Gene Aaci_0128 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagAaci_0128 
Symbol 
ID8423594 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameAlicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446 
KingdomBacteria 
Replicon accessionNC_013205 
Strand
Start bp143423 
End bp145375 
Gene Length1953 bp 
Protein Length650 aa 
Translation table11 
GC content63% 
IMG OID645026238 
Productmethionyl-tRNA synthetase 
Protein accessionYP_003183581 
Protein GI258510147 
COG category[J] Translation, ribosomal structure and biogenesis 
COG ID[COG0143] Methionyl-tRNA synthetase 
TIGRFAM ID[TIGR00398] methionyl-tRNA synthetase
[TIGR00399] methionyl-tRNA synthetase C-terminal region/beta chain 


Plasmid Coverage information

Num covering plasmid clones
Plasmid unclonability p-value0.000783903 
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
GTGAAACCGA CCTTCTACGT CACAACGCCC ATCTATTATC CGAACGACAA GCTTCACATC 
GGCCACGCGT ACACCACCGT GGCCGCCGAC GCCATCGCGC GTTACAAGCG CCTGCGGGGC
TACGACGTGT TCTTCCTCAC CGGCACCGAC GAGCACGGCC TCAAGATCCA GCAGCGCGCG
GAGCAGGCTG GGCTCGAGCC GAAGGCGTTT CTGGATCCCA TCATCGCCTG GATTCAGGAC
CTGTGGAAGA AGCTCGACAT CTCCTACGAC GACTTCATTC GAACCACGGA GGCGCGCCAC
GAGCGCGTGG TCGAGCAGAT CTTCGAGCGC CTGCTTCAGC AGGGCGACAT CTACCTCTCG
GAGTATCAGG GCTGGTACTG CACGCCCTGC GAGTCGTACT GGGCGGAGCG GGAGCTCGTG
GACGGCAAGT GTCCGCAGTG CGGGCGCGAG GTCCAGTTCG TCCGCGAAGA GTCGTATTTC
TTCCGCATGA GCAAATACGT GGATCGCCTG CTGCAATACT ACGAGGAGAA CCCGGGCTTC
ATCGAGCCGG TCTCGCGCAA GACGGAGATG ATCAAGAACT TCATCGAGCC CGGGCTGCAG
GACCTCTGCG TCTCGCGCAC CTCGTTCGAT TGGGGCGTGC ACGTACCCTC CAATCCGAAG
CACGTGGTGT ACGTGTGGCT CGACGCGCTC GTCAACTACA TCTCGGCCAT CGGCTACCTC
TCGGACGACG CGGATGAGCG CGTGAAGTTC GAGCGCTACT GGCCCGCGGA CGTGCACGTC
GTCGGCAAGG ACATCGTCCG CTTCCACGCG GTCTACTGGC CCATCATCCT GATGGCCCTT
GGCCTGCCCC TGCCGAAGAA GGTGTTCGGC CACGGATTCT TCCTCGTCAA GGGCGGCAAA
ATGTCGAAGT CGAAGGGGAA CGTGATCGAC CCGCTCTCGC TCGTGGACCG GTACGGCCGC
GACGCGTTCC GCTACTTCCT GCTGCGCGAG ATCCCGTTCG GGCAGGACGG GACGTTCACG
CCCGAGGGCA TGGTCGAGCG GCTCAATTAC GATCTCGCCA ACGACTTCGG CAATCTCGTC
CATCGCACCG CCGCCATGCT GAACCGGTTC AACGACGGCG TGGTGCCCGC GCCGGGATCG
CTCACGGACG TCGATCGCGC CCTTCGCGAC CTCGCGGCGG AGGTCAAGGC GAAGGTCGAG
GAGAACATGG ACCAGCTCCA GTTCTCGGTG GCGCTCGCGG AGCTCTGGAA CCTCGTGCGC
GCGGCCAACA AGTACATCGA CGACTGCCAG CCGTGGAAGC TGAACAAGGA GGGGGAGCGG
GAGCGGCTCG CGACGGTGTT ATACCATATG GTCGAGGCCA TTCGCGTCTC CGCCATTCTC
GTGCAGCCGT TCATGACGGA TGCGCCGAAG GCCATCCGCG AGCAGTTCGG TTGGGGAGAC
GAGGCGTTTG CGTGGGACAG CGCCGAGATG GGCCTCGGCC CGAGCGGTCA AACGGTGGCC
GAGCGGGAGC CTTTGTTCCC GAGACTCGAT GTGGAAAAGG AGATTGAGAT CTTGACGGAG
ATGACAGGTT CGGCTCAGCA GGCCAACGCG GAATCGAAGG CCGAAGAGGC AAGGACGGTG
GTGCACAAGG ACGAGATCAC CATCGACGTC TTCGACAAAG TGGAACTGCG CGTCGGCCAG
GTGCTCGCCT GCGAAAAGCA CCCGAACGCC GACAAGCTGC TCGTGCTTCA GGTCGATCTC
GGCGGCGAAA CGCGCCAAAT TGTGTCCGGC ATTGCGAAGT ACTATCAGCC CGAGGAGCTC
GTGGGCAAAA AGGTGGTCGT CGTGGCCAAC CTGAAGCCCG TGAAGTTGCG CGGCCAGGAC
TCGCTCGGCA TGATCCTCTG CGCGTCCGAG GGGGATACGC TCTCCATCGT GACGGTGCCG
GACAACATGC CGAACGGAGC GATTGTGAAG TGA
 
Protein sequence
MKPTFYVTTP IYYPNDKLHI GHAYTTVAAD AIARYKRLRG YDVFFLTGTD EHGLKIQQRA 
EQAGLEPKAF LDPIIAWIQD LWKKLDISYD DFIRTTEARH ERVVEQIFER LLQQGDIYLS
EYQGWYCTPC ESYWAERELV DGKCPQCGRE VQFVREESYF FRMSKYVDRL LQYYEENPGF
IEPVSRKTEM IKNFIEPGLQ DLCVSRTSFD WGVHVPSNPK HVVYVWLDAL VNYISAIGYL
SDDADERVKF ERYWPADVHV VGKDIVRFHA VYWPIILMAL GLPLPKKVFG HGFFLVKGGK
MSKSKGNVID PLSLVDRYGR DAFRYFLLRE IPFGQDGTFT PEGMVERLNY DLANDFGNLV
HRTAAMLNRF NDGVVPAPGS LTDVDRALRD LAAEVKAKVE ENMDQLQFSV ALAELWNLVR
AANKYIDDCQ PWKLNKEGER ERLATVLYHM VEAIRVSAIL VQPFMTDAPK AIREQFGWGD
EAFAWDSAEM GLGPSGQTVA EREPLFPRLD VEKEIEILTE MTGSAQQANA ESKAEEARTV
VHKDEITIDV FDKVELRVGQ VLACEKHPNA DKLLVLQVDL GGETRQIVSG IAKYYQPEEL
VGKKVVVVAN LKPVKLRGQD SLGMILCASE GDTLSIVTVP DNMPNGAIVK