Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | TC0386 |
Symbol | groEL |
ID | 1245738 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Chlamydia muridarum Nigg |
Kingdom | Bacteria |
Replicon accession | NC_002620 |
Strand | - |
Start bp | 447159 |
End bp | 448793 |
Gene Length | 1635 bp |
Protein Length | 544 aa |
Translation table | 11 |
GC content | 41% |
IMG OID | 637061185 |
Product | chaperonin GroEL |
Protein accession | NP_296764 |
Protein GI | 15835005 |
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 | 1 |
Plasmid unclonability p-value | 0.0411403 |
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 | ATGGTCGCTA AAAATATTAA ATATAACGAA GAAGCCAGAA AAAAAATTCA AAAAGGAGTT AAGACTCTAG CTGAGGCTGT AAAAGTCACT CTGGGGCCTA AAGGAAGACA TGTTGTCATA GACAAAAGCT TTGGTTCTCC TCAAGTAACC AAAGACGGAG TTACTGTTGC AAAAGAAGTT GAGCTCGCCG ATAAGCATGA AAATATGGGC GCTCAAATGG TTAAAGAAGT CGCTAGTAAA ACTGCTGACA AAGCTGGGGA TGGAACCACA ACAGCCACTG TTCTTGCCGA AGCTATCTAT ACAGAAGGGT TACGTAATGT AACAGCTGGA GCAAACCCAA TGGACCTCAA AAGAGGTATC GATAAAGCTG TTAAAGTCGT TGTAGATCAA ATTAAAAAAA TTAGCAAACC CGTTCAACAT CACAAAGAAA TTGCTCAAGT AGCCACTATT TCTGCAAACA ATGATGCAGA AATTGGTAAT CTTATTGCAG AAGCAATGGA AAAAGTTGGT AAAAACGGAT CTATTACTGT TGAAGAAGCC AAAGGATTCG AAACAGTCTT AGATGTCGTT GAGGGAATGA ATTTCAATAG AGGATATCTC TCTAGCTATT TTGCAACGAA TCCAGAAACT CAAGAATGTG TATTAGAAGA CGCTCTTGTT TTGATTTACG ACAAAAAAAT ATCTGGAATT AAAGATTTCC TCCCTGTTTT ACAACAAGTT GCGGAATCAG GCCGTCCTCT TCTTATTATA GCAGAAGACA TCGAGGGAGA AGCTTTGGCG ACATTGGTTG TTAACCGAAT TCGCGGAGGA TTCAGAGTTT GTGCTGTTAA AGCTCCTGGG TTTGGAGATA GAAGAAAAGC TATGCTGGAA GACATCGCTA TTTTAACTGG CGGTCAGCTT ATCAGCGAAG AATTGGGTAT GAAATTAGAA AATGCTAGCT TAGCAATGCT TGGTAAAGCT AAGAAAGTTA TCGTTTCTAA AGAAGACACG ACTATTGTTG AAGGAATGGG CGAAAAAGAA GCTTTGGACG CTCGTTGCGA AAGCATTAAA AAACAAATTG AAGACAGCAC TTCCGATTAC GACAAGGAAA AACTCCAAGA ACGTCTTGCT AAACTTTCTG GCGGCGTAGC GGTCATCCGC GTTGGAGCAG CAACAGAAAT CGAAATGAAA GAGAAAAAGG ATCGTGTAGA CGATGCTCAA CATGCCACAA TCGCTGCTGT TGAAGAAGGA ATTCTTCCTG GCGGTGGAAC AGCATTAATT CGTTGCATTC CAACTCTTGA AGCTTTCTTG CCTATGTTGA CAAATGAAGA TGAGCGAATT GGAGCCCGTA TTGTTTTGAA AGCTCTCTCT GCTCCTTTGA AACAAATTGC AGCAAATGCA GGAAAAGAAG GTGCTATTAT CTTCCAACAA GTAATGTCCC GTTCTGCAAA TGAAGGATAC GATGCTCTAC GTGATGCCTA TACAGACATG ATAGAAGCTG GTATCTTGGA TCCTGCTAAG GTTACTCGTT CCGCTTTGGA AAGTGCAGCA TCTGTAGCTG GTCTACTATT GACAACAGAA GCTCTCATTG CAGAAATTCC AGAAGAAAAA CCTGCTGCAG CTCCAGCAAT GCCTGGTGCA GGAATGGATT ATTAA
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Protein sequence | MVAKNIKYNE EARKKIQKGV KTLAEAVKVT LGPKGRHVVI DKSFGSPQVT KDGVTVAKEV ELADKHENMG AQMVKEVASK TADKAGDGTT TATVLAEAIY TEGLRNVTAG ANPMDLKRGI DKAVKVVVDQ IKKISKPVQH HKEIAQVATI SANNDAEIGN LIAEAMEKVG KNGSITVEEA KGFETVLDVV EGMNFNRGYL SSYFATNPET QECVLEDALV LIYDKKISGI KDFLPVLQQV AESGRPLLII AEDIEGEALA TLVVNRIRGG FRVCAVKAPG FGDRRKAMLE DIAILTGGQL ISEELGMKLE NASLAMLGKA KKVIVSKEDT TIVEGMGEKE ALDARCESIK KQIEDSTSDY DKEKLQERLA KLSGGVAVIR VGAATEIEMK EKKDRVDDAQ HATIAAVEEG ILPGGGTALI RCIPTLEAFL PMLTNEDERI GARIVLKALS APLKQIAANA GKEGAIIFQQ VMSRSANEGY DALRDAYTDM IEAGILDPAK VTRSALESAA SVAGLLLTTE ALIAEIPEEK PAAAPAMPGA GMDY
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