Gene Aaci_1597 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagAaci_1597 
Symbol 
ID8425107 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameAlicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446 
KingdomBacteria 
Replicon accessionNC_013205 
Strand
Start bp1663641 
End bp1665290 
Gene Length1650 bp 
Protein Length549 aa 
Translation table11 
GC content61% 
IMG OID645027702 
ProductAMP-dependent synthetase and ligase 
Protein accessionYP_003184998 
Protein GI258511564 
COG category[I] Lipid transport and metabolism
[Q] Secondary metabolites biosynthesis, transport and catabolism 
COG ID[COG0318] Acyl-CoA synthetases (AMP-forming)/AMP-acid ligases II 
TIGRFAM ID 


Plasmid Coverage information

Num covering plasmid clones
Plasmid unclonability p-value0.000318079 
Plasmid hitchhikingYes 
Plasmid clonabilityhitchhiker 
 

Fosmid Coverage information

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

Sequence

Gene sequence
TTGAAGCACT ACCCGCCGGA GGTGCCAAGC ACCTACGAGT ATCCGCGCGA GAACCTGGCA 
TCGTTTTTGT TGCACTCGGC GGAGGCTTAC CCCGATCGGC CTGCCCTGTG GTTCTTCGGA
TACAAAATGA CCTACCGCGA GCTGTTGGAT GCCTGCTGCC GCTTTGCCAA CGCGATGCGA
GCGATTCCCC TGAACAAGGG GGATCGCCTC GCCATCATGT TGCCCAACTG CCCGCAGGCC
GTGATCGCGT ATTATGGGGC GCTGTTGGCC GGGTTGACGG TGGTCCAGCA CAACCCGATG
TACACGCCGC GCGAGCTGAA GCATCAACTG GAGGACTGCG GCGCCAGGGT ACTGGTGACG
CTCGACGAGC TGTGGCCTCG GGTCGAAGCG GTGGAAGGCG AGTTGCCGGT GGAGCACTAT
GTGGTGACGT CGATCCGAGA TTATCTCCCG CCGGTGAAAT CGCTTTTGTA TCCACTGCAG
CAGAGCCGGC AGGGCGGGGT ACCGAAGGTG CCATACGGCA CGCGTGTGCT GGCGTGGAAG
CATTGCCTCG CGAACGCGTC GGCTGAATTG CCGAAGGTCG AGGTCGATCC GATGGAGGAC
ATTGCGCTCA TCCAGTACAC CGGGGGGACA ACCGGGGTAC CGAAAGGCGC GATGCTGACG
CATTACAATC TCGTGGCGAA CGCGATCCAG AGCGCGCTGT GGACGTACAA GCTGCAACGA
GGCAAGGAGC GGTATCTCGC CGTACTGCCG TTCTTCCACG TGTTTGGCAT GACCGTTCTC
ATGAATCAGT CCATGTACAC GGGCGGCATG TTGATTCTGG TGCCTCGCTT TCAGGCGGAA
CAGGTGCTGA AGCTCATCCA CGAGTTCAAG CCGACCGTTT TTCCGGGCAC GCCCACCATG
TACATCGCGC TGATGAATCA CCCGGATCGA CCTCGCTACG ACCTTTCGTC CATCGAAGTT
TGCGTGAGCG GCGCGGCTCC GCTTCCGCAC GAGGTGCAGG CGCAGTGGGA AAAGCTCACG
GGCGGCAAGC TCGTCGAAGG CTACGGCTTG ACCGAAGCGT CGCCCATCAC GCACGCGAAC
AACTTCTGGG CCGAGCGCAA GCCGGGTTCC ATCGGCATTC CCTTCCCGGA CACCGATGCG
CAGGTGGTCG ATCCCGACGG AAACCCGCTG CCTGTAGGCG AGATCGGCGA ACTCGCGGTG
CGCGGCCCGC AGGTCATGAA GGGATACTGG AATCGTCCAG ATGAAACCGC TTCGGTGCTG
CGGAATGGGT GGCTATTCAC CGGAGATCTT GCGAAGATGG ACGAGGACGG CTATTTCTAT
ATTGTCGATC GCAAGAAGGA CATCATCATC GCGGGCGGAT ACAACATCTA CCCGCGCGAA
GTGGAAGAGG TCTTGTACGA ACATCCCGCC GTCGCGGAGG CGGCTGTGGT CGGCGTGGAA
GATCCGTATC GCGGCCAGAC GGTGAAGGCG TTTATCCAGC TGAAACCGGG CATGCAGGTC
ACGGAACAGG AGCTGGACGA GTGGTGCCGG GCCAACTTGG CCGCGTACAA AGTTCCACGG
GCATACGAGT TCCGAGACAG TCTGCCGAAG TCGGCTGTGG GAAAAATCCT TCGCCGTGCG
CTCACGGAGG AGGCCACCCG ACAGGCGTGA
 
Protein sequence
MKHYPPEVPS TYEYPRENLA SFLLHSAEAY PDRPALWFFG YKMTYRELLD ACCRFANAMR 
AIPLNKGDRL AIMLPNCPQA VIAYYGALLA GLTVVQHNPM YTPRELKHQL EDCGARVLVT
LDELWPRVEA VEGELPVEHY VVTSIRDYLP PVKSLLYPLQ QSRQGGVPKV PYGTRVLAWK
HCLANASAEL PKVEVDPMED IALIQYTGGT TGVPKGAMLT HYNLVANAIQ SALWTYKLQR
GKERYLAVLP FFHVFGMTVL MNQSMYTGGM LILVPRFQAE QVLKLIHEFK PTVFPGTPTM
YIALMNHPDR PRYDLSSIEV CVSGAAPLPH EVQAQWEKLT GGKLVEGYGL TEASPITHAN
NFWAERKPGS IGIPFPDTDA QVVDPDGNPL PVGEIGELAV RGPQVMKGYW NRPDETASVL
RNGWLFTGDL AKMDEDGYFY IVDRKKDIII AGGYNIYPRE VEEVLYEHPA VAEAAVVGVE
DPYRGQTVKA FIQLKPGMQV TEQELDEWCR ANLAAYKVPR AYEFRDSLPK SAVGKILRRA
LTEEATRQA