Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Psyr_0518 |
Symbol | aceE |
ID | 3365994 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Pseudomonas syringae pv. syringae B728a |
Kingdom | Bacteria |
Replicon accession | NC_007005 |
Strand | - |
Start bp | 576281 |
End bp | 578926 |
Gene Length | 2646 bp |
Protein Length | 881 aa |
Translation table | 11 |
GC content | 60% |
IMG OID | 637650858 |
Product | pyruvate dehydrogenase subunit E1 |
Protein accession | YP_233626 |
Protein GI | 66043785 |
COG category | [C] Energy production and conversion |
COG ID | [COG2609] Pyruvate dehydrogenase complex, dehydrogenase (E1) component |
TIGRFAM ID | [TIGR00759] pyruvate dehydrogenase E1 component, homodimeric type |
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Plasmid Coverage information |
Num covering plasmid clones | 11 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 23 |
Fosmid unclonability p-value | 1 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGCAAGACC TCGATCCCGT CGAAACCCAG GAATGGCTGG ACGCCCTGGA ATCGGTTCTC GACAAAGAAG GCGAAGACCG CGCTCACTAC CTGATGACCC GTTTGGGCGA GCTGGCCACC CGTAGTGGTT CGCAGCTGCC GTACGCCATC ACCACGCCAT ATCGCAACAC CATTCCTGTC ACCCACGAAG CACGCATGCC TGGCGACCTG TTCATGGAAC GCCGCATTCG CTCGCTGGTG CGCTGGAACG CATTGGCCAT GGTTGTCAAA ACCAACATCG GCGACCCGGA TCTGGGCGGC CACATCTCCA GCTTCGCCTC CAGCGCCACG CTGTACGACA TCGGCTTCAA CTACTTCTTC CAGGCCCCGA CCGACGAACA CGGCGGCGAC CTGATCTACT TCCAGGGTCA CGCATCGCCA GGCGTTTACG CCCGTGCGTT CATGGAAGGC CGCATCACCG AAGAGCAAAT GACCAACTTC CGTCAGGAAG TCGACGGCAA TGGCCTGTCT TCTTACCCAC ACCCGTGGCT GATGAAGGAT TTCTGGCAGT TCCCGACTGT ATCGATGGGC CTTGGCCCGA TCCAGGCGAT CTACCAGGCG CGCTTCATGA AGTACCTGGA ACACCGCGGT TACATCCCGG AAGGCAAGCA GAAAGTCTGG TGCTTCCTGG GTGACGGCGA GACCGACGAG CCGGAATCCC TGGGCGCCAT CGCCCTGGCC GGTCGCGAGA AGCTCGACAA CCTGATCTTC GTCGTCAACT GCAACCTGCA GCGCCTCGAC GGCCCGGTTC GCGGCAACGC CAAGATCATC CAGGAACTCG AAGGCGTGTT CCGTGGCGCT CAATGGAACG TCACCAAAGT CATCTGGGGC CGTTTCTGGG ACCCACTGCT GGCCAAGGAC GTCGACGGTA TCCTGCAACG TCGCATGGAC GAAGTCATCG ACGGCGAATA CCAGAACTAC AAGGCCAAGG ACGGCGCGTT CGTCCGCGAG CACTTCTTCA ACTCGCCTGA ACTCAAGGCC ATGGTTGCCG ATCTGTCCGA CGACGAGATC TGGAAACTCA ACCGTGGCGG CCACGACCCG TACAAGGTCT ATGCGGCCTA CCACGAAGCC GTCAACCACA AGGGTCAACC GACCGTGGTT CTGGCCAAGA CCATCAAGGG TTATGGCACC GGCGCCGGTG AAGCGAAAAA CACTGCGCAC AACACCAAAA AGGTCGATGT CGACAGCCTG CGTCACTTCC GTGACCGCTT CGACATCCCG GTCAAGGACT CCGAACTCGA AGCCCTGCCG TTCTACAAGC CGGAAGAAGG CAGCGCCGAA GCCCGTTACC TGAGCGAGCG TCGTGCTGCG CTGGGTGGTT TCGTGCCGCA GCGTCGTGCG CAGAGCTTCA GCCTGCCGAC CCCGCCACTC GAGACCCTCA AGGCCATCCT GGATGGCTCG GGCGATCGCG AAATCTCCAC CACCATGGCC TTCGTGCGCA TCCTGACGCA ACTGGTCAAG GACAAGGAAA TCGGTCAGCG CATCGTGCCG ATCATCCCGG ACGAAGCGCG TACCTTCGGT ATGGAAGGCA TGTTCCGCCA ACTGGGCATC TACTCGTCGG TCGGCCAGCT CTACGAGCCA GTCGATAAAG AACAGGTGAT GTTCTATCGC GAAGACAAGA AAGGCCAGAT CCTCGAAGAA GGCATCAACG AAGCGGGCGC CATGTCCTCC TTCATCGCTG CCGGTACTTC GTATTCCAGC CACAACCAGC CGATGATTCC GTTCTACATC TTCTACTCGA TGTTCGGTTT CCAGCGTATC GGCGACCTGG CCTGGGCCGC TGGCGACAGC CGTACCCGTG GCTTCCTGAT TGGCGGCACC GCCGGCCGTA CCACGCTGAA CGGTGAAGGC CTGCAGCACG AAGACGGTCA CAGCCACATC CTGGCATCGA CCATCCCGAA CTGCCGCACC TTCGACCCGA CTTACGGTTA TGAACTGGCA GTGATCATCC AGGACGGCAT GCGCCGGATG TTCGAAGAGC AGCAGGACGT TTTCTACTAC CTGACCGTGA TGAACGAGTC CTACGCCCAG CCAGCCATGC CGGCCGGTGT GGAAGAAGGC ATCGTCAAGG GCATGTACCT GCTCGAAGAA GACACCAAGG AAGCGGCGCA CCACGTCCAG TTGCTGGGCT CGGGCACCAT CCTGCGTGAA GTCCGCGAAG CGGCGAAGAT TCTCCGTGAC GAGTTCAACA TCGGTGCCGA CGTGTGGAGC GTCACCAGCT TCAACGAGCT GCGTCGCGAC GGTCTGGCTG CAGAGCGCAA CAACCGCCTG CACCCTGGCC AGAAGCCGCA GCTGAGCTAT GTCGAGGAAT GCCTGAACGG TCGCAAAGGT CCGGTCATCG CATCGACGGA TTACATGAAG CTGTTCGCTG ATCAGATTCG TCAGTGGGTT CCAACCAAGG AATACAAAGT CCTGGGCACC GACGGTTTCG GCCGTAGCGA CAGCCGCAAG AAGCTGCGTC ACTTCTTTGA AGTCGATCGT CACTTCGTGG TGCTGGCAGC CCTGGAAGCC TTGGCTGATC GTGGCGATAT CGAACCTAAA GTCGTGGCGG AAGCCATCGC CAAGTTCGGT ATCGATCCTG AAAAACGCAA TCCACTGGAC TGTTAA
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Protein sequence | MQDLDPVETQ EWLDALESVL DKEGEDRAHY LMTRLGELAT RSGSQLPYAI TTPYRNTIPV THEARMPGDL FMERRIRSLV RWNALAMVVK TNIGDPDLGG HISSFASSAT LYDIGFNYFF QAPTDEHGGD LIYFQGHASP GVYARAFMEG RITEEQMTNF RQEVDGNGLS SYPHPWLMKD FWQFPTVSMG LGPIQAIYQA RFMKYLEHRG YIPEGKQKVW CFLGDGETDE PESLGAIALA GREKLDNLIF VVNCNLQRLD GPVRGNAKII QELEGVFRGA QWNVTKVIWG RFWDPLLAKD VDGILQRRMD EVIDGEYQNY KAKDGAFVRE HFFNSPELKA MVADLSDDEI WKLNRGGHDP YKVYAAYHEA VNHKGQPTVV LAKTIKGYGT GAGEAKNTAH NTKKVDVDSL RHFRDRFDIP VKDSELEALP FYKPEEGSAE ARYLSERRAA LGGFVPQRRA QSFSLPTPPL ETLKAILDGS GDREISTTMA FVRILTQLVK DKEIGQRIVP IIPDEARTFG MEGMFRQLGI YSSVGQLYEP VDKEQVMFYR EDKKGQILEE GINEAGAMSS FIAAGTSYSS HNQPMIPFYI FYSMFGFQRI GDLAWAAGDS RTRGFLIGGT AGRTTLNGEG LQHEDGHSHI LASTIPNCRT FDPTYGYELA VIIQDGMRRM FEEQQDVFYY LTVMNESYAQ PAMPAGVEEG IVKGMYLLEE DTKEAAHHVQ LLGSGTILRE VREAAKILRD EFNIGADVWS VTSFNELRRD GLAAERNNRL HPGQKPQLSY VEECLNGRKG PVIASTDYMK LFADQIRQWV PTKEYKVLGT DGFGRSDSRK KLRHFFEVDR HFVVLAALEA LADRGDIEPK VVAEAIAKFG IDPEKRNPLD C
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