Gene Pcryo_2020 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagPcryo_2020 
Symbol 
ID4034966 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism namePsychrobacter cryohalolentis K5 
KingdomBacteria 
Replicon accessionNC_007969 
Strand
Start bp2483058 
End bp2484944 
Gene Length1887 bp 
Protein Length628 aa 
Translation table11 
GC content46% 
IMG OID637974492 
ProductATP-dependent metalloprotease FtsH 
Protein accessionYP_581281 
Protein GI93006844 
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 clones11 
Plasmid unclonability p-value
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clones
Fosmid unclonability p-value0.185769 
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGGTAAAAA ATACCTTATT GTGGCTGGTG GTAATCGGCG TTTTAGTGCT GGTGTTTAGT 
GGCTTTGATA AATCATCTGA GCCCGATAAC CTTAACTACT CTGAATTTGT GACCGCTGTG 
TCAGAAAATC AAGTAGCCAG TGTTGAGATC GATGGCGAGC AAATCACCGG CGAGAAGAAA 
AATGGTTCTG AATTTGAAAC CATTCGTCCA GCTGTGATGG ATGATGAGCT GATGCCATTG 
CTGCGTGAAA ATAAAGTTGA AGTCCAAGGC ACTGCACCGA AGCGCCAGAG CGTATTGATG 
CAATTGCTGA TAGCCAGTTT CCCAATTTTG CTGATTATTG GTCTGTTTTT ATTCTTTATG 
CGTAATATGC AAGGCGGCGC TGGCGGTAAA GGCGGTGGAC CGATGAGCTT TGGTAAATCA 
AAAGCCAAAA TGCTAACCGA AGACCAAATC AAAGTAAATT TTGAAGACGT TGCTGGTTGT 
GAAGAAGCCA AAGAAGAGGT CGTCGAAGTG GTGGAGTTCT TACGAGACCC TGATAAATTT 
ACCAAGCTTG GGGCGACGAT TCCACGTGGT ATTTTGATGG TAGGTCCACC GGGTACAGGC 
AAAACATTGT TAGCTCGTGC CATTGCTGGT GAAGCTAAAG TACCTTTCTT CTCGATTTCA 
GGTTCTGATT TCGTTGAGAT GTTCGTCGGT GTTGGTGCTT CACGTGTGCG TGATATGTTT 
GAACAAGCGA AGAAAAGCGC GCCATGTATT ATCTTTATTG ATGAGATTGA TGCTGTCGGT 
CGTCATCGTG GTTCCGGTAT GGGCGGCGGT AATGATGAGC GTGAGCAGAC ATTGAACCAA 
TTGTTGGTTG AGATGGATGG ATTTGAAGGC AACGAAGGTG TTATCGTCAT TGCTGCCACT 
AACCGTGCAG ATGTTCTTGA TAAAGCACTA TTGCGTCCGG GTCGTTTTGA CCGTCAGGTG 
CAAGTAGGGC TGCCAGATAT CAAAGGTCGT GAGCAAATTC TTAAAGTGCA TTTAAAGAAA 
CTGCCTAATA CTATTGGTGT TGACGCTCAT GCCTTAGCCC GTGGTACGCC AGGATTCAGT 
GGCGCCCAGC TTGCTAACCT TGTTAATGAA GCAGCCTTGT TTGCCGCTCG TCGTAACAAG 
CGCAGCGTCG ATATGAATGA CTTCGAAGAT GCGAAAGACA AGCTATATAT GGGTCCTGAG 
CGTAAGTCAA TGGTCATACG TGAAGAGGAG CGCCGTGCTA CTGCTTATCA TGAAGCAGGT 
CATGCGCTAG TCGCAGAGCT ACTTCCGGGT ACTGATCCTG TACATAAAGT CACTATTATG 
CCGCGTGGAT TTGCGCTTGG TGTTACGTGG CAGTTGCCTG AGCACGACCA AACCAGTATG 
TATAAATCAA AAATGCTGAG TGATATTGCG ATTTTATTTG GTGGTCGTAT CGCTGAAGAA 
GTCTTTATCG ATCAAATGTC TACGGGTGCC TCAAATGACT TTGAACGTGC GACCAAAATG 
GCACGAGCAA TGGTTACCAA ATACGGCATG TCTGACGCGC TTGGTATCAT GGTCTATGAA 
GATGATGACA ACTCACAAGG TTACTTCGGT GGCGGTGGTC GTACGATTTC AGAAGCAACA 
CAGCAAAAGG TTGATGAAGA AGTACGCCGT ATGTTAGAGG AGCAATATGA TATCGCTCGT 
GAATTGATTG AAGGCAATCA AGAAAAGATG CATGCTATGG TTGATGCCTT GATGAAATGG 
GAAACCATTG ACCGCGATCA GCTGCAAGAT ATCTTAGCGG GCGAACAACC TCGTCCACCA 
AGAGTCTATC AGCATCATGA AGTGAACTTA TCAAAAAATG ATGTGAAAAC AACCGGAATG 
ACCCCTCCGC CATTACCAGC GATGTAA
 
Protein sequence
MVKNTLLWLV VIGVLVLVFS GFDKSSEPDN LNYSEFVTAV SENQVASVEI DGEQITGEKK 
NGSEFETIRP AVMDDELMPL LRENKVEVQG TAPKRQSVLM QLLIASFPIL LIIGLFLFFM 
RNMQGGAGGK GGGPMSFGKS KAKMLTEDQI KVNFEDVAGC EEAKEEVVEV VEFLRDPDKF 
TKLGATIPRG ILMVGPPGTG KTLLARAIAG EAKVPFFSIS GSDFVEMFVG VGASRVRDMF 
EQAKKSAPCI IFIDEIDAVG RHRGSGMGGG NDEREQTLNQ LLVEMDGFEG NEGVIVIAAT 
NRADVLDKAL LRPGRFDRQV QVGLPDIKGR EQILKVHLKK LPNTIGVDAH ALARGTPGFS 
GAQLANLVNE AALFAARRNK RSVDMNDFED AKDKLYMGPE RKSMVIREEE RRATAYHEAG 
HALVAELLPG TDPVHKVTIM PRGFALGVTW QLPEHDQTSM YKSKMLSDIA ILFGGRIAEE 
VFIDQMSTGA SNDFERATKM ARAMVTKYGM SDALGIMVYE DDDNSQGYFG GGGRTISEAT 
QQKVDEEVRR MLEEQYDIAR ELIEGNQEKM HAMVDALMKW ETIDRDQLQD ILAGEQPRPP 
RVYQHHEVNL SKNDVKTTGM TPPPLPAM