Gene Snas_2831 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagSnas_2831 
Symbol 
ID8884029 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameStackebrandtia nassauensis DSM 44728 
KingdomBacteria 
Replicon accessionNC_013947 
Strand
Start bp2979097 
End bp2980704 
Gene Length1608 bp 
Protein Length535 aa 
Translation table11 
GC content66% 
IMG OID 
Producthypothetical protein 
Protein accessionYP_003511600 
Protein GI291300322 
COG category 
COG ID 
TIGRFAM ID 


Plasmid Coverage information

Num covering plasmid clones13 
Plasmid unclonability p-value0.776559 
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clones22 
Fosmid unclonability p-value0.785726 
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGGCCGCAT CACTGTCACG ACGAGGTTTG CTGAAGCTGG GCGGCGGGGT GGCCGCGGCG 
GGTGTCGCCG CCGCCGTTGC CGCCAACGCG ATCGCCGAGG ATCCCGCGAC GTCCGCGACC
TGGCACTCCA AGCTCGTGTA TCCCGGCGCG GACGGGCGGC TGAAGTACGC CGCCGAGGCC
AACGGCAAGA AGATCCCCGA CTTCAGCTGG GCCGGTTACC GCAACGGCGA GGCCGAGATC
CCGGATGTCA CGGTGGTCAA GACGATCGGC CCGGTCAAGG ACGACAACAC CGCGCACATC
CAGAAGGCGC TGGACGAGGT GGGTGAACTT CCCAAGGGCG AGGACGGTTT CCGGGGCGCG
CTGCTGCTGA AGCCGGGTCA CTACAAGGTT TCCGGCACCA TCAAGCTGAA GCGCAGCGGC
GTGGTGCTGC GCGGTTCCGG CAAGGGCGCC GACACCAACG TCAACACGGT GATCACCGGT
ACCGGCGGAC CGGACATCAA GGCGGTGATC GCGGTCGGCG GCACGTCAGG CGACTGGAGT
TCGCAGGTGG CGGGCACGAA GACCAACGTC ACGTCCAGTG TGGTGGAAGC CGGTTCACGT
CGACTCACCC TCGCCTCGAC GGCCAACCTG AAGGTCGGCG ACAACATCAT CATCCACCAC
CCGTGCACCC AGAAGTGGCT CGACGCGATC AACGGCGGCG GGGTCAAGAA CCAGCCGCCA
TGGAAGGTCG ACTCACTGCC CATTGTCTAC AACCGGTACG TGAAGAGGAT CGAGGGCAAC
GACATCGTCG TCTGCGCGCC GGTTTTCAAC GCGCTGCGAA AGTCATATTC GCAGTCCTAT
GTGTATAAGT GGGATCAGGC GGGGCTGGTG CGCGATGTCG GGGTGGAGAA CCTGCGCGTC
GACATGGGTG CCCCCGCCGC CGAGGACGAG AACCACCCGC AAAGCTGCGT CGCCGTCACC
CGGGCCGAGG ACGCCTGGGT GCGCGGGTCG AGCCTGCTGC ACTTCTCGGT GTCCGGGGTC
GTCGTGCAGC GCAGTACCCG GGTCACCGTC CAGGATGTAC GGGCCAGTCA TCCGCGCTCG
CAGCTCATCG GCGAACGGCG GTACAACTTC AGCGCGGCGG GCATGGCGCA GCAGGTCCTG
TTCCGGGGCC TGTGGGCCAC CCACGCCAGG CACGCGTTCA TCGCCACCGG CTCCAGCACG
TGTTCGGGCA TCGTCTGGCT CGACGGCTAC AACGAGAACG GTTACTCCGA GTCCGGCGGT
CACCAGCGCT GGAGCCACGG GCTGCTGTAC GACAACATCA AGGAACTGTC CAGTAAGGCC
GACAACGCGT GGGTGCTGTC GCTGCACAAC CGGGGCGACC TCGGCAGCGG TCACGGCTGG
TCGTCGGTGA ACAGTGTCGC GTGGAACTGC ACCGTCGACA ATGGCAAGCG GCTGTGCGTG
CAGCGGCCGC CGACCTCGCA GAACTTCGCC ATCGGCACCA CCGGCACGGT CACCAATGTC
AACTGGTACA CGCATCAGTT GGGCTATGTG GAGGGCACCA ACAAGTCCGG GCTGGATCCC
AAGTCGCTGT ATCTGGCGCA GCTCGCCGAT CGCCTGGGCG GGTTATGA
 
Protein sequence
MAASLSRRGL LKLGGGVAAA GVAAAVAANA IAEDPATSAT WHSKLVYPGA DGRLKYAAEA 
NGKKIPDFSW AGYRNGEAEI PDVTVVKTIG PVKDDNTAHI QKALDEVGEL PKGEDGFRGA
LLLKPGHYKV SGTIKLKRSG VVLRGSGKGA DTNVNTVITG TGGPDIKAVI AVGGTSGDWS
SQVAGTKTNV TSSVVEAGSR RLTLASTANL KVGDNIIIHH PCTQKWLDAI NGGGVKNQPP
WKVDSLPIVY NRYVKRIEGN DIVVCAPVFN ALRKSYSQSY VYKWDQAGLV RDVGVENLRV
DMGAPAAEDE NHPQSCVAVT RAEDAWVRGS SLLHFSVSGV VVQRSTRVTV QDVRASHPRS
QLIGERRYNF SAAGMAQQVL FRGLWATHAR HAFIATGSST CSGIVWLDGY NENGYSESGG
HQRWSHGLLY DNIKELSSKA DNAWVLSLHN RGDLGSGHGW SSVNSVAWNC TVDNGKRLCV
QRPPTSQNFA IGTTGTVTNV NWYTHQLGYV EGTNKSGLDP KSLYLAQLAD RLGGL