Gene Ent638_0908 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagEnt638_0908 
Symbol 
ID5111097 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameEnterobacter sp. 638 
KingdomBacteria 
Replicon accessionNC_009436 
Strand
Start bp1010260 
End bp1012134 
Gene Length1875 bp 
Protein Length624 aa 
Translation table11 
GC content53% 
IMG OID640491084 
Productpeptidyl-prolyl cis-trans isomerase (rotamase D) 
Protein accessionYP_001175643 
Protein GI146310569 
COG category[O] Posttranslational modification, protein turnover, chaperones 
COG ID[COG0760] Parvulin-like peptidyl-prolyl isomerase 
TIGRFAM ID 


Plasmid Coverage information

Num covering plasmid clones11 
Plasmid unclonability p-value0.44905 
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clones28 
Fosmid unclonability p-value
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGATGGACA GCTTACGCAC GGCTGCTAAC AGTCTCGTGC TCAAGATTAT TTTCGGTATC 
ATTATCCTGT CATTCATTTT GACCGGCGTG AGTGGATACC TGATTGGCGG TAGCAGCAAC 
TACGCCGCTG AAGTGAATGG CCAGGAAATT AGCCGCGGGC AGTTCGAAAA TGCCTTTGCC 
GGGGAACGTA ATCGCATGCA GCAGCAGCTC GGCGACCAGT TTTCTGAGCT TGCAGCAAAC 
GAAGGCTACA TGAAAACCTT ACGCCAGCAG ACGGTAAATC GCCTTATCGA CGAAGCGCTG 
TTGGATCAAT ACGCCAAACG TTTGGGTCTG GGCATCAGCG ATGATCAGGT CAAAAAAGCC 
ATTTTCTCCA CGCAGGCTTT CCAGACAAAC GGCAAATTCG ACAACACCCG CTATAACGCT 
ATCGTCAACC AGATGGGGAT GACGGCGGAT CAGTATGCGC AGGCTCTGCG TAATCAGCTG 
ACTTCTCAGC AACTGATCAA CGCAGTAGTG GGTACCGATT TCATGCTCAA AGGCGAAACC 
GACGAGCTGG CGGCCTTGGT GTCACAGCAG CGTGTAGTGC GTGCAGCCAC GATTGACGTG 
AATGCCCTGG CGGCAAAACA GCAGGCCAGC GACGAAGAAG TTAAAGCTTA TTATGAGCAG 
AATAAAAACA ACTTCACCGC ACCTGAGCAG TTCCGCGTGA GCTATATCAA GCTGGACGCG 
GCGACCATGC CGGAAACCGC TTCTGACAGC GATATTCAGT CCTACTACGA CCAGCATCAG 
GATCAGTTCA CTCAGGCGCA GCGTAACCGT TACAGCGTGA TTCAGACGAA AACGGAAGCC 
GACGCGAAGG CTGTCGTTGA CGAACTCGCT AAAGGCGCAG ATTTTGCGAC CGTGGCGAAA 
GCAAAATCCA CCGACATCAT CTCTGCAAAA AATGGCGGTG ATATGGGTTG GCTGGAAGAT 
GCCACCACGC CAGAAGAGCT GAAAAACGCG GGCCTGAAAG AAAAAGGCCA ACTGTCCGGT 
GTCATTAAAT CCTCCGTTGG TTTCCTGGTT GTGCGTTTGG ATGATATCCA GCCTGCGAAA 
ACCAAACCGC TGGCTGAGGT TCGTGATGAT ATCGCGGCGA AAGTGAAGCA GGAAAAAGCG 
CTGGACGCCT ACTATGCGCT GCAGCAGAAA GTGAGCGACG CTGCGAGCAA TGACAACGAA 
TCTCTGGCGG GTGCTGAGCA AGCCGCGGGT GTTAAAGCCG TTGTGACCGG TTGGTTTGGG 
CATGATAACT TGCCGGAGGA ACTGAACTTC AAACCGGTTT CTGATGCCAT CTTCAACGGT 
GGTCTGTTAG GTGACAACGG TACGCCGGGC AACAACTCTG ACATCATCAC GGTCGACGGC 
GATCGCGCCT TTGTGCTTCG TGTTACCGAA CATAAAGCAG AAGCCATTAA ACCGCTGGAA 
GACGTCAAAG ATCAGATTGC TACTCTGGTG AAACACACCA AAGCGGAACA GCAGGCGAAG 
CTTGATGCTG AAAAACTGCT GGCTGAACTG AAAGCAGGCA AGGGTGACGC AGCGCTGAAA 
GCGGCGGGTC TGAGCTTCGG TGAAGCAAAA ACCTTAAGCC GTACCGGTCA GGACCCAATC 
AGTCAGGCGG CGTTTGGCCT GAGTCTGCCA GCGAAAGATA AGCCTAGCTA TGGCACCGCA 
TCCGACATGC AGGGCAACAT CGTTGTGCTG GCGCTGGATG AAGTGAAAGC AGGCACAATG 
CCGGATGAGC AGAAAAAGGC GATGGTTCAG GGTATCACTC AGAACAACGC TCAGATCGCT 
TTCGAAGCAT TGATGAGTAA CCTGCGTAAA GAAGCGAAAA TCAAGCTGGG CGATATCATC 
ACTCAGCAGC AGTAA
 
Protein sequence
MMDSLRTAAN SLVLKIIFGI IILSFILTGV SGYLIGGSSN YAAEVNGQEI SRGQFENAFA 
GERNRMQQQL GDQFSELAAN EGYMKTLRQQ TVNRLIDEAL LDQYAKRLGL GISDDQVKKA 
IFSTQAFQTN GKFDNTRYNA IVNQMGMTAD QYAQALRNQL TSQQLINAVV GTDFMLKGET 
DELAALVSQQ RVVRAATIDV NALAAKQQAS DEEVKAYYEQ NKNNFTAPEQ FRVSYIKLDA 
ATMPETASDS DIQSYYDQHQ DQFTQAQRNR YSVIQTKTEA DAKAVVDELA KGADFATVAK 
AKSTDIISAK NGGDMGWLED ATTPEELKNA GLKEKGQLSG VIKSSVGFLV VRLDDIQPAK 
TKPLAEVRDD IAAKVKQEKA LDAYYALQQK VSDAASNDNE SLAGAEQAAG VKAVVTGWFG 
HDNLPEELNF KPVSDAIFNG GLLGDNGTPG NNSDIITVDG DRAFVLRVTE HKAEAIKPLE 
DVKDQIATLV KHTKAEQQAK LDAEKLLAEL KAGKGDAALK AAGLSFGEAK TLSRTGQDPI 
SQAAFGLSLP AKDKPSYGTA SDMQGNIVVL ALDEVKAGTM PDEQKKAMVQ GITQNNAQIA 
FEALMSNLRK EAKIKLGDII TQQQ