Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | XfasM23_1623 |
Symbol | groEL |
ID | 6202745 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Xylella fastidiosa M23 |
Kingdom | Bacteria |
Replicon accession | NC_010577 |
Strand | + |
Start bp | 1798709 |
End bp | 1800352 |
Gene Length | 1644 bp |
Protein Length | 547 aa |
Translation table | 11 |
GC content | 52% |
IMG OID | 641703136 |
Product | chaperonin GroEL |
Protein accession | YP_001830305 |
Protein GI | 182682145 |
COG category | [O] Posttranslational modification, protein turnover, chaperones |
COG ID | [COG0459] Chaperonin GroEL (HSP60 family) |
TIGRFAM ID | [TIGR02348] chaperonin GroL |
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Plasmid Coverage information |
Num covering plasmid clones | 19 |
Plasmid unclonability p-value | 0.757187 |
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 | ATGGCTGCCA AAGAAATTAT TTTCAGTGAA AAAGCCCGTT CACGTATGGT GCACGGGGTG AACCTGCTTG CTAATGCAGT GAAAGCCACC TTAGGTCCCA AAGGCCGCCA CGTAGTGCTT GATAAGAGCT TCGGCTCCCC AATCATTACT AAAGACGGCG TCTCTGTCGC CAAAGAGATT GAGTTGGCCG ACAAGTTTGA AAACATGGGC GCACAAATGC TTAAAGAAGT TGCGTCCAAA ACAAATGACC ATGCAGGCGA CGGCACCACC ACTGCAACGG TACTAGCCCA GGCGTTGATC CGTGAAGGAT GCAAAGCAGT GGCCGCTGGT ATGAATCCAA TGGATCTTAA GCGTGGTATC GATAAAGCAG TCATTGCCGC GGTTACCGAA CTGAAGAAGA TCTCCAAGCC AACCAGCGAC GATAAAGCCA TTGCCCAAGT CGCAACCATC TCTGCTAACT CAGACGAGTC TATCGGCAAC ATTATTGCCG AAGCAATGAA GAAGGTCGGT AAAGAAGGAG TGATTACCAT TGAGGAAGGC ACAACTCTAG AAAACGAATT GGATGTCGTC GAAGGGATGC AGTTTGACCG TGGTTACTCT TCGCCATATT TCATCAACAA CCAGCAGTCC CAAATTGTTG AGCTGGATAA TCCCTACATC CTCCTTCACG ACAAGAAAAT TTCCAGTGTG CGCGATTTAC TCACCGTGCT TGACGCCGTC GCCAAAGAAA GCAAGCCGTT GCTGATCGTC GCTGAGGAAG TCGAAGGCGA AGCTTTGGCA ACTCTGGTCG TTAACAACAT CCGCGGCATC ATCAAAGTCT GCGCAGTCAA AGCACCTGGC TTCGGTGATC GTCGCAAAGC CATGCTGGAA GATATGGCTG TGCTGACAGG CGGCACCGTC ATCTCGGAAG AAGTAGGTCT GTCTCTGGAA AAGGCCACGA CCAGCCATCT TGGCAAGGCC AAGAAAGTAC GCGTCTCTAA AGAAAACACC ACCATTATTG ATGGTATGGG TGACAACGAT GCGATCAATG GTCGCGTCAA GCAAATCAAG ACCCAGATCG AGGAAACCAC CTCGGACTAC GACCGCGAAA AACTGCAGGA ACGTGTAGCC AAGCTCGCCG GTGGTGTAGC CGTCATCAAG GTCGGTGCTG CAACCGAAGT GGAAATGAAG GAAAAGAAAG CACGTGTTGA TGATGCTTTA CTTGCAACCC GTGCAGCCGT TGAAGAAGGA GTGATTCCAG GTGGCGGCGT GGCCCTGATA CGTGCAATCA CGGCAATCAG CAATCTGAAG GGTGCCAATG AAGACCAGAC ACACGGCATT CAAATCGCAT TGCGCGCTAT GGAGGCACCA TTACGCGAAA TTGTTGCCAA CGCCGGTGAA GAGCCATCGG TCATCTTAAA TAAGGTGAAA GAAGGCAAGG ACAATTTTGG CTACAACGCC GCTACTGGCG AATTCGGCGA TATGGTCAAC CTTGGCATCC TGGACCCAAC CAAGGTCACC CGTTCAGCAC TCCAGAACGC TGCTTCAATC GCTGGCCTGA TGATCACCAC AGAAGCAATG GTCGCCGAGG CTCCGAAGAA AGACGAGCCA ACCCCACCTG CTGCTGGTGG CGGCATGGGC GGTATGGGCG GTATGGATTT CTAA
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Protein sequence | MAAKEIIFSE KARSRMVHGV NLLANAVKAT LGPKGRHVVL DKSFGSPIIT KDGVSVAKEI ELADKFENMG AQMLKEVASK TNDHAGDGTT TATVLAQALI REGCKAVAAG MNPMDLKRGI DKAVIAAVTE LKKISKPTSD DKAIAQVATI SANSDESIGN IIAEAMKKVG KEGVITIEEG TTLENELDVV EGMQFDRGYS SPYFINNQQS QIVELDNPYI LLHDKKISSV RDLLTVLDAV AKESKPLLIV AEEVEGEALA TLVVNNIRGI IKVCAVKAPG FGDRRKAMLE DMAVLTGGTV ISEEVGLSLE KATTSHLGKA KKVRVSKENT TIIDGMGDND AINGRVKQIK TQIEETTSDY DREKLQERVA KLAGGVAVIK VGAATEVEMK EKKARVDDAL LATRAAVEEG VIPGGGVALI RAITAISNLK GANEDQTHGI QIALRAMEAP LREIVANAGE EPSVILNKVK EGKDNFGYNA ATGEFGDMVN LGILDPTKVT RSALQNAASI AGLMITTEAM VAEAPKKDEP TPPAAGGGMG GMGGMDF
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