCACAG GTGCGGCGGT CAACAGCCAT GAAATCACCA CTGGGGACTT CACGCTCGAT ACGGAATTCA CCATTCCGGG CAAGGACTTG GAGGTCGCTC TTCAAGCGCG TTTGCGCGAA AATTTGGTGC TGTTCGATGC CACCGAACTG GCGCGTGTTC TGCTTGGGGA TTCGATTTTC TCCAACATGA TGACGTTTGG GGCGGCCTGG CAGATGGGCC TCGTGCCGCT GTCGCGTGAG GCAATCATGG AGGCCATCGC CATGAACGGC GCGGCAATCG AGGCCAACCG GCAGGCGTTT GAGATGGGCC GTTGGGCCGT TGTGAACCCC GATCAGGCGG CGCGGCTGAC ACTGTCCAAT GTGGTGGCAA AGCCCAGGAC GCTGGACGAG ACCATTGCCT TCCGCGAGGC GCATCTAGTG GCGTATCAGG GCAAGCGGCT GGCGAAGCGC TACCGCAAGC TGGTCGACGC CGTCACCGAC CCCCGCCTGA AGGAGGCAGT CGCGAAGGGC TACCACAAGC TATTGGCCTA CAAGGATGAA TATGAGGTCG CCCGCCTGCA TCTGGAGACA GAGGCCAAGG CACGCGAGAC CTTCACCGGT GAGTTCAAGA TGACCTACCA CCTTGCGCCG CCAATGCTGC CGGGGCGCGA CGCGGCGGGT CGCCCGAAAA AGCGGGAGTT CGGCCCTTGG GTGGGTGGCG TTTACAAGGC GCTCGCCAAG ATGAAGGGCT TGCGCGGCAC GCCGCTGGAT GTCTTCGGCT ACGCGGCAGA GCGGCGGGCG GAGCGGGCGT TGATCAAGCA GTTTGAGGCA GACATGAAGG CGTGGCTGCC ACAGGCGGAC GCGGCGCGCA TGGATGCGGT GGTGGCGTTG GCGGAATTGC CCCTCAGCAT CCGTGGCTTC GGGCCGGTGA AAGACAAGAA CGCCGCAAAG GCCGCAAGGC GGCGGGACGA GCTGTTGGTC GCCTTGCAAA CCGGACAGAT GGCCCAGGCG GCGGAGTAA
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Protein sequence | MGVQQVSLND KFDLTKSPVL LNGTQALVRL MLMQKARDAQ AGLNTAGFVS GYRGSPLGAV DLQMARAGKV LEASDITFKP GLNEDLAATA HWGAQKAELR GEGKFDGVFG LWYGKGPGVD RTGDVMRHVN MAGTSKRGGV IMAMGDDHTG ESSTVCHQSD WAMVDAHMPV LSPAGVQEIL DYGTYAYALS RYAGVWVGLK CVKDNVEATA VVDARPDRMH FVEPEFELPE GGLNIRLGDH WIPQEERLLE HKRYAAEAFS HANKIDKRVH GRAGAKIGLV AAGKNWLDLL SALDALGIDQ DEAEKLGITT YKVGQTWPLD MRGFHDWAEG LDLIVVVEEK RKLIEVQVKE AIFDDRQGRR VYGYKDGQGN TLFPMHFALD PADIAVKLGN ILIEEGCATD RVRAGIATVE DARRASNAPD LAKRTPWFCS GCPHNSSTKV PDGSRAGAGI GCHFMAKWMD RETEAYTHMG GEGVNWVGES LFSKRDHMFQ NLGEGTYNHS GILAIRAALA AGTNITYKIL FNDAVAMTGG QTNEGELSPG RIAHELTAMG VGEVALVYDE KEDVDFASFP KDVARFGRDD LMNVQECMAK VQGVSAIIYV QTCAAEKRRR RKRGTFPDID KRVFINTDVC EGCGDCGVQS NCVSIVPVET ELGRKRAIDQ STCNKDFSCV KGFCPSFVTL EGAVIRKEAS ASVDLDGLPT PDLPVIDGTH NVLVTGVGGT GVVTIGAVMA QAAQLDGKGA GMIEMAGLAQ KGGAVAIHLR LANRPEDIAA IRVGAGEADA VIGGDLVVTG GAKTLAQMKT GRTGAAVNSH EITTGDFTLD TEFTIPGKDL EVALQARLRE NLVLFDATEL ARVLLGDSIF SNMMTFGAAW QMGLVPLSRE AIMEAIAMNG AAIEANRQAF EMGRWAVVNP DQAARLTLSN VVAKPRTLDE TIAFREAHLV AYQGKRLAKR YRKLVDAVTD PRLKEAVAKG YHKLLAYKDE YEVARLHLET EAKARETFTG EFKMTYHLAP PMLPGRDAAG RPKKREFGPW VGGVYKALAK MKGLRGTPLD VFGYAAERRA ERALIKQFEA DMKAWLPQAD AARMDAVVAL AELPLSIRGF GPVKDKNAAK AARRRDELLV ALQTGQMAQA AE
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