Gene Gmet_2393 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagGmet_2393 
Symbol 
ID3740431 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameGeobacter metallireducens GS-15 
KingdomBacteria 
Replicon accessionNC_007517 
Strand
Start bp2703062 
End bp2704921 
Gene Length1860 bp 
Protein Length619 aa 
Translation table11 
GC content58% 
IMG OID637779685 
ProductFtsH peptidase 
Protein accessionYP_385343 
Protein GI78223596 
COG category[O] Posttranslational modification, protein turnover, chaperones 
COG ID[COG0465] ATP-dependent Zn proteases 
TIGRFAM ID[TIGR01241] ATP-dependent metalloprotease FtsH 


Plasmid Coverage information

Num covering plasmid clones10 
Plasmid unclonability p-value0.00023499 
Plasmid hitchhikingYes 
Plasmid clonabilityhitchhiker 
 

Fosmid Coverage information

Num covering fosmid clones61 
Fosmid unclonability p-value
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGGGGCAGT CTGTCTGGAA ACCACTGATA TTGGTATTTG TACTCATTAT TGTATTCAAC 
TTTGTCTATG GATACTTCGC CCGGCAGACT GCCGAGGGTG GGGTTTCCAT TTCGTATAGT 
CGTTTCAAGG ATGAATTGGC CGCTGACAAC ATCAAGAAGA TTAGCCTTAA GGGCAATTCG 
ATCAGCGGAG AGTTCAGGAA CAAGGTACCG CTGACCGATT CGGCTTCCGG AAAACCGGTT 
GTTCGGGACA TCACCCAGTT TACTACAATA AAGCCAGCCA TTGAGGACCC AAGCCTCATG 
GCCGATTTAC AAAGCAAGAA GGTGGATGTT ACTGCTGTTA CAACTGAGGT CTCACCCCTC 
TTGAGCGGAC TTCTCTATCT GCTCCCCTGG ATTCTCATCA TTGGTGTCTG GTGGCTCGCC 
ATGAGGGGGA TGCGGGGGCA GAGCCCCGGC GCGATGATGG GGGGATTTGC CAAGTCCGGG 
GCACAGATGT ATACCCCGGG TGAAAAGAGC AGGGTGACGT TCGACGACGT GGCAGGCATG 
GAAAATGCCA AGTTGGAGTT GAGAGAGATT GTCGACTACT TGCGGGACCC GAAAAAGTTT 
CAGCAGATTG GGGGAAAGGT GCCGAAGGGG GTTCTGCTGG TCGGCCCTCC CGGAACAGGG 
AAGACGCTTC TTGCCCGGGC TGTTGCCGGA GAGGCGGGCG TGACGTTTCT CAGTATCACC 
GCATCTCAGT TCATTGAGAT GTTTGTTGGC GTCGGGGCGG GGAGAGTGCG GGACCTCTTT 
GCCACGGCCA AGAAGTCGGC GCCGAGCATT ATATTCATTG ACGAGATTGA TGCCGTTGGC 
CGGAGTCGCG GAGCCGGCCT CGGTGGAGGC CATGACGAGC GGGAGCAGAC CCTGAATCAG 
CTTCTCTCGG AGATGGATGG CTTCGATCCC CATGATGAGG TCATCGTCAT GGCGGCTACC 
AACCGCCCCG ATGTCCTCGA TGCAGCGTTG CTCCGTCCAG GCCGCTTCGA CCGGCACGTG 
GTGATCGATC GGCCCGACTG GCGGGACCGG GAAAAGATAC TCCAGGTCCA TACCCGTAAG 
ATTCCCATGG ACAAAGATGT GTCCCTGGCG GTGATTGCCC GGGGGACGCC GGGGATGACC 
GGCGCGGACC TGGAGAACCT TGTGAACGAG GCAGCAATAC TGGCGGCGCG GGAGAATTCC 
TCCACGGTTA CCATGGAACA CCTGGAAAGG GCCAAGGACA AGGTTCTCAT GGGCGGGGAG 
CGGAAGATGT ACATCACCGA CCAGGAGAAG CGGATTACCG CTTACCACGA AGCGGGCCAC 
ACGCTGGTGG CCAAGCTGCT TCCCGGCACC GATCCGGTCC ACAAGGTGAC GATCATCCCG 
CGGGGGCAGG CTCTGGGGGT GACGCAGCAG CTTCCCGAGG ACGACCGCTA CCACTACTCG 
AAGACGTATC TCGTGAACCG GCTTTCCGTG GCCCTTGGAG GGAGGGTAGC AGAGCGGCTC 
GTCTTCGGCG ATCTCTCGAC GGGAGCCCAG AACGATCTCA AGATGGTGAA CGATCTGGCG 
GAGAAGATGG TCTGTCAGTG GGGAATGAGC GACAAGATCG GCGCCATGAC CTTCCGGCGC 
GGCGAGGAAC ATCCCTTTCT CGGGCGCAAG CTGGCGGAGG AGAAGACCTT TTCCGAGCAG 
ATGGCGTGGC TCATTGATCA GGAAATCGCT GTCGTCATCA AGGAGGCCGA GGCCAAAGCC 
GAAGAGATCA TCACTGGGAA TCGGGACAAG CTCGATATCC TCGTAGAGGC CCTCATTGAG 
GAGGAAACCC TTGACGGAAA GCGGATCAAT GGGTTGCTCG GTCTGGCGGA GCGTCAGTAA
 
Protein sequence
MGQSVWKPLI LVFVLIIVFN FVYGYFARQT AEGGVSISYS RFKDELAADN IKKISLKGNS 
ISGEFRNKVP LTDSASGKPV VRDITQFTTI KPAIEDPSLM ADLQSKKVDV TAVTTEVSPL 
LSGLLYLLPW ILIIGVWWLA MRGMRGQSPG AMMGGFAKSG AQMYTPGEKS RVTFDDVAGM 
ENAKLELREI VDYLRDPKKF QQIGGKVPKG VLLVGPPGTG KTLLARAVAG EAGVTFLSIT 
ASQFIEMFVG VGAGRVRDLF ATAKKSAPSI IFIDEIDAVG RSRGAGLGGG HDEREQTLNQ 
LLSEMDGFDP HDEVIVMAAT NRPDVLDAAL LRPGRFDRHV VIDRPDWRDR EKILQVHTRK 
IPMDKDVSLA VIARGTPGMT GADLENLVNE AAILAARENS STVTMEHLER AKDKVLMGGE 
RKMYITDQEK RITAYHEAGH TLVAKLLPGT DPVHKVTIIP RGQALGVTQQ LPEDDRYHYS 
KTYLVNRLSV ALGGRVAERL VFGDLSTGAQ NDLKMVNDLA EKMVCQWGMS DKIGAMTFRR 
GEEHPFLGRK LAEEKTFSEQ MAWLIDQEIA VVIKEAEAKA EEIITGNRDK LDILVEALIE 
EETLDGKRIN GLLGLAERQ