| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Fnod_0157 |
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| Symbol | |
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| ID | 5452392 |
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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 | Fervidobacterium nodosum Rt17-B1 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_009718 |
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| Strand | + |
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| Start bp | 158176 |
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| End bp | 161511 |
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| Gene Length | 3336 bp |
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| Protein Length | 1111 aa |
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| Translation table | 11 |
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| GC content | 32% |
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| IMG OID | 640873904 |
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| Product | permease YjgP/YjgQ family protein |
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| Protein accession | YP_001409681 |
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| Protein GI | 154248856 |
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| COG category | [R] General function prediction only |
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| COG ID | [COG0795] Predicted permeases |
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| TIGRFAM ID | |
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| 
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Plasmid Coverage information |
| Num covering plasmid clones | 0 |
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| Plasmid unclonability p-value | 0.0000684055 |
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| Plasmid hitchhiking | No |
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| Plasmid clonability | unclonable |
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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 | TTGAAGACTC TGACAAGATA TGTTTTAAAG CAAGCATTGA AACCATTTTT TATGGGACTC
GCTGGTTTTA TTGTGTTTGT CAGCGTAGAA TGGCTTTATC AAATTTCAGA TTACATAATT
AGAAATAGAG TTGGAATAGA TAAATTACTA CTATTTGTAA TGTACAACAT ACCTTACTTT
ACATTTCTCG GTATCCCTGT TGGGGTACTT TTTTCAATAT TCTGGGTTAT AAGCGATATG
TACAACAACA GAGAAATTAC TGCTTTATTG GTTCACGGTG TTTCGGCTAA GCATTTAGTT
ACACCGTTTA TCATTCTTGC ACTAATCTTA GGCTTTTTCT CCTGGTTGCT TGGTGATTAC
GTTGTTCCAA CCGCCAATTA CAAATCTTCG CAGATACTCA ACCAGTATAT ATTTCAATCA
CCTGAAAGTG TTGTAAAGAC AAATATGCTT GTAGAATTAG AAAAAGATGT TTATTTTTAT
GTTAAAGAAC ACAACAAAGC TAAAGGTGAA CTTTACGATG TAGTTTTATT TAGAAATGAA
GAGGGAAACG AACAGATTCT TACAGCTAAA AAAGTTATAA AAAGGAAAGA CGGTTGGTTT
TTATTAGACG GATCGATGTA TATAGTGGAG TTGAAAACAG GATTTCTCAA ATTAGACATG
CAATTTAAAG AAATGAAATT AGACGTTGCT GGTGAAATCG AAGAAATGCT AAGGGCTTAC
AAAACTACAA GGGATAAAAC TTCAAAAGAG CTAAGAGAAC AACTTCAAAC GTACAAGAAA
TTAGGTATAA ATGCTTCGAA TTTGATTGTT GAACTTAACC AACGTTATGC AAATGCTCTA
GGAGCTTTGG TTATAGTTTT GATAGGTCTT CCTGTTTCAT TGTTGTTTGG GTTTATTAGC
AGGTCTTGGA GCATTATCCT TACATTTCTT ATAATTGTAC TATACCAAGG TTCGGGTGCA
TGGTTGTCTG GTATGGGAAA AGAAGGATTA ATGGATCCGA TGCTTGCAAC GTGGCTTCCG
AACATTGTAT TTTCCGTTGT TGGGTTCATT ATGTATATTT TTGTCGATAC TCCAATAGCT
TTTAAAGTGA GAGAGTTTTT GTCAAGGTTG TTCTTATTCA TATTGATAAT AGTTGTTTTT
TTCGGTTTTA CTAATTCCAT TGGCTTTTCA GAAAATCTTG TAAAGGTCAA CTCTCTGGAT
GCTTATTTTT CAGAAGAAGT TGTTAGATTT AAAGGAGAGG TTTCTTTTTC TTGGGATAAT
TATAAACTTC TTTGTGATGA AGCAACAGCG ACAATTGTTG ATGGTAAGAT AAAAGCAATT
CAAGCTACTG GTGAAATAAA ATTTTACGAT AAAGATATGA CGTACACTGC CAGAAGTTTT
AAATATGATT TTGAAAGTGA AAGGGCGTTG ATAGTCAAAG CTAAAGTTGT TTACAATTAT
AACTATAACA ACAAAAAAAT CCCAGTTTAT GTTTACAGTT CTGAAATAAA TTATGAAGCT
ACATCAACAT TGACCCAACT TGAAGACTCT TATTTAACCA CTTGTAATTT GGAAGAACCG
CATTATATGA TTCTTTCTTC CGATGTATAT GTATTCGAAA ATAAGTACAT AGTTGCTAAA
AATTCGTTTT TAGTAATTTT GGGTGCTCCC ATTTTCCTGT ATCCTCTTTA TATAATGAAC
CTTGATGGTG TTCCTCCATA CTCTTTTTCA ATTACATTCG GAAATACTTT AGTTGTATCT
CAGTCATTCA ATTTTGCTGT AAATAAATGG GCAGTAAAAT TATCATTTGG AACAGAAGGA
GTTGGAATTG AAACTCAGAA CACGCAGAGT AAATCAGATA AAATATCTTA CAATCAATCT
AAGGATAGTT TTGAACTTAT GCTATCACCT TTTATTTACA GGTATTCAAA GGGGAATATT
TATTATAAAT ACGATGGACC TATATACGTT GAGGGTACGT ACATCAATGA TAATAATTTC
TATCACAAAC TTGGTTTTAA CTATCAAAAT CAAAATGTCT ATTTTAGACC TTATATTATG
TACGATAAAA AACTAACCGA TACTTTAATT GTTTTAAATG GTGGAATAAA GAACTTATCT
TTTGATATTC TTCCAGAAAA TAGCTTGAAA GTTAATTCCG TTGACAGTAC TTATAGAATG
CAATACGACG GATACTTATT CGAACCAGAA AAAGATTGGA AAACTTCTAA TCAAACTATT
TACAACATTG GATTATCAAA CAAGGTTATA AATTATAATA TTTCGGCAAA TGGCTCAGTG
TACAATAACA GCGAAAATAG AAATGTTGTT TACACATACC AATTGCCTTG GAATTGGAAG
TTGGATAATT TTTCACTAAA TTTCAACTAT ACTTTCACGC TGAAAAATGT GTACAATTAT
TCTAATAACA CTTCAAAGCA ATCATTGGGT GCATCTGATA AGTATAACGT TACAGGAATG
TACAATATTG GTCCACTTAA AACTTCGCTT TCTTGGGAGC AAGTTTACAA TTACCTCGAT
GAACCAACAT CTACAGATAG GAATTTATTA AAGTTTACAC TTGAAGCTAA CTCATCAAAT
CTTACACTTT CGACGTCAAG AAGTATCGAT TTGATAAAAA ATAATCAGCT ACCTGATACT
TTGACAGTAA AGTACAACCA AACAATTGGA GATTTCAATA TTGGTGGTTC TCTATCCACA
ACGTATGATA ACACTTTGCG CAAACTTGGT AATGAGAACA TCACACTTGA AATGCGTTAC
ACCCCATTCT CATTAAGGTA CGCTTTGCAA TTTATTATTA GACCGGGGAT GTCTTTAGAC
AATTATGTAC ATGTCATAAA TTATGGTAAT CTAAATGCTA CCATATACCA ACAAAACGAT
TATATAAAAA ACATTGTTGC TTCAGGTTCT TTTAATCTTT TTGATTATAC AGCAATGCTG
AGAGCAAATT ACAATAAAAC TTCAAAAGAA GCTACTCCGA CGTGGAATTT TACATATGCA
ATGGAAAAAA AGAACGAAAA ATATGTTCTA TCTTATAATA CAGATAATAA AAATACCTAT
AAATTAGAAA TGGACTTAAA GAATCTTGAC CCAAATATCA AACTCAGCGT TACATTTAAT
CCCTCAACAA TGTCATTTGA TTATTTCTCA TTCAACTTTG ATAAATCATT GCATTGTTGG
AGATTAAATG CTGGAATTGA TTTTAAAAAT AGAAATTCTC CGAACATTTT TGATAATATT
GATAAGATTT ATTTTAAATT TTACTTGACC GATATACCAG ATAAATTTTT CCAATTTGAT
CCGAAGAATG GTCAGTTTAA TTTTAATGGG ATGTGA
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| Protein sequence | MKTLTRYVLK QALKPFFMGL AGFIVFVSVE WLYQISDYII RNRVGIDKLL LFVMYNIPYF
TFLGIPVGVL FSIFWVISDM YNNREITALL VHGVSAKHLV TPFIILALIL GFFSWLLGDY
VVPTANYKSS QILNQYIFQS PESVVKTNML VELEKDVYFY VKEHNKAKGE LYDVVLFRNE
EGNEQILTAK KVIKRKDGWF LLDGSMYIVE LKTGFLKLDM QFKEMKLDVA GEIEEMLRAY
KTTRDKTSKE LREQLQTYKK LGINASNLIV ELNQRYANAL GALVIVLIGL PVSLLFGFIS
RSWSIILTFL IIVLYQGSGA WLSGMGKEGL MDPMLATWLP NIVFSVVGFI MYIFVDTPIA
FKVREFLSRL FLFILIIVVF FGFTNSIGFS ENLVKVNSLD AYFSEEVVRF KGEVSFSWDN
YKLLCDEATA TIVDGKIKAI QATGEIKFYD KDMTYTARSF KYDFESERAL IVKAKVVYNY
NYNNKKIPVY VYSSEINYEA TSTLTQLEDS YLTTCNLEEP HYMILSSDVY VFENKYIVAK
NSFLVILGAP IFLYPLYIMN LDGVPPYSFS ITFGNTLVVS QSFNFAVNKW AVKLSFGTEG
VGIETQNTQS KSDKISYNQS KDSFELMLSP FIYRYSKGNI YYKYDGPIYV EGTYINDNNF
YHKLGFNYQN QNVYFRPYIM YDKKLTDTLI VLNGGIKNLS FDILPENSLK VNSVDSTYRM
QYDGYLFEPE KDWKTSNQTI YNIGLSNKVI NYNISANGSV YNNSENRNVV YTYQLPWNWK
LDNFSLNFNY TFTLKNVYNY SNNTSKQSLG ASDKYNVTGM YNIGPLKTSL SWEQVYNYLD
EPTSTDRNLL KFTLEANSSN LTLSTSRSID LIKNNQLPDT LTVKYNQTIG DFNIGGSLST
TYDNTLRKLG NENITLEMRY TPFSLRYALQ FIIRPGMSLD NYVHVINYGN LNATIYQQND
YIKNIVASGS FNLFDYTAML RANYNKTSKE ATPTWNFTYA MEKKNEKYVL SYNTDNKNTY
KLEMDLKNLD PNIKLSVTFN PSTMSFDYFS FNFDKSLHCW RLNAGIDFKN RNSPNIFDNI
DKIYFKFYLT DIPDKFFQFD PKNGQFNFNG M
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