Gene Snas_4526 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagSnas_4526 
Symbol 
ID8885731 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameStackebrandtia nassauensis DSM 44728 
KingdomBacteria 
Replicon accessionNC_013947 
Strand
Start bp4832153 
End bp4834120 
Gene Length1968 bp 
Protein Length655 aa 
Translation table11 
GC content66% 
IMG OID 
Productamino acid transporter 
Protein accessionYP_003513264 
Protein GI291301986 
COG category 
COG ID 
TIGRFAM ID 


Plasmid Coverage information

Num covering plasmid clones
Plasmid unclonability p-value0.0966094 
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clones20 
Fosmid unclonability p-value0.421958 
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
GTGGCTCGTC CGACTTCCGT AGTCAAGCGC CTGTTGCTTG GCCGACCGTT CCACTCCGAG 
CGGTTGTCAC ACACCCTGCT GCCCAAACGC ATCGCGCTGC CGGTCTTCTC CTCCGACCCG 
CTGTCGTCGG TGGCGTACGC GCCGGAGCAG ATCTTCCTGA CGCTGAGCGT CGCCGGAACC 
GGTGCCTACA TCTTCTCCGG CTGGGTGGGT CTGTTCATCG CGCTGGTGAT GATCGCGGTG 
GTCGCGTCGT ACCGGCAGAA CGTCAACGCC TATCCGTCGG GCGGCGGCGA CTACGAGGTC 
GCCACGGTCA ACCATTCGCC GTCGTGGGGG CTGGTGGTGG CCAGCGCGCT GCTGGTCGAC 
TACATCCTCA CCGTCGCGGT GTCGATCTCG GCGGCGGCGG CCAACATCGG TTCGGCGGTG 
CCGTTCGTCA ACGACCACAA GATCCTGTTC TCGGTGGTGG CGATCGCCCT GCTGACGGCG 
ATCAACCTGC GCGGCATGAA GGAGTCGGGC GCCGCGTTCG CCATCCCCAC CTACGCGTTC 
GTGGTGGGCA TCTTCGCGCT CATCGTGACC GGCCTGTTCC GGTACTTCGT CATGGGCGAC 
GACCTGCGCG CCGCCAGCGC CGACTTCGAC ATCGTCGACT CCGATCCCGG GCTGGCCGGG 
GCGGGGCTGG TGTTCCTGCT GCTGCGCACC TTCGCGTCCG GCTGTGCGGC GCTGACGGGT 
GTCGAGGCGA TCGCCAACGG CGTCCCGGCG TTCAAACCCC CCAAGGGCCG CAACGCCGCC 
ACGACGCTGT TGATGATGGG CATCCTGGCG ATCAGCATGT TCATGGGACT GATCGCGCTG 
GCCCGGATCA CCGAGGTCAA GATGGCCGAG CATCCGGACG AACTCATCGG CGCCCCCAAC 
GACTACATCC AGGAGACGCT CCTGGTCCAG TTGTCGCGCA CCGTCTTCGA CGGTTTCACG 
CCCGGCTTCG TGTTCGTCAC CGCCGTCACC GGACTGATCC TGGTGCTGGC GGCCAACACG 
GCGTTCAACG GTTTCCCGGT GCTGGGCTCG ATCCTGGCCC AGGACCGCTA CCTGCCCCGG 
CAGCTGCACA CCCGTGGCGA CAAGCTCGCC TTCTCCAACG GCATCATCCT GCTGGCCCTG 
TTCGCGGTCG TGCTGGTGCT GGCCTTCGGC GCCGACGAAC ACCGGCTGAT CCAGCTGTAC 
ATCGTCGGCG TGTTCGTGTC GTTCGTGCTG TCGCAAAGCG GCATGATCCG GCACTGGAAC 
CGACTGCTGC GCACCGAACG CGACAAGAAG ACCCGGCTGC GGATGCGCCG CTCCCAGGTC 
ATCAATTCCT TCGGTCTGCT CATGACGGCC TCGGTGCTGG TCATCGTGAT CATCACCAAG 
TTCTCGCACG GCGCCTGGAT CTCCATTGTG GCCATGGCGG TCCTGTTCGT CATCATGCGC 
TCCATCCGGC GCCACTACCG CAAGGTGTCG GCCGAACTCA ACCCGCCGGA GGGCAAGGCG 
CCGCTGCCGT CGCGCAACCA CGTCATCGTC CTGGTCAGCA AGGTCCACCA GCCGATGATC 
CGGGCCCTCA CCTACGCCAA GGCCACCCGC CCCGACACCC TCACCGCGCT GACGGTCAAT 
GTGGACGACA GCGACACCCG CGAGTTGCAG GCCGAATGGG ACCGCCGCAA GATCTCCATC 
CCGCTGACGG TCGTCGACTC CCCCTACCGC GAGATCACCG GCCCGATCGT CGACTACGTC 
AAGTCCGTCA AACGCAAGTC GCCGCGCGAG GTCGTCACGG TCTTCATCCC CGAGTACGTC 
GTCGGCCACT GGTGGGAGAA CCTGCTGCAC AACCAGAGCG CGCTGCGCAT CAAGAGCCGC 
CTGCGTTTCG AGCCCGGCGT CATGGTCACC AGCGTCCCGT GGCAACTGGC CTCCAGCGAA 
GGCCGTAACC TGGACAAACT AGACAGCCGA CTGACGGGAC GTTCATGA
 
Protein sequence
MARPTSVVKR LLLGRPFHSE RLSHTLLPKR IALPVFSSDP LSSVAYAPEQ IFLTLSVAGT 
GAYIFSGWVG LFIALVMIAV VASYRQNVNA YPSGGGDYEV ATVNHSPSWG LVVASALLVD 
YILTVAVSIS AAAANIGSAV PFVNDHKILF SVVAIALLTA INLRGMKESG AAFAIPTYAF 
VVGIFALIVT GLFRYFVMGD DLRAASADFD IVDSDPGLAG AGLVFLLLRT FASGCAALTG 
VEAIANGVPA FKPPKGRNAA TTLLMMGILA ISMFMGLIAL ARITEVKMAE HPDELIGAPN 
DYIQETLLVQ LSRTVFDGFT PGFVFVTAVT GLILVLAANT AFNGFPVLGS ILAQDRYLPR 
QLHTRGDKLA FSNGIILLAL FAVVLVLAFG ADEHRLIQLY IVGVFVSFVL SQSGMIRHWN 
RLLRTERDKK TRLRMRRSQV INSFGLLMTA SVLVIVIITK FSHGAWISIV AMAVLFVIMR 
SIRRHYRKVS AELNPPEGKA PLPSRNHVIV LVSKVHQPMI RALTYAKATR PDTLTALTVN 
VDDSDTRELQ AEWDRRKISI PLTVVDSPYR EITGPIVDYV KSVKRKSPRE VVTVFIPEYV 
VGHWWENLLH NQSALRIKSR LRFEPGVMVT SVPWQLASSE GRNLDKLDSR LTGRS