Gene SaurJH1_2615 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagSaurJH1_2615 
Symbol 
ID5316196 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameStaphylococcus aureus subsp. aureus JH1 
KingdomBacteria 
Replicon accessionNC_009632 
Strand
Start bp2710576 
End bp2712315 
Gene Length1740 bp 
Protein Length579 aa 
Translation table11 
GC content34% 
IMG OID640780725 
Productpyruvate oxidase 
Protein accessionYP_001317725 
Protein GI150395050 
COG category[E] Amino acid transport and metabolism
[H] Coenzyme transport and metabolism 
COG ID[COG0028] Thiamine pyrophosphate-requiring enzymes [acetolactate synthase, pyruvate dehydrogenase (cytochrome), glyoxylate carboligase, phosphonopyruvate decarboxylase] 
TIGRFAM ID[TIGR02720] pyruvate oxidase 


Plasmid Coverage information

Num covering plasmid clones17 
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
ATGGCAAAAA TAAAAGCAAA TGAAGCATTA GTTAAAGCAT TACAAGCATG GGATATAGAT 
CACTTGTATG GTATTCCAGG AGACTCAATC GACGCAGTTG TCGATAGTTT ACGTACAGTG 
AGAGATCAAT TTAAATTTTA TCATGTACGT CATGAAGAAG TAGCAAGCTT AGCGGCTGCT 
GGTTACACAA AATTAACTGG TAAAATCGGT GTGGCATTAA GTATCGGTGG CCCTGGTTTA 
ATTCATTTAT TAAATGGTAT GTACGATGCC AAAATGGATA ATGTACCGCA ATTAATATTA 
TCTGGACAAA CGAATAGTAC AGCACTTGGA ACGAAAGCAT TTCAAGAAAC AAATTTACAA 
AAATTATGTG AAGATGTAGC CGTTTATAAT CACCAAATTG AAAAAGGTGA CAATGTGTTT 
GAAATCGTTA ACGAAGCAAT TCGTACGGCA TATGAACAAA AAGGTGTCGC TGTTGTTATT 
TGTCCTAACG ACTTATTAAC TGAAAAAATT AAAGATACAA CGAATAAACC AGTAGATACA 
TCAAGACCAA CAGTTGTATC ACCAAAATAT AAAGACATCA AAAAAGCGGT TAAACTAATT 
AATAAAAGTA AAAAGCCTGT CATGTTAATT GGTGTAGGTG CAAAACATGC GAAAGATGAG 
CTACGTGAAT TTATTGAAAT GGCTAAAATT CCTGTCATTC ATTCATTACC AGCTAAAACA 
ATCTTGCCGG ATGATCATCC ATATAGTATC GGTAACTTAG GTAAAATTGG TACCAAAACA 
TCTTATCAAA CAATGCAGGA AGCGGATTTA TTAATTATGG TTGGTACAAA CTATCCATAT 
GTGGATTACT TACCTAAGAA AAATATTAAA GCAATCCAAA TCGACACAAA TCCTAAAAAT 
ATCGGACATC GTTTTAATAT TAATGTAGGA ATTGTTGGAG ACAGTAAAAT TGCATTGCAT 
CAGTTAACTG AAAATATTAA ACATGTTGCG GAAAGACCAT TTTTAAACAA AACGTTAGAA 
CGTAAAGCGG TTTGGGATAA ATGGATGGAA CAAGATAAAA ATAATAATAG CAAACCATTA 
CGTCCAGAAC GTTTAATGGC ATCAATTAAC AAATTTATTA AAGATGATGC AGTAATTTCA 
GCAGATGTTG GTACTGCAAC AGTTTGGTCT ACACGTTATT TAAATCTTGG TGTGAACAAC 
AAGTTCATCA TTTCAAGTTG GTTAGGTACA ATGGGTTGCG GTCTTCCAGG AGCTATGGCA 
TCAAAAATTG CATATCCAAA TAGACAAGCG ATTGCCATTG CTGGTGACGG TGCATTCCAA 
ATGGTAATGC AAGACTTCGC TACAGCAGTA CAATATGATT TACCTTTAAC TGTATTTGTA 
CTTAATAACA AACAGTTAGC ATTTATTAAA TATGAACAAC AAGCAGCTGG TGAATTAGAA 
TATGCAGTTG ATTTTTCTGA TATGGATCAT GCAAAATTTG CTGAGGCAGC AGGTGGTAAA 
GGTTATACAA TTAAGAGTGC TAGCGAAGTA GATGCTATAG TCGAAGAGGC ATTAGCACAA 
GATGTACCAA CGATTGTAGA TGTATATGTT GATCCTAATG CTGCGCCATT ACCAGGTAAA 
ATTGTAAATG AAGAAGCGCT TGGTTATGGT AAATGGGCAT TTAGATCTAT TACTGAAGAT 
AAATATTTAG ATTTAGATCA AATTCCACCT ATTTCAGTTG CAGCAAAACG TTTCTTATAA
 
Protein sequence
MAKIKANEAL VKALQAWDID HLYGIPGDSI DAVVDSLRTV RDQFKFYHVR HEEVASLAAA 
GYTKLTGKIG VALSIGGPGL IHLLNGMYDA KMDNVPQLIL SGQTNSTALG TKAFQETNLQ 
KLCEDVAVYN HQIEKGDNVF EIVNEAIRTA YEQKGVAVVI CPNDLLTEKI KDTTNKPVDT 
SRPTVVSPKY KDIKKAVKLI NKSKKPVMLI GVGAKHAKDE LREFIEMAKI PVIHSLPAKT 
ILPDDHPYSI GNLGKIGTKT SYQTMQEADL LIMVGTNYPY VDYLPKKNIK AIQIDTNPKN 
IGHRFNINVG IVGDSKIALH QLTENIKHVA ERPFLNKTLE RKAVWDKWME QDKNNNSKPL 
RPERLMASIN KFIKDDAVIS ADVGTATVWS TRYLNLGVNN KFIISSWLGT MGCGLPGAMA 
SKIAYPNRQA IAIAGDGAFQ MVMQDFATAV QYDLPLTVFV LNNKQLAFIK YEQQAAGELE 
YAVDFSDMDH AKFAEAAGGK GYTIKSASEV DAIVEEALAQ DVPTIVDVYV DPNAAPLPGK 
IVNEEALGYG KWAFRSITED KYLDLDQIPP ISVAAKRFL