Gene LACR_2298 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagLACR_2298 
Symbol 
ID4432335 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameLactococcus lactis subsp. cremoris SK11 
KingdomBacteria 
Replicon accessionNC_008527 
Strand
Start bp2146553 
End bp2148394 
Gene Length1842 bp 
Protein Length613 aa 
Translation table11 
GC content40% 
IMG OID639667981 
Productmembrane GTPase for stress response 
Protein accessionYP_811867 
Protein GI116512960 
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-value
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
ATGATAAAAT TGACTAAATT ACGCGAAGAT ATTAGAAACG TCGCTATTAT TGCCCACGTT 
GACCACGGTA AAACTACATT GGTTGACGAA CTCTTAAAAC AATCTCAAAC GTTGGATGCT 
CGTAAAGAAT TGGCTGAACG TGCGATGGAC TCAAATGCAC TTGAGCAAGA ACGTGGGATT 
ACTATCCTTG CCAAAAATAC AGCAGTTGAA TATAACGGAA CTCGTATCAA CATCTTGGAC 
ACACCAGGTC ACGCGGACTT CGGTGGAGAA GTTGAACGTA TTATGAAAAT GGTTGATGGG 
GTTGTCCTCG TTGTCGATGC TTATGAAGGA ACAATGCCTC AAACACGTTT TGTTTTGAAA 
AAAGCTTTGG AACAAAACTT GACGCCTATC GTTGTTGTTA ATAAGATTGA CAAACCATCT 
GCTCGTCCAG CTGAAGTTGT TGATGAAGTT CTTGAACTTT TCATCGAACT TGGTGCTGAT 
GACGAACAAT TGGATTTCCC AGTTGTTTAC GCTTCAGCAA TCAACGGTTC TTCATCAATG 
TCTGATAATC CAGCTGATCA AGAACACACA ATGGCAAATA TTTTTGATAC AATCATCGAC 
CATATCCCTG GTCCAGTTGA TAACTCTGAT GAACCTTTGC AATTCCAAGT TTCACTTTTG 
GACTACAATG ACTATGTTGG ACGTATCGGT ATCGGTCGTG TTTTCCGTGG AACAATCAAA 
GTTGGAGACA GCGTTACTTT GTCTAAACTT GATGGAACAA CTAAAAACTT CCGCGTAACT 
AAACTTTTTG GTTTCTTCGG TCTTGATCGT CAAGAAATCC AAGAAGCAAA AGCTGGTGAT 
TTGATTGCTT TATCTGGTAT GGAAGATATC TTCGTTGGTG AAACTGTTAC ACCTTCAGAT 
CACGTAGAAC CATTGCCAAT CTTGCACATT GACGAACCTA CTTTGCAAAT GACTTTCCTT 
GCTAATAACT CTCCTTTCGC TGGTCGCGAA GGAAAATGGG TAACATCACG TAAAGTTGAA 
GAACGTTTGG TTTCTGAATT GCAAACTGAC GTTTCACTTC GTGTTGAAAA TACTGAATCT 
CCTGATAAAT GGGTTGTTTC TGGTCGTGGT GAATTGCATT TGTCAATCCT TATTGAAACA 
ATGCGTCGTG AAGGATATGA ACTTCAAGTT TCACGTCCTG AAGTTATCAT CAAAGAAGTT 
GATGGTGTAG CTTGCGAACC ATTTGAACGT GTTCAAATCG ATACTCCTGA AGAATACCAA 
GGTTCAATCA TCCAAGCGCT CTCTGAACGT AAAGGAGACA TGCTTGATAT GCAAGTTACT 
GGTAACGGTC AAGCACGTTT GATTTTCCTT GTTCCTGCAC GTGGTTTGAT TGGATTCACA 
ACAGAATTCA TGTCAATGAC TCGTGGATAC GGAATCATGA ACCATACATT CGACCAATAT 
CTTCCAGCTG TTAAGGGAGA AATCGGTGGA CGTCACCGTG GTTCTTTGAT TTCTATGGAC 
TCTGGTCAAG TAACTCCATA TGCTATGGGT TATGTTCAAG AACGTGGACA ACTTTTTGTT 
GACGCTGGTA CTGAAGTTTA TGGTGGGATG ATTGTTGGTG AACACAGCCG TGATAATGAT 
TTGACTGTAA ACATCACTAA AATGAAACAA CAAACAAACG TCCGTTCTTC AAATAAAGAC 
TCTACATCTG TTTTGAACAC TCCAAAAATC CTTTCACTTG AAGAATCTTT GGAATTCCTC 
GGTGATGATG ATTACTTGGA AGTAACTCCT GAATCAATCC GCTTGCGTAA ACAAATCTTG 
GACAAAGCAA TGCGTGAAAA ATCAACTAAG AAGAAAAAAT AA
 
Protein sequence
MIKLTKLRED IRNVAIIAHV DHGKTTLVDE LLKQSQTLDA RKELAERAMD SNALEQERGI 
TILAKNTAVE YNGTRINILD TPGHADFGGE VERIMKMVDG VVLVVDAYEG TMPQTRFVLK 
KALEQNLTPI VVVNKIDKPS ARPAEVVDEV LELFIELGAD DEQLDFPVVY ASAINGSSSM 
SDNPADQEHT MANIFDTIID HIPGPVDNSD EPLQFQVSLL DYNDYVGRIG IGRVFRGTIK 
VGDSVTLSKL DGTTKNFRVT KLFGFFGLDR QEIQEAKAGD LIALSGMEDI FVGETVTPSD 
HVEPLPILHI DEPTLQMTFL ANNSPFAGRE GKWVTSRKVE ERLVSELQTD VSLRVENTES 
PDKWVVSGRG ELHLSILIET MRREGYELQV SRPEVIIKEV DGVACEPFER VQIDTPEEYQ 
GSIIQALSER KGDMLDMQVT GNGQARLIFL VPARGLIGFT TEFMSMTRGY GIMNHTFDQY 
LPAVKGEIGG RHRGSLISMD SGQVTPYAMG YVQERGQLFV DAGTEVYGGM IVGEHSRDND 
LTVNITKMKQ QTNVRSSNKD STSVLNTPKI LSLEESLEFL GDDDYLEVTP ESIRLRKQIL 
DKAMREKSTK KKK