Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | OEOE_0261 |
Symbol | |
ID | 4415547 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Oenococcus oeni PSU-1 |
Kingdom | Bacteria |
Replicon accession | NC_008528 |
Strand | + |
Start bp | 248479 |
End bp | 251673 |
Gene Length | 3195 bp |
Protein Length | 1064 aa |
Translation table | 11 |
GC content | 42% |
IMG OID | 639668515 |
Product | carbamoyl-phosphate synthase large subunit |
Protein accession | YP_809908 |
Protein GI | 116490364 |
COG category | [E] Amino acid transport and metabolism [F] Nucleotide transport and metabolism [M] Cell wall/membrane/envelope biogenesis |
COG ID | [COG0458] Carbamoylphosphate synthase large subunit (split gene in MJ) [COG1181] D-alanine-D-alanine ligase and related ATP-grasp enzymes |
TIGRFAM ID | [TIGR01369] carbamoyl-phosphate synthase, large subunit |
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Plasmid Coverage information |
Num covering plasmid clones | 2 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
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Sequence |
Gene sequence | ATGCCAAAAA GAGCTGATAT TAAAAAAATA CTCGTAATCG GTTCCGGGCC AATCATTATT GGACAAGCGG CCGAGTTCGA TTATTCAGGA ACCCAAGCCA GTTTGTCTTT AAGAGAAGAA GGCTATTCGG TGGTTCTCGT TAATTCTAAT CCGGCAACAA TTATGACCGA TACAGAAATT GCCGATCAGG TTTATATCGA ACCGTTAACG CTGCCTTTTA TTAAACGAAT TCTTCGTAAA GAGCGTCCAG ATGCACTGTT GGCAACGATT GGCGGTCAGA CGGCTTTGAA CCTTGCCAAA GAATTGGCCG AGGACGGAAT CTTAGAAGAA CTGAAAATCG AGTTGTTGGG AACCAAACTA AAGGCGATTG AAGCAGCCGA AGACCGGGAA AAATTTAAAC AATTAATGGA AGCCTTAAAA GAACCGGTTC CCGAATCAAG GATTGCCAGA ACGCTTGAAC AAGCTGTGCA TTTTGCCGAT CAAATTGGTT ACCCGATAAT CGTTCGTCCG GCATATACTT TGGGCGGCAC CGGTGGCGAA ATTGTTGAAA ATAGCGAACA ATTAACAGAA GTTGCCAAAA ACGGTTTGGA GTTATCACCG GTTACCCAAG TTTTAATTGA AAAATCAATT GCTGGCTATA AAGAAATAGA ATTTGAAGTT ATGCGTGATG GCAATGATAA CGCTCTGATC GTTGCTTCAA TGGAAAACTT CGATCCAGTT GGTATTCATA CCGTCGATTC GATTGTTGTC TCTCCAGTTC AGACTCTTTC TGATCGGGAA TATCAAATGC TTAGAGATGC TGCTTTAAAA ATTATTCGTG CTTTAAAAAT TGAAGGTGGC GTCAATATTC AACTTGCTTT GGACCCTGAT AGTCTTCGTT ATTACATTAT TGAAGTTAAT CCACGTGTTT CGCGCTCTTC AGCTCTGGCC AGCAAGGCGA CCGGCTATCC GATCGCGAAA ATGGCTGCCA AGATCGCCAT TGGTTTGACT CTGGACGAGA TTGTTAATCC TGTTACCGGA ACAACAAAGG CCGAATTTGA ACCGGCTTTG GATTATGTGG CCGTAAAAAT TCCTCGTTGG CCTTTTGACA AGTTTGCCGA GGCTGACCGA GAACTCGGTA CACAGATGAA GGCGACTGGC GAAGTAATGG CGATCGGCAG AAATTTTGAA ACTGCCTTGA TGAAAGCTAT CCGTTCTTTA GAGATTGGCA CTTTCGCTCT CGATGACTTA ACTTATAGCG ATTTAAGCAA TCAAGATTTG CTCAATCGCT TAATGCCCGC AACCGACGAA CGGCTCTTTA TGGTCGCTGA TTTATTGAGA AGGGGCATCA CGATTGGGCA AATTCACGAG AAAAGTCAAA TTGATGAATT CTTTTTGGAC AAGATTCTGC ATCTAATTGA AATCGAAAAA GAATTAAAAA TGCATGTTCT TGATTTCAAA ATCCTTAAAA TCGCTAAAGA AAACGGTTTT CCCGATGTGA CGATCGCCCG TTATTGGCAG CTTGAAGAAA AAGAACTGCG TCATTTAAGA AAAAAGGAAG ATTTATTTCC TGTTTATAAA ATGGTCGATA CGGTTGCCGG TGAATTTTCT TCAAAAACTC CCTATTATTA TTCAACCTAC GAGTTGGAAA ACGAATCGTT GAAAGAAAAA CGCCCAAGTG TTTTGGTAGT TGGTTCCGGA CCGATCAGAA TCGGTCAAGG AGTTGAATTC GATTACGCCA CCGTTCATTG TGTTAAGGCA ATTCAAAAAG CCGGTTATAA AGCAATTGTA ATTAATTCCA ACCCAGAAAC TGTTTCAACC GATTTTTCCG TTTCCGATAA ACTCTATTTC GAACCATTAA CTTTGGAAGA TGTTTTAAAT GTTATTGATT TGGAAAAACC AATTGGTGTC GTGGTTCAGT TCGGCGGGCA AACAGCGATT AATTTGGCTG GGCGTTTGGA AAATAACGGT GTCAAGCTTT TGGGAACCAG TCTAAAAGAT ATTAATCGAT CTGAGGATCG AGAAGACTTC AATCAGGTAA TTAAAAAACT CGATCTATCC CAACCTTTCG GGAAAACAGC GACGACGGTC ACTCAAGCCT TATCTGTAGC AGAAGAGGTC GGCTATCCAC TTTTGATTCG TCCTTCTTAT GTTCTGGGCG GTCGGGCAAT GGAAATTGTG ACAAATCGCC AAGATCTATC CGACTATATG AAAAGAGCTG TGAAAGTTTC TTTAAAACAT CCGGTTTTAA TTGATTCCTA TTTAACCGGT CGGGAAGCTG AAATCGATCT ATTAAGCGAT GGACAAACGA TTATTGTTCC CGGTATTATG GAGCACATCG AACGGGCCGG TGTCCATTCC GGAGATTCGA TGTCGGTTTA TCCGTCTCAG TATTTGGACC AGAATGTGCA AGAACAGATG TTGGATGCGG CTTTTAAATT AGCCAAAGAA CTTCACACAA TTGGTTTAAT GAATGTTCAA TTTGTGATTC ACGAACAACA GGCCTATGTA ATTGAAGTCA ATCCTCGAGC CTCCAGGACT CTTCCTTTTA TTTCCAAAGC AACCGATCTA CCTTTGGCCC AATTAGCAAC TCGGGTTATG CTTGGTGAAA AATTAGCCGA TCTGGGTTTT AAAAGCGGTT TGATGGCACC CAAAAAACTT GTCTATGTGA AAGCCCTGGT CTTTTCTTTT AATAAATTGC CTAAAGTCGA TTCTTCTTTG GGTCCGGAAA TGAAATCGAC CGGTGAAGTT ATGGGAGTCG ATCGAAATCT GGCCAAGGCT CTTTATAAAG CTTTTGTGGC AGCCGGCTTT AAAGTTCACG AACACGGCAA CGTCCTTTTC ACAATTGCCG ATCGGGATAA AAAAGAAGCA CTTGCTCTAG CAAAACGTTT TGATGAATTA GGTTATGTTC TTTGGGCGAC CGCTGGGACA AGCAGTTTTC TTCATGAAAA CCATTTGCCG GTTAGACAAC TGGGTAAAAT ATCCGAAGAT CAATTGAATC CGGTCACGGC CATGCGCCAG GGCAAATTAC AAATTGTTAT TAATCGATTG AAAACAGACG AACCGCTGGA ATCTGATGGC CGGGCTATCA GAGCAGCCGC GATTGAAAAC GGCGTCCCCC TCTTTACTTC ACTGGATACG GTAGCAGCCT TTTTGCAGGT TCTTGAAAGC AGATCCTTCA ATGTTTCGGC AATTAATAAA GGAGATAAAT CATGA
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Protein sequence | MPKRADIKKI LVIGSGPIII GQAAEFDYSG TQASLSLREE GYSVVLVNSN PATIMTDTEI ADQVYIEPLT LPFIKRILRK ERPDALLATI GGQTALNLAK ELAEDGILEE LKIELLGTKL KAIEAAEDRE KFKQLMEALK EPVPESRIAR TLEQAVHFAD QIGYPIIVRP AYTLGGTGGE IVENSEQLTE VAKNGLELSP VTQVLIEKSI AGYKEIEFEV MRDGNDNALI VASMENFDPV GIHTVDSIVV SPVQTLSDRE YQMLRDAALK IIRALKIEGG VNIQLALDPD SLRYYIIEVN PRVSRSSALA SKATGYPIAK MAAKIAIGLT LDEIVNPVTG TTKAEFEPAL DYVAVKIPRW PFDKFAEADR ELGTQMKATG EVMAIGRNFE TALMKAIRSL EIGTFALDDL TYSDLSNQDL LNRLMPATDE RLFMVADLLR RGITIGQIHE KSQIDEFFLD KILHLIEIEK ELKMHVLDFK ILKIAKENGF PDVTIARYWQ LEEKELRHLR KKEDLFPVYK MVDTVAGEFS SKTPYYYSTY ELENESLKEK RPSVLVVGSG PIRIGQGVEF DYATVHCVKA IQKAGYKAIV INSNPETVST DFSVSDKLYF EPLTLEDVLN VIDLEKPIGV VVQFGGQTAI NLAGRLENNG VKLLGTSLKD INRSEDREDF NQVIKKLDLS QPFGKTATTV TQALSVAEEV GYPLLIRPSY VLGGRAMEIV TNRQDLSDYM KRAVKVSLKH PVLIDSYLTG REAEIDLLSD GQTIIVPGIM EHIERAGVHS GDSMSVYPSQ YLDQNVQEQM LDAAFKLAKE LHTIGLMNVQ FVIHEQQAYV IEVNPRASRT LPFISKATDL PLAQLATRVM LGEKLADLGF KSGLMAPKKL VYVKALVFSF NKLPKVDSSL GPEMKSTGEV MGVDRNLAKA LYKAFVAAGF KVHEHGNVLF TIADRDKKEA LALAKRFDEL GYVLWATAGT SSFLHENHLP VRQLGKISED QLNPVTAMRQ GKLQIVINRL KTDEPLESDG RAIRAAAIEN GVPLFTSLDT VAAFLQVLES RSFNVSAINK GDKS
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