Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | STER_0603 |
Symbol | glmU |
ID | 4437028 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Streptococcus thermophilus LMD-9 |
Kingdom | Bacteria |
Replicon accession | NC_008532 |
Strand | + |
Start bp | 548926 |
End bp | 550308 |
Gene Length | 1383 bp |
Protein Length | 460 aa |
Translation table | 11 |
GC content | 41% |
IMG OID | 639676310 |
Product | bifunctional N-acetylglucosamine-1-phosphate uridyltransferase/glucosamine-1-phosphate acetyltransferase |
Protein accession | YP_820067 |
Protein GI | 116627448 |
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 |
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Plasmid Coverage information |
Num covering plasmid clones | 13 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
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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
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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
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