| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Pnuc_1398 |
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| Symbol | |
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| ID | 5052712 |
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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 | Polynucleobacter necessarius subsp. asymbioticus QLW-P1DMWA-1 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_009379 |
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| Strand | - |
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| Start bp | 1466650 |
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| End bp | 1469628 |
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| Gene Length | 2979 bp |
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| Protein Length | 992 aa |
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| Translation table | 11 |
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| GC content | 47% |
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| IMG OID | 640471570 |
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| Product | molybdopterin oxidoreductase |
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| Protein accession | YP_001156176 |
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| Protein GI | 145589579 |
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| COG category | [C] Energy production and conversion
[R] General function prediction only |
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| COG ID | [COG0243] Anaerobic dehydrogenases, typically selenocysteine-containing
[COG3383] Uncharacterized anaerobic dehydrogenase |
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| TIGRFAM ID | [TIGR01409] Tat (twin-arginine translocation) pathway signal sequence |
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Plasmid Coverage information |
| Num covering plasmid clones | 16 |
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| Plasmid unclonability p-value | 1 |
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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 | ATGAGTCTGA CTCGTAAATC CAACACCCCC CAAAGCAGTC GTTCTGCATC ACGTCTTATC
GGTAGTTTGT CACGTGGCCT TAAAGCCGCA GTACCAACCA TGGATCGCAG AACATTTTTA
AAGCGCTCCG GAGTAGGGGT TGGCGCTGGT ATCGCTGCTA GTCAACTGAG CTTGGTACAA
AAAGCAGTTG CCGAGCCAAG TAAAGCAATG CTAGATGGCA AAGGCAAAAT AGAGGTTAAG
AGAACGATCT GTACCCACTG TTCAGTAGGT TGCGCAGTTG ATGCTACGGT TGAGAACGGT
GTCTGGGTAC GTCAAGACCC AGTGTTTGAT TCGCCAATCA ATATGGGCGC ACATTGCGCT
AAGGGTGCTG CCTTGCGTGA ACATGGTCAT GGTGACTATC GCTTACGTTA TCCAATGAAG
TTAGTTGATG GAAAGTACCA GCGTATTTCA TGGGATCAAG CACTTACTGA AATCACTGCG
CAAATGAAGA GTATTCGTGA GAAATATTCT CCCGATGCCA TGTTCTTTGT AGGCTCTTCA
AAGCACAATA ACGAACAATC GTATTTATTG CGTAAATGGG TTTCGTTCTT TGGAACTAAC
AATACAGACC ATCAGGCTCG TATTTGCCAT TCCACTACCG TTGCAGGTGT AGCTAATACC
TGGGGCTATG GTGCGATGAC CAATAGTTAT AACGACATGA TGAATTCAAA GGCGGCTTTA
TATATTGGTT CAAATGCTGC TGAAGCTCAT CCAGTCTCCA TGTTGATGTT GCTGCATGCT
AAAGAAAATG GCTGCAAAGT GATCGTTGTT GATCCTCGAT ACACTCGTAC CGCCGCGAAG
TCAGATCAAT ACGTTCGTAT TCGTTCAGGA ACAGATATTC CATTCTTGTT TGGTGTGCTG
TATCACATCT TTAAAAACGG CTGGGAAGAC AAGAAGTACA TCAATGACCG CGTCTATGGA
ATGGACGAGA TTCGCAAAGA AGTGATGGAG AAGTGGACCC CAGCCGCTGT TGAAGAGGCC
TGTGGAGTTC CAGAAGCGCA GGTATATCAA GTTGCGAAAA CCATGGCGAC CAATAAACCA
AGTACTGTAG TTTGGTGTAT GGGTCAAACT CAGCACACCA CTGGTAATGC CATCGTTCGC
GCCTCTTGTA TTTTGCAATT AGCACTTGGC AACATTGGAA AATCTGGTGG CGGTACAAAT
ATTTTCCGCG GACACGATAA CGTTCAGGGA GCAACTGACG TTGGTCCAAA TCCAGATTCA
TTGCCAGGTT ATTACGGTTT AGCCGCAGGA GCTTGGAAGC ACTTTGCAAC TGTGTGGGGT
GTTGATTACG AGTGGATCAA AGGGCGTTAT GCCCCAGACA TGATGGAAAA GTCTGGAACA
ACGGTTTCTC GTTGGGTAGA TGCTGTTCTA GAAAAGAACG ACATGATTGA CCAGCAAACC
AATGTGAAGG GTCTGTTCTT CTGGGGTCAT GCACCGAACT CGCAAACACG CGGTCTAGAT
ATGAAGCGTG CGATGAATAA GTTAGATCTT TTGGTGGTGG TGGATCCATT CCCAAGTGCA
ACTGCGGCGA TGGCAGCAAT GCCTGGAGCA GAGAATGATC CGCTGAATAA AAATCGTAAT
GTGTATCTCT TGCCAGCCAC AACTCAGTTT GAAACCAATG GTTCGGCTAC TGCATCCAAT
CGTTCCCTCC AATGGCGCGA AAAAGTGATT GATCCATTGT TTGAGTCGGT ACCTGATCAC
GTGATCATGC AAGCATTTGC AGATCGCTTG GGTTTTGGCC AAGAGCTCTC ACAAAATTAC
AAGATGCTCA ATTCAAAGTT TGCCGGTAAG CAATGGCGTG AACCGCAGAT TGAAGATATC
TTGCGTGAAA TCAATCGCTC CTGCTGGACT ATTGGTTACA CCGGCCAAAC TCCTGAGCGC
TTAAAAGCGC ACATGAGAAT GGTTGCGACA TTTGATCCTA AGACCTTGAA GTCTCGTGGC
GGTGTTGACC CAGTAACTGG TTATGACACC ACTGGTGACT ACTATGGCTT GCCTTGGCCT
TGCTACGGCA CTGCCGCCAT TAAGCATCCA GGCTCACCAA ACCTCTATGA CACTAGTAAA
AGTGTGATGG AGGGTGGTGG TAACTTCCGT GCAAACTTCG GCGTTGAGCG TGATGGTAAG
AGTCTCTTAG CTGCTGATGG CTCTTATTCT AAGGGTTCGG CCATTACAAC TGGTTACCCA
GAGTTCGATC ACGTTCTTGT GAAAAAGCTT GGTTGGTGGG ATCAATTGAC TGACGATGAA
AAGAAACTGG CTGAAGGTAA AAACTGGAAG ACTGACTTGT CTGGTGGTAT TCAGCGTGTT
GTTATGAAGA ATGGATGTCA TCCGTTCGGA AATGCTAAAG CACGTGCAGT CGTATGGAAC
TTCCCGGATC CAATTCCAAT TCACCGTGAA GCGCTTTATA GTACAAACGC TCCGATGATG
CGCAAGTACC CAACGATTGA CGACAAGAAA AACTTCTGGC GTCTACCAAC CCTCTATAAG
ACTGTTCAAA ATCAAAACTT GAACCAGAAG CTATATGAGA AGTTCCCAAT TATTCTGACC
TCTGGTCGTT TGGTTGAGTA CGAGGGTGGT GGTGACGAAA CTCGTTCTAA TCCTTGGCTA
GCAGAACTTC AGCAAGAAAA CTTTGTGGAG ATTAATCCTA AGGCAGCAGC AGATCGCGGA
ATTCAGAATT GGGATTATGT GTGGGTTAAA TCACCGACTG GGGCCAAGAT CAAAGTGCGT
GCTTTAGTTA CTGAGCGTGT AGATCAAGGA ACTGCATTTG TGCCATTCCA CTTCGCTGGC
TGGTGGCAGG GTGAAAACAT TCGTAAGTAC TATCCAGAGG GTGCCGCGCC AGTAGTTCAA
GGTGAGGCAG TCAATACGGC GACTACTTAT GGTTACGACA TGGTGACGAT GATGCAAGAG
ACAAAAACCA CTATGTGCCA AATCGAAAAA TTTGCCTAA
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| Protein sequence | MSLTRKSNTP QSSRSASRLI GSLSRGLKAA VPTMDRRTFL KRSGVGVGAG IAASQLSLVQ
KAVAEPSKAM LDGKGKIEVK RTICTHCSVG CAVDATVENG VWVRQDPVFD SPINMGAHCA
KGAALREHGH GDYRLRYPMK LVDGKYQRIS WDQALTEITA QMKSIREKYS PDAMFFVGSS
KHNNEQSYLL RKWVSFFGTN NTDHQARICH STTVAGVANT WGYGAMTNSY NDMMNSKAAL
YIGSNAAEAH PVSMLMLLHA KENGCKVIVV DPRYTRTAAK SDQYVRIRSG TDIPFLFGVL
YHIFKNGWED KKYINDRVYG MDEIRKEVME KWTPAAVEEA CGVPEAQVYQ VAKTMATNKP
STVVWCMGQT QHTTGNAIVR ASCILQLALG NIGKSGGGTN IFRGHDNVQG ATDVGPNPDS
LPGYYGLAAG AWKHFATVWG VDYEWIKGRY APDMMEKSGT TVSRWVDAVL EKNDMIDQQT
NVKGLFFWGH APNSQTRGLD MKRAMNKLDL LVVVDPFPSA TAAMAAMPGA ENDPLNKNRN
VYLLPATTQF ETNGSATASN RSLQWREKVI DPLFESVPDH VIMQAFADRL GFGQELSQNY
KMLNSKFAGK QWREPQIEDI LREINRSCWT IGYTGQTPER LKAHMRMVAT FDPKTLKSRG
GVDPVTGYDT TGDYYGLPWP CYGTAAIKHP GSPNLYDTSK SVMEGGGNFR ANFGVERDGK
SLLAADGSYS KGSAITTGYP EFDHVLVKKL GWWDQLTDDE KKLAEGKNWK TDLSGGIQRV
VMKNGCHPFG NAKARAVVWN FPDPIPIHRE ALYSTNAPMM RKYPTIDDKK NFWRLPTLYK
TVQNQNLNQK LYEKFPIILT SGRLVEYEGG GDETRSNPWL AELQQENFVE INPKAAADRG
IQNWDYVWVK SPTGAKIKVR ALVTERVDQG TAFVPFHFAG WWQGENIRKY YPEGAAPVVQ
GEAVNTATTY GYDMVTMMQE TKTTMCQIEK FA
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