Gene Aave_2859 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagAave_2859 
SymbolthrS 
ID4666402 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameAcidovorax citrulli AAC00-1 
KingdomBacteria 
Replicon accessionNC_008752 
Strand
Start bp3149538 
End bp3151457 
Gene Length1920 bp 
Protein Length639 aa 
Translation table11 
GC content64% 
IMG OID639824059 
Productthreonyl-tRNA synthetase 
Protein accessionYP_971201 
Protein GI120611523 
COG category[J] Translation, ribosomal structure and biogenesis 
COG ID[COG0441] Threonyl-tRNA synthetase 
TIGRFAM ID[TIGR00418] threonyl-tRNA synthetase 


Plasmid Coverage information

Num covering plasmid clones
Plasmid unclonability p-value0.248456 
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clones20 
Fosmid unclonability p-value
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGATCCGGA TCACGCTTCC CGACAACTCC CAACGCGAAT ACGCCGGCCC CGTCTCCGTG 
GCCGACGTGG CCCAGTCCAT CGGGCCGGGG CTCGCCAAGA TGACCGTGGC CGGCAAGGTC 
GATGGCCGCC TGGTGGATGC CAGCGACGTG ATCGACCACG ACGCGCGCCT GCAGATCATC 
ACTCCCTGGG ACCAGGAGGG CGTGGAAATC ATCCGCCACT CCTGCGCCCA CCTGGTGGGC 
CATGCCGTCA AGCAGCTGTA CCCGACGGCG AAGATGGTGA TCGGCCCGGT GATCGAAGAG 
GGCTTCTATT ACGACATCGC CTATGAGCGC CCGTTCACGC CCGAAGACCT CGCGGCGATC 
GAGCAGCGCA TGAAGGAGCT CATCGCGCAG GACTACGACG TCGTCAAGAA GATGACGCCG 
CGCGACGAGG TGATCCAGGT CTTCCGCGAG CGCGGCGAGG AATACAAGCT GCGCCTCGTG 
GAAGACATGC CCGACGAGAA GGCCATGGGC CTGTACTACC ACCAGGAATA CGTGGACATG 
TGCCGCGGCC CGCACGTGCC GAACACCCGC TTCCTGAAGG TGTTCAAGCT CACGCGCGTC 
TCCGGCGCCT ACTGGCGCGG CGATGCCAGG AACGAGCAGC TGCAGCGCAT CTACGGCACC 
GCCTGGGCCG ACAAGAAGGA CCTGGAGGCG TACGTCAAGC GCATCGAGGA AGCCGAAAAG 
CGCGACCACC GTCGCCTCGG CCGCGAGCTC GACCTGTTCC ACATCGACGA GCACTCCCCC 
GGCACGGTCT TCTGGCATCC GAAGGGCTGG ACGATCTGGC AGGGCGTGGA GCAGTACATG 
CGCCAGGTGT ACCGCGACAA CGGCTACCAG GAGGTCAAGG GCCCGCAGAT CCTCGACAAG 
CACCTCTGGG AGAAAACGGG CCACTGGGAC AAGTACCGCG AGAACATGTT CACGACCGAG 
AGCGAGAAGC ACGACTACGC CCTCAAGCCG ATGAACTGCC CCGGCCACAT CCTGATCTTC 
AACCAGGGCG TGAAGAGCTA CCGCGACCTG CCGCTGCGCT ACGGCGAGTT CGGCCAGTGC 
CACCGCAACG AGCCCACGGG CGGCCTGCAC GGCATCATGC GCGTGCGCGC CTTCACGCAG 
GACGACGGAC ACATCTTCTG CACCGAAGAC CAGATCCAGC AGGAGTGCAT CAACTTCACG 
GCCCTGCTGC AGAAGGTGTA CAAGGATTTC GGCTTCACCG ACATCATCTA CAAGGTGGCG 
ACGCGCCCCG AAAAGCGCAT CGGCTCGGAA GAAAGCTGGG ACAAGGCCGA GAATGCCCTC 
ATCGAGAGCC TGAAGGCCTC GGGCTGCGAT TACCAGATCG CGGTGGGCGA CGGCGCGTTC 
TACGGCCCGA AGCTCGAGTA CACGCTGCGC GATGCGATCG GCCGCCACTG GCAGTGCGGC 
ACGATCCAGG TGGACCCGTC CATGCCGGAG CGCCTGGGGG CGGAATATGT AGGAGAAGAT 
GGCCAGCGCC ACCGCCCCAT CGTGCTGCAC CGCGCCATCG TCGGAAGCCT GGAGCGTTTC 
ATCGGCATCC TGATCGAGCA GCACGCCGGT GCACTGCCCG TCTGGCTGGC CCCGGTGCAG 
GTGGCGGTGC TCAACATTAC CGGCGCGCAG GACGATTACT GTCGCGAAAT TGCCGCAAAG 
CTCCAAAAAG CGCTGCCGAA TCAAGGCCTT AGGGTGGAGC TGGATCTGCG CAACGAGAAG 
ATTACGTATA AAATACGAGA GCATTCGTTG CAAAAGCTGC CCTATATCCT CGTCGTGGGC 
GACAAGGAAA AGGCGGCTGG AGCCGTTGCC GTGCGGGCGC GGGGTAACCG TGATCTGGGT 
GTGATGCCGC TGGAGGCCTT CATTTCCCTG ATCGGGCAGG ACATCGCCGA CAAGGTCTGA
 
Protein sequence
MIRITLPDNS QREYAGPVSV ADVAQSIGPG LAKMTVAGKV DGRLVDASDV IDHDARLQII 
TPWDQEGVEI IRHSCAHLVG HAVKQLYPTA KMVIGPVIEE GFYYDIAYER PFTPEDLAAI 
EQRMKELIAQ DYDVVKKMTP RDEVIQVFRE RGEEYKLRLV EDMPDEKAMG LYYHQEYVDM 
CRGPHVPNTR FLKVFKLTRV SGAYWRGDAR NEQLQRIYGT AWADKKDLEA YVKRIEEAEK 
RDHRRLGREL DLFHIDEHSP GTVFWHPKGW TIWQGVEQYM RQVYRDNGYQ EVKGPQILDK 
HLWEKTGHWD KYRENMFTTE SEKHDYALKP MNCPGHILIF NQGVKSYRDL PLRYGEFGQC 
HRNEPTGGLH GIMRVRAFTQ DDGHIFCTED QIQQECINFT ALLQKVYKDF GFTDIIYKVA 
TRPEKRIGSE ESWDKAENAL IESLKASGCD YQIAVGDGAF YGPKLEYTLR DAIGRHWQCG 
TIQVDPSMPE RLGAEYVGED GQRHRPIVLH RAIVGSLERF IGILIEQHAG ALPVWLAPVQ 
VAVLNITGAQ DDYCREIAAK LQKALPNQGL RVELDLRNEK ITYKIREHSL QKLPYILVVG 
DKEKAAGAVA VRARGNRDLG VMPLEAFISL IGQDIADKV