Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Dfer_5750 |
Symbol | |
ID | 8229366 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Dyadobacter fermentans DSM 18053 |
Kingdom | Bacteria |
Replicon accession | NC_013037 |
Strand | + |
Start bp | 6904227 |
End bp | 6907445 |
Gene Length | 3219 bp |
Protein Length | 1072 aa |
Translation table | 11 |
GC content | 51% |
IMG OID | 644933595 |
Product | surface antigen (D15) |
Protein accession | YP_003090103 |
Protein GI | 255039482 |
COG category | |
COG ID | |
TIGRFAM ID | |
| ![](https://exploration.weizmann.ac.il/pandatox/images_new/ic_cp.jpg)
![](https://exploration.weizmann.ac.il/pandatox/images_new/ic_hh.jpg)
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Plasmid Coverage information |
Num covering plasmid clones | 28 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 11 |
Fosmid unclonability p-value | 0.0248549 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGAGCAGAA GATATATTTA CACATTAACC TTTTCGATCG GTCTTTTAAC GGTTTTAGGA TTATTTTCAG AATCAATAGC ACAGCGCTAT CCTTCACAGG AGACTTTTGG AAAGAACCGG GTCCAGTATA AGAAGTTCAA CTGGAAGATC TTCCGGACCA CGAACTTTGA GATCTACCAT CATCAGGGCG GCACTTCACT CGCCAGGCTG ACGGCCCAGT ATGCGGAAAG CGAATTTGAT AAAATCACGG ACGTACTCGG CTGGACGCCT TATAACCGGG TAAAGATATT CCTCTACAAC TCGCCCGCGG AGCTCGAACA GAGCAATATG GGCCTTTCGG TGCTGGATAA CCTTTCGGAC CAGAAACTCA ATCTTGCACA ATCACGCGTG GAAGTGGCCT ATACAGGCGA TCAAATCGGT TTTCGCAAGA AACTTGTGCG GGATATCAGC CTCCTTTTCG TGTATGACAT GCTGTATGGC GGTAACATGA AAGAGGCATT ACAAAGCTCG CTGCTGCTCA CATTGCCAGA GTGGTTTATG ACCGGAACGG CCGCTTACAT TGCCGAAGGC TGGTCGCCGG AGCTGAACGA TTACATGCGG GATTTCTTCA AAAACCGCAA TGTGCGCAAG CCCACCCTGA TGCAGGGCGA CGACGCGACG CTCATCGGGC ATTCGATCTG GAATTACATA GCGGAACGTT ACGGAAAGGA CAAAATCTCC GACATTTTGA ACCTTACCCG CATTATCCGC ACCGAGCAAA CGAGTATCAC GTCCACGCTC GGCGTGCAAT CCTACAACCG CTTCCTGCGC GACTGGCGGG CCTATTATTT GAACCAGACC AAAAACGCAG AGCAGTTTTA TACTGATCCC AATCCGACCT GGAAATACAA GCTGAACGAA TTCAATGTAA CCGACGCGAG CGCGGTGATC AAGGTGTCGC CGGACAAGAA ATTTACGGCG GTGAGCGAAA TCAAAAACGG TCGCTATCGC GTGTATCTGT TTGACAGCGA GTCGGGTTCG AAGAAAGTGG TGCGCCAAGG TAAGCTCGAC ATCATCGGCG GCCGCATGAA AACCCAGCCG CCGCTGCTGG GATGGTCCAA GAACAATGTA CTGACCATTT TGGCCAACGA AAACGACAAG AAGAATCTCT ACATGTACGA AAACGTCGGT ACCAAAAAGA TCAGGATCAA GACGAAGCGC AACATCCGCG GACTTGACCA GATCGTTGAT ATGGACGTCT CGCACGACGG CAGCATGCTC GCCGTAAGCG CCGACAAAGC GGGCCAGAAC GACCTCTTCC TGATCAGCGT AGCCCGCGCC TCCACCTTGC CGCTAACCAA CGACCTTTAT GATGATCTTT CTCCAAGATT TATTCAGGGA TCATCACGCC GCGTAGTGTT CTCTTCCAAC CGTCCGGTTG ATTCGCTAGG CACAGGGGAT AAGGGTAATT TCAAATCCAT TGCACCTTCC TACACGATCT TCGAGCATGA CGGTGCACCG AGGACCGGCA CCATTGTGAA ATTGGTCGAA ACCGAGGGCA AGACGAAAGT GACGCCTGTT TATGCTGATG ATAATGATGT GGTTTACCTT TCCAATGGTA AAGGCGTTAA CAACCTTTAC AAATACAACC GTGCTTCGCA AACCAGCTCG CAGCTTACCA ATTACATTCA GAACATTCGC AATGCGGATG TGAACCTGAA AGCTGCGGGT GGCGCGCTGG CTTACACTTA TCTGAACGAC GGCTATTACA CTGCCGCCTA CAAAAACAGC TTCGACCTGA ACACCACGGT GAACCCGCCG GCCCTGAATG TTGCCAGTGC GGGCAATGCA GGAGCTGCCA ACGCCGCAGC CCCGGCTGTG AATGCAGATT CCGCTGCGAA AGCTGCCCAG GCCGGACAAG CGCCGAAGCT CGCGTTGAAA GATGGCGAAG TGGACACGGA TAATTATGAG TTTGACGAGG ATGTACTGAA ATCCTTCGAA TCGAGAAGGA ACCGCGGCAC TTTCCCGACT ACACCCGGCG TAGCATCCCG CACAAGGGCT GTCCGCGAGA ACATCGCGAT CAAAGGGCCG TATAATTACA AAGGACTGTT TATCACCAAC GACGCGGCGT CCGACTGGCG CATTGACCCG ATCCGCGGTT TCGGCTACGC GCAGTCCATT TCGATGAACG ATTTGCTCGA AAACCACGTC ATAAAGGCCG GTATTTTCAT TTCGTCCAAT TTCAGGAACA GCGATTTGTT TGCTGAATAC AACAATAACA CCTATCGCGT CGATTTCGGC CTGCGTGTGG ATAGAAGAAC ACTTTACAAC GATTCGGAAG GTTTGATCCA GAAATACCGG TTCAACCAGC TGATGTTCAC GGCGTCATAC CCATTCTCAA CGACTAGCCG CCTTTCGGTG TCGCCGATGT TCACATCCAC GAGAATGATC GACGTGCTGC TGCCTAACCC GGATCTGGCT TCGAATTACG GCGGCGTGCG CAGTGAATTT GTTTTCGACA ATACGCGGGT TAATGGGATG AATATGATGG AAGGTACGCG TTTCAAGATC CGCTACGACC TTTATCAGGG TTTGAGCAAT GGAAACGAAA GCTTCAACCG CGCCAGCCTC GATTTCCGTC ATTATCAAAA AATCCACCGC GACCTGATCC TGGCAGTGCG CGCGGCGGCC AGCCATTCGG GCGGGCGGGC GCCGAAGCAG AACATCCTCG GCGGTATGGA AAACTGGATC GGTAACCGGA AAGAAAACCG CACCGGAGAC AACCCGCTCA ATTTCCAGCG TGATAACCGC GACATCTTCT TCGCCGATTT CGCGACTAAC CTGCGCGGTT TCAGGCTCAA CAGGCTGTCG GGTACGAGCT ACATGTTGCT GAATGCGGAA TTGAGAATAC CCCTCGTGAA ATACCTGTAC CGCGGAGCGA TCACTTCGAG CTTCCTGCGT AACTTCCAGA TCGTCGGCTT CGGGGATATC GGAACGGCGT GGACGGGCAA AGGGCCATTC AGCGAAAACA ACAGCCTGAA CACGCAAATC ATCGTAGACC AGAGCGAGAC ATTCAGAGCA ACAGTTACCA ACTATAAAAA CCCTTATCTG ATGGGCTACG GAGCCGGCGT GAGAACTACG CTATTCGGTT TCTATGCGAA ATTTGATTAC GCCTGGGGTG TCGATAATGG TTACACCAAT AAACCCATTC CTTACGTAAC ATTGGGTTAT GATTTTTGA
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Protein sequence | MSRRYIYTLT FSIGLLTVLG LFSESIAQRY PSQETFGKNR VQYKKFNWKI FRTTNFEIYH HQGGTSLARL TAQYAESEFD KITDVLGWTP YNRVKIFLYN SPAELEQSNM GLSVLDNLSD QKLNLAQSRV EVAYTGDQIG FRKKLVRDIS LLFVYDMLYG GNMKEALQSS LLLTLPEWFM TGTAAYIAEG WSPELNDYMR DFFKNRNVRK PTLMQGDDAT LIGHSIWNYI AERYGKDKIS DILNLTRIIR TEQTSITSTL GVQSYNRFLR DWRAYYLNQT KNAEQFYTDP NPTWKYKLNE FNVTDASAVI KVSPDKKFTA VSEIKNGRYR VYLFDSESGS KKVVRQGKLD IIGGRMKTQP PLLGWSKNNV LTILANENDK KNLYMYENVG TKKIRIKTKR NIRGLDQIVD MDVSHDGSML AVSADKAGQN DLFLISVARA STLPLTNDLY DDLSPRFIQG SSRRVVFSSN RPVDSLGTGD KGNFKSIAPS YTIFEHDGAP RTGTIVKLVE TEGKTKVTPV YADDNDVVYL SNGKGVNNLY KYNRASQTSS QLTNYIQNIR NADVNLKAAG GALAYTYLND GYYTAAYKNS FDLNTTVNPP ALNVASAGNA GAANAAAPAV NADSAAKAAQ AGQAPKLALK DGEVDTDNYE FDEDVLKSFE SRRNRGTFPT TPGVASRTRA VRENIAIKGP YNYKGLFITN DAASDWRIDP IRGFGYAQSI SMNDLLENHV IKAGIFISSN FRNSDLFAEY NNNTYRVDFG LRVDRRTLYN DSEGLIQKYR FNQLMFTASY PFSTTSRLSV SPMFTSTRMI DVLLPNPDLA SNYGGVRSEF VFDNTRVNGM NMMEGTRFKI RYDLYQGLSN GNESFNRASL DFRHYQKIHR DLILAVRAAA SHSGGRAPKQ NILGGMENWI GNRKENRTGD NPLNFQRDNR DIFFADFATN LRGFRLNRLS GTSYMLLNAE LRIPLVKYLY RGAITSSFLR NFQIVGFGDI GTAWTGKGPF SENNSLNTQI IVDQSETFRA TVTNYKNPYL MGYGAGVRTT LFGFYAKFDY AWGVDNGYTN KPIPYVTLGY DF
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