Gene OEOE_0807 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagOEOE_0807 
Symbol 
ID4415867 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameOenococcus oeni PSU-1 
KingdomBacteria 
Replicon accessionNC_008528 
Strand
Start bp753405 
End bp755240 
Gene Length1836 bp 
Protein Length611 aa 
Translation table11 
GC content42% 
IMG OID639669017 
Productstress response membrane GTPase 
Protein accessionYP_810397 
Protein GI116490853 
COG category[T] Signal transduction mechanisms 
COG ID[COG1217] Predicted membrane GTPase involved in stress response 
TIGRFAM ID[TIGR00231] small GTP-binding protein domain
[TIGR00485] translation elongation factor TU
[TIGR01394] GTP-binding protein TypA/BipA 


Plasmid Coverage information

Num covering plasmid clones
Plasmid unclonability p-value0.0319085 
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clonesn/a 
Fosmid unclonability p-valuen/a 
Fosmid Hitchhikern/a 
Fosmid clonabilityn/a 
 

Sequence

Gene sequence
ATGGCAAAAA CGAGAGAAGA TATTAGAAAT ATTGCGATTA TCGCCCATGT TGATCATGGT 
AAGACTACTT TGGTTAACGA AATGCTGAAA CAATCAGATA CTTTTGATTC ACATACGCAA 
ATTGCTGATC GAGCAATGGA TACGAATCCA ATTGAAAAAG AACGTGGAAT TACCATTCTT 
TCAAAAACGA CAGCAATCAG AGTTGGCAAT AAACAGATTA ACATCGTCGA TACACCGGGC 
CATGCCGATT TTGGCGGTGA AGTTGAACGT ATCATGACGA TGGTTGACGG TGTTTTGCTT 
GTCGTTGATG CTTTTGAAGG AACGATGCCA CAAACACGCT TTGTTTTAAA AAAAGCTTTT 
GAACAACATT TGACTCCAAT TGTAATCATT AATAAAGTTG ATCGTCCCGG TGCTCGTCCA 
CAAGAAGTGG TCGATGAGGT TTTGGATTTG TTTATTGAAT TGGGTGCTGA CGATGAGATG 
CTTGATTTCC CAGTTATCTA TGCATCCGCA ATGAATGGGA CAAGCAGCTA CTCGGCTGAT 
ATAAGCAAAC AAGAACATAC AATGAAGCCT ATTTTTGATA CGGTCTTTAA AACAATCCCG 
GCTCCAATCG ATAATTCTGA CGAACCAATG CAGTTCCAAG TTGCTATGCT TGATTACAAT 
GACTTTGTTG GTCGTATCGG AATTGGCCGT GTTGTTCGCG GAACAATCAA AGTCGGCGAT 
AATGTTACTG TTCTAAAACT TGATGGTTCA CATAAAGATT TTCGTGTGAC GAAATTAATG 
GGTTTTTTGG GCTTGAAACG AATTGATATA AATCAGGCCG AAGCAGGAGA TTTGATTGCT 
GTTTCCGGAA TGGAAGAAAT TAATGTCGGT GAAACAGTTG CTGCTTCCAG CCACCCTGAC 
GCTCTGCCTC CGCTGAGAAT CGATCCACCA ACTTTGCAGA TGATTTTTAG AACCAATGAT 
TCGCCCTTTG CCGGTCGGGA AGGAAAATTC GTAACCGCCC GTCAATTGGA AGATCGGTTG 
AAGCAGGAGC TTCATACAGA CGTTTCACTA CGAGTAGAAG ATACGAAAAC ACCTGGTGTC 
TGGACTGTTT CCGGTCGTGG AGAACTACAC CTTTCAATTT TGATCGATAC ATTGCGCCGA 
GAAGGATTTG AGTTGCAGGC TGGTCGTCCA AAGGTTATTT ATCGTGAGAT CGACGGAACG 
CGTTGCGAAC CGTTTGAAGA TGTACAAATC GATACGCCTG AAGAATATAC TGGTTCAATT 
ATTCAATCTT TGTCGGAACG CAAAGGAGAG TTATTGAATA TGGAACCACA GGGTAACGGT 
CAGACGCGTT TACACTTTGT TGCCCCTTCA CGCGGCCTGA TTGGTTATTC TAGCGAGTTT 
TTGAGTTCTA CTCGTGGATA TGGTATCTAT AACCATACAT TCTTGGATTA TCGCCCGGTT 
ATTACCGGAT GGAACCCGGG TCGTCGTAAT GGTACTTTGG TTGCAATTGG TCAGGGAACG 
GTTACGACTT ATGCAATCAT GCAGGTTGAG GATCGCGGTA CTATTTTTGT TGATCCCGGC 
ACCGAGGTTT ACGAGGGTAT GATTGTTGGT GAAAATTCCC GTGAAAATGA TATCTCAGTT 
AACATTACCC GTATGAAAGC GCAAAGTAAC GTCCGTTCTT CAAATAAAGA CCAAACGGCT 
ATTATCAAGA CGCCAACTCA TTTGACTCTT GAAGAGTCGA TCGAGTTCTT GAATGATGAC 
GAATTAGTCG AGGTTACCCC TGAAAATACC CGTCTTCGCA AGATAATTCT GAAGACCAAT 
GAACGTGAAA AAGTAGCTCG TCATCGAAAT AATTAA
 
Protein sequence
MAKTREDIRN IAIIAHVDHG KTTLVNEMLK QSDTFDSHTQ IADRAMDTNP IEKERGITIL 
SKTTAIRVGN KQINIVDTPG HADFGGEVER IMTMVDGVLL VVDAFEGTMP QTRFVLKKAF 
EQHLTPIVII NKVDRPGARP QEVVDEVLDL FIELGADDEM LDFPVIYASA MNGTSSYSAD 
ISKQEHTMKP IFDTVFKTIP APIDNSDEPM QFQVAMLDYN DFVGRIGIGR VVRGTIKVGD 
NVTVLKLDGS HKDFRVTKLM GFLGLKRIDI NQAEAGDLIA VSGMEEINVG ETVAASSHPD 
ALPPLRIDPP TLQMIFRTND SPFAGREGKF VTARQLEDRL KQELHTDVSL RVEDTKTPGV 
WTVSGRGELH LSILIDTLRR EGFELQAGRP KVIYREIDGT RCEPFEDVQI DTPEEYTGSI 
IQSLSERKGE LLNMEPQGNG QTRLHFVAPS RGLIGYSSEF LSSTRGYGIY NHTFLDYRPV 
ITGWNPGRRN GTLVAIGQGT VTTYAIMQVE DRGTIFVDPG TEVYEGMIVG ENSRENDISV 
NITRMKAQSN VRSSNKDQTA IIKTPTHLTL EESIEFLNDD ELVEVTPENT RLRKIILKTN 
EREKVARHRN N