| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Nmag_1547 |
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| Symbol | |
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| ID | 8824381 |
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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 | Natrialba magadii ATCC 43099 |
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| Kingdom | Archaea |
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| Replicon accession | NC_013922 |
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| Strand | + |
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| Start bp | 1577330 |
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| End bp | 1580875 |
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| Gene Length | 3546 bp |
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| Protein Length | 1181 aa |
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| Translation table | 11 |
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| GC content | 54% |
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| IMG OID | |
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| Product | hypothetical protein |
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| Protein accession | YP_003479685 |
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| Protein GI | 289581219 |
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| COG category | |
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| COG ID | |
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| TIGRFAM ID | |
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Plasmid Coverage information |
| Num covering plasmid clones | 1 |
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| Plasmid unclonability p-value | 0.0222453 |
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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 | ATGGACGGGG ATCACAGGGG TGTCGGTGGG GACCGAGCCG CAAGTCCAGT ACTCGGTATT
GTTCTTCTCT TTGCGATGGT CGGGATTGGT GCACTCCTGC TGTTCACAGC TGGATCCATT
ATGCTCGACG GGCTTGGCTC TGAGGTCGAC CGCGAAAAGG TCCACCTCTG TATGGACGAG
ACTGACCACC GGCTCGGCAC CGTCGCCTCA ACGGGATACG AACAATCGCT AGCACTTGAC
GATCCAGATT GCCAACCCTC GGTTGTCAGC GATGGCTCAA TTTCAATCAC CTGGTACAAC
AGTACGGACG GTAAAAAACC ACCATGGGAC AACTCGAGTC GGACAGCCAC TGAAGATCTT
GGTGCACTCG AGTTCGAACT CGAGGATCGG ACGCTCGCAC ACCAGGGTGG TGCCATCTGG
GAGGTTTCTG AGTCCAGCGT GCGAACAGAG AAGTCGCCGG AGATCGGCTT CACCGAGGAT
GGATTGCTGG AACTGGGGTT CATGCAGGTC CATCAGTCGG AGACGATCGG ATCGGAGGGA
GTTCTCCGGC ACGACTTCGA AAGCGAGTCG GAAGCGGCAA CAAACCTCAC GACAGCGGTT
GAGGAGGCGA ACGAAGACGT TGCGATCAAG ATCGAGAGCG AGTATGCGGA GGGGTGGAAG
GACCACCTCG GAAGCGAAGA AGAGTACGCT GATCAATTCC ACGAGTTCGA TGTCAACGTA
GAGTCGACCT CGAATCCCAA CGAGGTCGTG ATGACGATCG AAGAGATCGA CACAGCCCCA
GAAGAGCCGT ATTTCTTGGT CGAAGAGGAC CACGGGCTAT GGGATCAAGG CGGGAACGAG
CCACTTCCTA GTCATATCTT GGATCATGGG GACTTCTTCC ACGTCAATAC GACACTGATG
AATTACGGAA ACGAATCAGG GCATGTCAAC GCTACGCTCA TGATTCGGGA CGAATCGGGT
ACTGGTGTCG AGAGTCGGGA AATCACGTCT GACGACGAAA TTGAGCCTGG CGAATATATC
TCGACGGCCA ATCACTCGGA GTGGAACTGG GACGGGGCTG GCGCAAACCA CTTTTTCAAA
ACTGGCAACC CAAGCGATGC AATCGGCGTC GAACCGGGGG AAGAGTACGA GTACAACGTC
GAAACTGCTC CAGGAGGGGC CACCCTCAAC GACCCAGGCC AATTCATCAT CGAGGATGAT
CCACCGGAGG TCACCATCAC TAACGTCGAG GATCCAGTCG GCCAGGGAGA GACGTTAACA
GTCCACGCAA ATGTCGAAAA GCGCGGGTAT GGAGACGATC AACTCGTTTG GCTCAGTGGT
TTCGACGGCA CCATCGTTGA CACCACCGAA GTCGATTCCG AGGGGAGTGG AATGGAATCG
GTCGAACTCG AGTGGGGAAG CGTCGATTTA CCCACGGACT CCACTGACAC CGAAATCGCA
GTCGGAACGG AGTCTAACAG TGATACCGAA AAGGTCGATG TCTATCCGTC GCTCAACATA
ACCGATATCG ATGTGCTTGA TGATCCGGTT GAGGAAGACG GATCGGTAAC CGTTGAGGCA
ATTATTGAAT CAATAGGAGA TGAAGCCGAA ACAGATGTAT TTATAGGGGG GGACGAGGCC
GGTAGTCAGT CCGTTACCGT TCCGGATACG GGAACAAAGG CTGTCGAACT TGAGTATGAC
GTTGGAGAGC GAACTGATCG CATCACGGTC AGGACGGATA GTTTCGAAGC AGAAGACGAC
GAGATGGAGG AAGTTGTCGT CGTCAAGCGA GATGGGCCAG AATGTGATGC CGTCGATTAT
GAGGGTAGTG GGTCAGAACA TGACCCGTAT CAAATAAGCA ACGTCGATCA GCTCCAGTGT
ATCAACGATC AGGGCCTCGA TGAACATTAC GAACTCGTCG ACAACATCGA TGCCCACGGA
ACCGAGTACT GGAATCCAGC TGTGAGCCAC TCAGAAACAG TATATCCAGA AAGCCGCGAA
TTTGGATTAG GTGATCGGTT TGAGCTCTCC AACACTCCCG TAGTTGAAAG AAGTGTCGAG
GTAGATGCAG GCACTTTGAA TAGTGATCCA GAGTTTGAGC TTATCGATGC CGAAGCAGGC
GTCGTAGAGA TACGAGAGGA TTCAGGACGG GGCGACAACT GGAGGCAACT AGAGGTATCC
TATCAGGAGT CAACAGAGTC CGGCGAACCC CGTGGATTCG AACCGATCGG GCAAGACGGG
AACCCCTATG CGGCAAACGG TGACCAAGGG AACTCCAGTG GATCGTTCGA CGGCCATTTC
AATGGAAGCG GTCACCTGAT TGAGGGACTA TCCATCGATC GACCCGATGA ACGATTTGTT
GGGTTGTTTG GTGCGACAGG TCACACGACG AACGCCGATC CAGTCGGTTC TGGGTCAACG
ATAGAGAACG TGAGGCTTGC CGACGTGAAC ATCCATGGAC AACAGCACGT TGGTGCACTC
GTTGGTCAGG CCGGCGGTGA AGTGATTCAA TCACGCAGTG AGGGAGTTGT CAGAGGTGAA
GAACAGCTGG TGGGTGGATT AATTGGAGAC GGGGCTCACG CCAGTCTTGA TAATGAACTT
GTCGCGGAAG GTACCGTAAT TGGTGGGCCG AACACCGATT ACAGGAATGG TGAAGGAATC
GGTGGGCTGA TTGGCCGATC AACGTTCCAG ACCGAGGTTT CTGTGGGCTA TACACAGAAC
ATGACGGTGA TCGCCGATGA TGGAAATTCG GTTGGAAGTC CACCAGACCG GAGCCATGCG
GGAGGGCTCA TCGGGACATC ATCCTACCGA GACTCTACAT TCGATCAGAT GTATACGATT
ACGAACGCCG ACGGATTTGA CGGCGCGACT GGGGCAATTG TCGGAACGAT CTTGGGTGCT
CAGGGAGAAA GCACTACCGG TGACACGTTC ACCGAGAGCG TCTACTGGCA GAACAGTGAA
GATCCGTACG GCGTAAATGA TGTTGATTGG AACGCACCAA GTCCCACACT CAACTGGAAT
GGGCGGAGTG AAGACGACAT GAAAGGTAAC GATGTGAACC AAGGCGGCAG AATGGGCAAC
CTCAACTTTG AGGAAGAGGG GGGCCCATGG GTCGCCGTCC CCGATGATTA CCCTCGCTTC
GACTGGGAGC TCGAGGCCGA GGGAATCTTC GAGGTCGACA TTGACAACGT CGAAAACGTA
ACCGCCGGCA ACTCCACTAC GATCGATGCC ACGGTTACGA GCCGTGATAC GGACTTGGAT
GAGGACGATG TCCCACAGAT AATCACGCTC ACGGACACCG ACGGCCAGGT CGTCGATACG
AAAGAAGTGG TAGAAAGTGA TCTAAACGAA GACGGCGAGA CGGAGGTCGA ACTCGAGTGG
CAGACCAGTC TCAACGACGA TGGCAGCGGC GAGGTGACTG TTCGAAGCGA GGATCGAGCG
GATTCAGCAC CGATTGAGAT CGAACCCGGC GACGAAATCG ACTGGACTGG GGACGCAGAT
GGATCGCTGG ACGACATCGG CGATTCCACG ATTGAGATTG ATGTTGATGC CGTCGAGGTT
GGCTGA
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| Protein sequence | MDGDHRGVGG DRAASPVLGI VLLFAMVGIG ALLLFTAGSI MLDGLGSEVD REKVHLCMDE
TDHRLGTVAS TGYEQSLALD DPDCQPSVVS DGSISITWYN STDGKKPPWD NSSRTATEDL
GALEFELEDR TLAHQGGAIW EVSESSVRTE KSPEIGFTED GLLELGFMQV HQSETIGSEG
VLRHDFESES EAATNLTTAV EEANEDVAIK IESEYAEGWK DHLGSEEEYA DQFHEFDVNV
ESTSNPNEVV MTIEEIDTAP EEPYFLVEED HGLWDQGGNE PLPSHILDHG DFFHVNTTLM
NYGNESGHVN ATLMIRDESG TGVESREITS DDEIEPGEYI STANHSEWNW DGAGANHFFK
TGNPSDAIGV EPGEEYEYNV ETAPGGATLN DPGQFIIEDD PPEVTITNVE DPVGQGETLT
VHANVEKRGY GDDQLVWLSG FDGTIVDTTE VDSEGSGMES VELEWGSVDL PTDSTDTEIA
VGTESNSDTE KVDVYPSLNI TDIDVLDDPV EEDGSVTVEA IIESIGDEAE TDVFIGGDEA
GSQSVTVPDT GTKAVELEYD VGERTDRITV RTDSFEAEDD EMEEVVVVKR DGPECDAVDY
EGSGSEHDPY QISNVDQLQC INDQGLDEHY ELVDNIDAHG TEYWNPAVSH SETVYPESRE
FGLGDRFELS NTPVVERSVE VDAGTLNSDP EFELIDAEAG VVEIREDSGR GDNWRQLEVS
YQESTESGEP RGFEPIGQDG NPYAANGDQG NSSGSFDGHF NGSGHLIEGL SIDRPDERFV
GLFGATGHTT NADPVGSGST IENVRLADVN IHGQQHVGAL VGQAGGEVIQ SRSEGVVRGE
EQLVGGLIGD GAHASLDNEL VAEGTVIGGP NTDYRNGEGI GGLIGRSTFQ TEVSVGYTQN
MTVIADDGNS VGSPPDRSHA GGLIGTSSYR DSTFDQMYTI TNADGFDGAT GAIVGTILGA
QGESTTGDTF TESVYWQNSE DPYGVNDVDW NAPSPTLNWN GRSEDDMKGN DVNQGGRMGN
LNFEEEGGPW VAVPDDYPRF DWELEAEGIF EVDIDNVENV TAGNSTTIDA TVTSRDTDLD
EDDVPQIITL TDTDGQVVDT KEVVESDLNE DGETEVELEW QTSLNDDGSG EVTVRSEDRA
DSAPIEIEPG DEIDWTGDAD GSLDDIGDST IEIDVDAVEV G
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