Gene STER_0603 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagSTER_0603 
SymbolglmU 
ID4437028 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameStreptococcus thermophilus LMD-9 
KingdomBacteria 
Replicon accessionNC_008532 
Strand
Start bp548926 
End bp550308 
Gene Length1383 bp 
Protein Length460 aa 
Translation table11 
GC content41% 
IMG OID639676310 
Productbifunctional N-acetylglucosamine-1-phosphate uridyltransferase/glucosamine-1-phosphate acetyltransferase 
Protein accessionYP_820067 
Protein GI116627448 
COG category[M] Cell wall/membrane/envelope biogenesis 
COG ID[COG1207] N-acetylglucosamine-1-phosphate uridyltransferase (contains nucleotidyltransferase and I-patch acetyltransferase domains) 
TIGRFAM ID[TIGR01173] UDP-N-acetylglucosamine diphosphorylase/glucosamine-1-phosphate N-acetyltransferase 


Plasmid Coverage information

Num covering plasmid clones13 
Plasmid unclonability p-value
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clonesn/a 
Fosmid unclonability p-valuen/a 
Fosmid Hitchhikern/a 
Fosmid clonabilityn/a 
 

Sequence

Gene sequence
ATGAGTAATT ACGCTATTAT CCTTGCTGCG GGTAAAGGAA CTCGCATGAA ATCAGATCTT 
CCAAAAGTAT TACACAAGGT TTCAGGCATC ACTATGCTTG AGCATGTTTT CCGTGCAGTT
TCAGTTATCG AACCAGCTAA AAATGTTACT GTTATTGGTC ATAAGGCTGA GCTTGTTCGT
GAGGTTTTGG ATGGTCAATC TGCCTTCACT ATGCAAACTG AACAGTTGGG GACTGGTCAC
GCAGTAATGA TGGCTGAAGA AGAGTTGGCT GGACTTGAAG GGCAAACGCT TGTTATCGCC
GGTGACACGC CTTTGATTAC TGGTGAAAGC CTTAAAAACC TTATTGATTT CCACGTTAAT
CATAAAAATG TTGCCACTAT CTTGACTGCA ACTGCCGATA ATCCATTTGG TTATGGCCGT
ATCATCCGTA ATGAAAATGG TGAAGTCACT AAGATTGTTG AGCAAAAAGA TGCAAATAAG
TTTGAACAAC AGGTTAAAGA AATTAATACA GGGACTTATG TCTTTGACAA TAAACGTCTC
TTCGAAGCAC TTAAAAATAT TAATACTAAC AATGCTCAAG GAGAATACTA TTTGACAGAT
GTCATCTCTA TTTTCCGTGA AAATGGTGAA AAGGTAGGTG CGTATACCCT TCGTGACTTT
GAAGAAAGTC TTGGAGTTAA CGACCGTGTT GCCCTAGCTA CGGCAGAAGA TGTTATGCGT
CGTCGTATTA ACAAGACTCA CATGATTAAT GGTGTTACTT TCCAAAATCC AAATGCGACA
TACATTGATG TAGATGTGGA AATTGCACCG GACGTTGTGA TTGAAGCTAA TGTTACTCTT
AAAGGAAAAA CTAAAGTCGG AGCAGAGTCG GTGTTGACTA ATGGAACTTA TATTGTTGAT
TCAACTATCG GTGCCAATAC TGTTATCACT AACTCAATGA TTGAGCATTC AGTGGTTGAA
AAAGGCGCTA CAGTTGGTCC ATTTGCCCAT ATTCGTCCGG ATTCAATGCT CAAAGAAGGC
GTTCATATTG GTAACTTCGT CGAGGTTAAG GGGTCTACTA TCGGTGAAAA TACTAAGGCC
GGTCACTTGA CCTACATTGG TAATGCGGAA GTTGGTTCTG ACGTTAACTT TGGTGCAGGG
ACGATCACTG TAAACTATGA TGGCCAACAT AAATTCAAGA CCCAAATTGC TAACAACGCC
TTTATCGGAA GCAATTCAAC CTTGATTGCA CCGCTTGAAA TTGGGGACAA TGCACTTACA
GCAGCTGGTT CAACCATTAC GGATAATGTC CCAGCTGACA GCGTAGCCAT TGGACGCAGC
CGTCAGGTCA ATAAAGAAGG CTACGCTATT AAGAAACCTC ACCACCCAAG CCAACAAAAG
TAG
 
Protein sequence
MSNYAIILAA GKGTRMKSDL PKVLHKVSGI TMLEHVFRAV SVIEPAKNVT VIGHKAELVR 
EVLDGQSAFT MQTEQLGTGH AVMMAEEELA GLEGQTLVIA GDTPLITGES LKNLIDFHVN
HKNVATILTA TADNPFGYGR IIRNENGEVT KIVEQKDANK FEQQVKEINT GTYVFDNKRL
FEALKNINTN NAQGEYYLTD VISIFRENGE KVGAYTLRDF EESLGVNDRV ALATAEDVMR
RRINKTHMIN GVTFQNPNAT YIDVDVEIAP DVVIEANVTL KGKTKVGAES VLTNGTYIVD
STIGANTVIT NSMIEHSVVE KGATVGPFAH IRPDSMLKEG VHIGNFVEVK GSTIGENTKA
GHLTYIGNAE VGSDVNFGAG TITVNYDGQH KFKTQIANNA FIGSNSTLIA PLEIGDNALT
AAGSTITDNV PADSVAIGRS RQVNKEGYAI KKPHHPSQQK