| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | VEA_001636 |
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| Symbol | |
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| ID | 8555265 |
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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 | Vibrio sp. Ex25 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_013456 |
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| Strand | - |
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| Start bp | 28279 |
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| End bp | 30678 |
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| Gene Length | 2400 bp |
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| Protein Length | 799 aa |
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| Translation table | 11 |
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| GC content | 49% |
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| IMG OID | 646404629 |
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| Product | phosphoenolpyruvate-protein phosphotransferase |
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| Protein accession | YP_003284264 |
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| Protein GI | 262392410 |
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| COG category | [G] Carbohydrate transport and metabolism |
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| COG ID | [COG1080] Phosphoenolpyruvate-protein kinase (PTS system EI component in bacteria) |
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| TIGRFAM ID | [TIGR01003] Phosphotransferase System HPr (HPr) Family
[TIGR01417] phosphoenolpyruvate-protein phosphotransferase
[TIGR02364] dihydroxyacetone kinase, phosphotransfer subunit |
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Plasmid Coverage information |
| Num covering plasmid clones | 15 |
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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 | ATGGTGGGAA TTGTAGTTGT ATCTCATAGT CGTCGCCTTG CTGAAGGGGT GGCCGAACTT
GCCACCCAAA TGACGCAAGG CAAAGCCAAG CTTGCGATTG CTGCGGGGAT TGATGACCCA
GAGAACCCGA TCGGAACCGA TGCCATTGCT GTGATGGAAG CGATTGAGCA GGCACATGAT
CAACAAGGGG TTGTTGTGTT GATGGATCTT GGCAGCGCCC TGCTTAGCAC GGAAATGGCT
CTGGATCTGA TTGATGATCA TGTGAGGGAA AATGTCACCC TTATCTCGGC CCCCATTGTT
GAAGGGACCA TGGCGGCGTC GGTGGCTGCT GCCGCCGGAC TACCTTTATC GACGGTAGTC
GAAGAGGCAC AGAATGCGTT AAGCGTAAAA CGAGAGCACC TTGGCGATCA GCCACTAACA
TCCGCTGAGA TAGCGCCAGT ATTAGAGAAC TTTGAACACG AGCGGACATT TGATTGGGTA
GTGCAAAATC CGCATGGATT ACATGCTCGT CCCGCAGCGG CCATTGTTGG TGCACTCGCG
CCTTTTGACT GCCAATTATG GTTGAAAAAA GGCGAGCGCC GTGTGAACGC TAAAAGCTTA
AACAGCATTG CGAAACTTGG CGTTCGTAGT CAAGAGACGA TCACCTTATG CGCACTTGGA
CCTCAATCCA GTGAAGCAAT CAAGGCATTT GAAGCCTTAG CTAGTGAGCA CTTCGGAGAA
AAAGAGACGG TTGAGCAAGG CATTGTCGAA CCTGAAGAGA GCACGGATAC TCTGCTCGAT
GATATGGCCT CAAGTCAGAT TGAAGGTGCT GTTGTTGGTA TTCGAGTCAA TGACGGTATC
GCAACTGCTC CAGCTGTCCT TTTTACTCAT GAAATGCCAG CTGTGCCTGA ACGTGATTTC
CAAAGTGAAC AAGATGAAAT TGAACGGGTT AAGCGTGCGA TAGGCGTGGT TGTTCAACAT
TTGCAGGAGC AAGCGAAGCA GCCGAAAGGG GAAATATTTT CTGCTCATAG CATGATGCTC
AGTGACCCAG AATTATGGGC ATCGGTCGAG TCGCGAATTC AAACGGGCAT GATAGCCGAG
CAAGCTTGGA TAGAATCACT GCAAACGTTA GCCGAAGAGT TTCGCCAGGC AGAAAGTCAG
TACATGCGGG AACGCGAAGC AGATGTGCAT GATATAGCAC GCCAAGTTAT GGTCGAAATG
ACAGGCGTAA CGCCTAATGC CATCGACATT CAGGAACCGA GTATTTTGTT GGCCCGCGAC
CTGATGCCTT CTGATGTGGC CGGGCTTGAT AAATCGAAAG TGCTTGGTAT CTGTTTGAGT
GAGGGAGGGA AAACCTCTCA CAGTGCGATT CTTGCTCGTG CGATGGGGAT TCCTGCCATC
GTTAAAGCTC AGGGCTGCCT TGATGCTGTG CGTGCTGGTC AAGTGGTGAC TATTGATGGC
TTCCGAGGAC ATTTATGGTT CTCTCCTTCG GATTCCGTAC AGCAGGAATT AGAAGCGCAA
CAAATAGAGT GGCAAAGCAC CCGACAAAGT GCACTAGCGA GTGCTCAGCA AGCCGCAGTC
ACCTGTGATG GCGTCCATAT TCCAGTATTC GCCAATATTG GCGGACCGAA AGATATTGAT
GATGCACTAA CATCAGGCGC TGAGGGCGTT GGTCTATTTC GGACTGAGTT TCTATTTCAA
AACAGTGATG AGTTGCCAAC TGAGGAAGCG CAATATCAAG TCTATCGTGA TATTGCCGCC
GCACTTGGTG ATAAGCCACT TACGATTAGA AGTTTAGATG TTGGCGGTGA CAAGCCTTTA
GCCGCTTATC CTATGCCATC GGAAGATAAT CCATTTTTAG GTTTGAGAGG GGTGCGGTTG
TGCCTTCAAC ATGAGTCATT GTTTACCGCC CAACTTCGAG CCATTCTGAG AGCCTTTTAC
GAGCAACCGA ATATTCAATT GATGATACCG ATGGTGGCTC AGGTTGAAGA AGTGAGAAAA
GTAAAAGCGC TGTTGGCGCA TCAAGCAAAC CAACTCGGCT TGGATGCGAC TCATTTGCCT
GTCGGTATTA TGATTGAGGT ACCCGCCGCG GTATTAAATG CTGATGCGTT AGCACAAGAA
GTCGACTTTT TCTCTATTGG CACCAATGAT TTGACTCAAT ATGTTATGGC TGCCGATCGA
GGCAACGCCG CCGTTGCCGA ATTGGTGAAC TACTTTGAAC CATCGGTACT AAAAGCCATT
GAACTCACGT GTGCAGCAGG CGATCGCGCG GGCATACCGG TCAGTATGTG TGGTGAGATG
GCTGGCGATC CAAATGCTAC AGAAACATTG CTTCGCGTGG GGTTACGAAA ATTCAGCGCC
AGTTCTAGTA TGCTACCGGG ACTAAAAGCG CAGATTCGTC AGTTGTCTGT TGATGTTTAA
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| Protein sequence | MVGIVVVSHS RRLAEGVAEL ATQMTQGKAK LAIAAGIDDP ENPIGTDAIA VMEAIEQAHD
QQGVVVLMDL GSALLSTEMA LDLIDDHVRE NVTLISAPIV EGTMAASVAA AAGLPLSTVV
EEAQNALSVK REHLGDQPLT SAEIAPVLEN FEHERTFDWV VQNPHGLHAR PAAAIVGALA
PFDCQLWLKK GERRVNAKSL NSIAKLGVRS QETITLCALG PQSSEAIKAF EALASEHFGE
KETVEQGIVE PEESTDTLLD DMASSQIEGA VVGIRVNDGI ATAPAVLFTH EMPAVPERDF
QSEQDEIERV KRAIGVVVQH LQEQAKQPKG EIFSAHSMML SDPELWASVE SRIQTGMIAE
QAWIESLQTL AEEFRQAESQ YMREREADVH DIARQVMVEM TGVTPNAIDI QEPSILLARD
LMPSDVAGLD KSKVLGICLS EGGKTSHSAI LARAMGIPAI VKAQGCLDAV RAGQVVTIDG
FRGHLWFSPS DSVQQELEAQ QIEWQSTRQS ALASAQQAAV TCDGVHIPVF ANIGGPKDID
DALTSGAEGV GLFRTEFLFQ NSDELPTEEA QYQVYRDIAA ALGDKPLTIR SLDVGGDKPL
AAYPMPSEDN PFLGLRGVRL CLQHESLFTA QLRAILRAFY EQPNIQLMIP MVAQVEEVRK
VKALLAHQAN QLGLDATHLP VGIMIEVPAA VLNADALAQE VDFFSIGTND LTQYVMAADR
GNAAVAELVN YFEPSVLKAI ELTCAAGDRA GIPVSMCGEM AGDPNATETL LRVGLRKFSA
SSSMLPGLKA QIRQLSVDV
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