Gene YpAngola_A3490 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagYpAngola_A3490 
SymbolptsG 
ID5801966 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameYersinia pestis Angola 
KingdomBacteria 
Replicon accessionNC_010159 
Strand
Start bp3705199 
End bp3706632 
Gene Length1434 bp 
Protein Length477 aa 
Translation table11 
GC content48% 
IMG OID641341307 
ProductPTS system glucose-specific transporter subunits IIBC 
Protein accessionYP_001607820 
Protein GI162421797 
COG category[G] Carbohydrate transport and metabolism 
COG ID[COG1263] Phosphotransferase system IIC components, glucose/maltose/N-acetylglucosamine-specific
[COG1264] Phosphotransferase system IIB components 
TIGRFAM ID[TIGR00826] PTS system, glucose-like IIB component
[TIGR00852] PTS system, maltose and glucose-specific subfamily, IIC component
[TIGR02002] PTS system, glucose-specific IIBC component 


Plasmid Coverage information

Num covering plasmid clones
Plasmid unclonability p-value0.000103977 
Plasmid hitchhikingYes 
Plasmid clonabilityhitchhiker 
 

Fosmid Coverage information

Num covering fosmid clones30 
Fosmid unclonability p-value0.0445474 
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGTTTAAGA ACGCATTTGC AAACCTGCAA AAGGTAGGTA AATCGCTAAT GCTACCGGTA 
TCCGTGTTGC CCATCGCAGG TATTCTGCTG GGTGTCGGTT CCGCGAATTT TAGCTGGCTA
CCGTCGGTAG TCTCTCACGT AATGGCAGAA GCCGGTGGTT CCGTCTTTGC TAACATGCCA
TTGATTTTTG CTATTGGTGT TGCGCTTGGC TTTACCAACA ACGACGGTGT ATCTGCGTTG
GCGGCGGTTG TGGCTTACGG CATCATGGTA AAAACCATGG CGGTAGTCGC ACCTCTGGTC
TTGCATCTGC CAGCAGAAGA AATTGCGACT AAGCATTTAG CTGATACCGG GGTATTGGGC
GGGATTATTG CCGGTTCGGT TGCCGCCTAT ATGTTTAACC GTTTCTACCG TATTCAGTTA
CCAGAATATT TGGGCTTCTT TGCGGGCAAA CGTTTTGTGC CGATTATCTC CGGGTTTACC
GCGATTTTCT TAGGCATACT GCTGTCCTTC ATCTGGCCAC CTATCGGCAA AGCTATCCAA
ATTTTCTCCG AGTGGGCGGC TTATCAGAAC TCGGTCGTCG CTTTTGGTAT TTACGGCGTT
GTTGAACGTT CATTGGTACC ATTCGGTCTG CACCATATCT GGAACGTGCC ATTCCAAATG
CAAATTGGTG AGTACACCAA CGCAGCGGGT CAGGTATTCA ACGGTGATAT CCCACGTTAT
ATGGTGGGTG ACCCAACAGC GGGTAAGTTA TCGGGGGGTT TCCTGTTTAA AATGTACGGT
CTGCCAGCGG CAGCCATTGC GATTTGGCAT TCAGCCAAAC CAGAAAACCG TGCAAAAGTG
GGCGGGATCA TGATCTCGGC AGCACTGACA TCATTCCTGA CCGGTATTAC CGAGCCAATC
GAATTCTCCT TTATGTTCGT GGCACCAATT TTGTATTTTA TCCATGCAAT CTTGGCAGGT
TTGGCCTTCC CAATCTGTAT TCTGTTAGGG ATGCGTGATG GGACCAGTTT CTCTCATGGC
TTGATTGATT TTGTTGTCCT GAGCGGTAAC AGCAGCCGTA TCTGGTTGTT CCCTCTGGTA
GGTATCTGCT ACGGTCTGGT GTATTACACC ATCTTCCGTG TATTGATTAC TAAACTGAAT
TTGAAAACAC CGGGACGTGA AGATTCGTCT ACTGAGCAAT CAGTACAGGG TGGCACAGAA
ATGTCAGCCG CTCTGGTTGA AGCATTTGGT GGTAAAGACA ACATTACTAA CCTGGATGCT
TGTATCACTC GCCTTCGTGT TAGCGTGGCA GATGTGTCCA AGGTTGATCA GGCTGGGCTG
AAGAAGTTAG GTGCTGCGGG TGTTGTTGTG GCAGGCTCTG GTGTTCAGGC TATCTTCGGT
ACCAAATCTG ACAACCTGAA AACTGATATG GACGAATACA TTCGTAACCA TTAA
 
Protein sequence
MFKNAFANLQ KVGKSLMLPV SVLPIAGILL GVGSANFSWL PSVVSHVMAE AGGSVFANMP 
LIFAIGVALG FTNNDGVSAL AAVVAYGIMV KTMAVVAPLV LHLPAEEIAT KHLADTGVLG
GIIAGSVAAY MFNRFYRIQL PEYLGFFAGK RFVPIISGFT AIFLGILLSF IWPPIGKAIQ
IFSEWAAYQN SVVAFGIYGV VERSLVPFGL HHIWNVPFQM QIGEYTNAAG QVFNGDIPRY
MVGDPTAGKL SGGFLFKMYG LPAAAIAIWH SAKPENRAKV GGIMISAALT SFLTGITEPI
EFSFMFVAPI LYFIHAILAG LAFPICILLG MRDGTSFSHG LIDFVVLSGN SSRIWLFPLV
GICYGLVYYT IFRVLITKLN LKTPGREDSS TEQSVQGGTE MSAALVEAFG GKDNITNLDA
CITRLRVSVA DVSKVDQAGL KKLGAAGVVV AGSGVQAIFG TKSDNLKTDM DEYIRNH