Gene XfasM23_0224 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagXfasM23_0224 
Symbol 
ID6203905 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameXylella fastidiosa M23 
KingdomBacteria 
Replicon accessionNC_010577 
Strand
Start bp300296 
End bp303022 
Gene Length2727 bp 
Protein Length908 aa 
Translation table11 
GC content56% 
IMG OID641701762 
Productaconitate hydratase 
Protein accessionYP_001828955 
Protein GI182680795 
COG category[C] Energy production and conversion 
COG ID[COG1048] Aconitase A 
TIGRFAM ID[TIGR01341] aconitate hydratase 1 


Plasmid Coverage information

Num covering plasmid clones28 
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
ATGCGCGATT CATTCTCCAC CCATCGTCAA TTACACGTCG GGAACCAGTC TTACCACTAT 
TACAGCCTTA CGAAACTGGG TGAGCACTTC GACATATCGC ACCTTCCCTA CTCAATGAAG
ATCTTGCTGG AGAATCTGCT CCGGCATGAA GACGGCGGCG TCACCGTCAG CACCGCGCAT
ATTGAGGCAG TGGCCAAATG GAATCCCAAA GCCGAGCCGG ACACCGAAAT TGCATTCATG
CCAGCCCGTG TGTTGCTACA GGACTTCACC GGAGTTCCCT GCTTAGTCGA CTTGGCAGCC
ATGCGTGACG CAGCCATCAG ACTCGGCGGC ACTGCAGAGC AGATCAACCC ACACATCCCA
TCAGAACTTG TCATTGACCA CTCCGTACAG GTTGACGTTT TTGGCAAACC GGAGGCACTA
GAACGCAACG GCAACATTGA GTTCCAACGC AACAAAGAAC GTTACGGCTT CCTACGCTGG
GGCCAAAAAG CATTCAACAA CTTCAAGGTT GTACCGCCGA ATACCGGCAT CGTCCACCAA
GTCAACTTAG AACACCTTGC TCGCGTGGTC ATGACGACCG AAAAAGAGGG CGCCACCTGG
GCCTATCCAG ACACCGTGTT CGGTACCGAC AGCCATACCA CGATGATTAA CGGAATCGGC
GTACTCGGCT GGGGCGTCGG TGGTATCGAA GCCGAAGCGG CAATGCTGGG TCAGCCCTCT
TCGATGCTGA TCCCCCAGGT GGTCGGCTTC AAACTCACTG GCACACTCCC CGAGGGCGCC
ACAGCCACTG ATCTGGTGCT GACTGTCACC CAGATGCTAC GGAAACACGG TGTGGTCGGC
AAATTCGTTG AGTTCTACGG CGATGGCCTA GCACATCTGC CACTGGCTGA TCGCGCCACC
ATCGGAAACA TGGCACCGGA ATATGGTGCC ACCTGCGGCA TCTTCCCGAT CGACACAGAA
TCATTGAATT ACCTACGCCT GTCAGGACGC AGCGAATCGC AAATCGCACT GGTCCAAGCC
TACGCAAAAG CACAGGGGCT GTGGTATGCG CCCAACACCC CGCCTCCCAG TTACAGCACC
ACGCTGGAAC TGAACATGGA CGACATCAAA CCATCGTTGG CCGGTCCCAA ACGTCCCCAA
GACCGTGTGC TACTGCAAGA CATGCAAAAC AACTACCGCG AACACGTTCG CGCACTGACC
GCACATCGCA CCACCAAAGC CAACGATCAC GACACACACC CCATCAAGGG ACAAGTTGAC
CTCGATATCA ACGGACAAAC ACTGCAACTC AAGGATGGCG CCGTCGTCAT TGCAGCCATC
ACTTCCTGCA CCAACACCTC TAATCCGGCG GTGATGTTCG GCGCTGGCCT GCTGGCACGC
AATGCCGTTG CCAAGGGACT GCAACGCCAA CCCTGGGTCA AAACCTCGCT TGCCCCTGGT
TCGCGTGTTG TCACGGACTA CCTGGAGAAA GCCGGCCTGC TCAACGATCT GGAGACACTC
GGGTTCTACG TGGTTGGCTA CGGCTGCACT ACCTGCATCG GGAATTCTGG GCCACTGCCC
CCAGAAGTGA GCGCAGGCAT CGCCAAGGGC GACTTGGTAG CCGCCGCAGT ACTGTCGGGA
AACCGTAACT TTGAAGGGCG CATCCATCCA GAAGTCAAAA TGAACTATCT CGCCAGTCCA
GCACTGGTCG TTGCCTATGC CATCGCAGGC ACGGTCAATA GTGATCTGAC CTCCGAGCCA
TTGGGCAATG GCAACGACGG ACAGCCGGTT TACCTGCGCG ACATTTGGCC AAGCAACAAA
CAGATTGGAG ATGCCATCGC CGCCACAATC GGTCCGGAGA TGTTCCAACA GAACTACGCC
GACGTGTTTA AAGGTGACAC CCGCTGGAAC ACCATCGCCT CACCAAACGG AGCGTTGTAC
GCCTGGGACG CCCACTCAAC TTACATCAAA AATCCCCCAT ATTTCGATGG GATGACGATG
CAAACAGAGC CTGTCAAGGA CGTTCGCGGC GCGCGCGTGC TTGGCCTGTT TGCTGATTCG
ATCACCACCG ACCACATCTC CCCAGCCGGC AACATCAAAC AGGATTCTCC CGCCGGACGC
TTCCTGCAAG AACATGGCGT ACAGCCTACC GACTTCAACA GCTACGGCAG CCGCCGTGGG
CATGACGATG TCATGGTACG CGGCACCTTC GCCAACATCC GCCTCAAAAA CCTCATGCTC
AACGGCGAAG AAGGTGGGAA CACATGGTAT CGCCCCAAAG CCGGTGGGCC ACCGGAGAAG
ATGTCGATCT ATGACGCCGC GATGAAGTAC AACACAGACG GCGTCCCGCT GGTGGTAATC
GCTGGAAAGG AGTACGGCAC TGGCTCCTCA CGCGACTGGG CAGCCAAGGG AACCAAACTC
CTTGGAATTA AAGCCGTCAT TGCCGAGAGT TTCGAGCGTA TCCACCGCTC CAACCTCGTC
GGCATGGGCG TACTGCCACT GCAATTTCTC GACGGCCAGA ACGCACAGAC ACTGGGTCTG
GATGGATCGG AAATGTTCGA TGTGACCGGT TTGGAGGGCA CTATCAGCAA ACATGCCACC
GTGAGTGCAA AACAATCTGA TGGCAGCATC AAACAGTTTC AAGTCAAGGT CCTACTGCTC
ACCCCGAAGG AAGTGGACTA CTTCACACAT GGTGGACTGC TCCAGTATGT GCTGCGCCAT
CTGATCAACA CTGGCAAGCC TGCTTAA
 
Protein sequence
MRDSFSTHRQ LHVGNQSYHY YSLTKLGEHF DISHLPYSMK ILLENLLRHE DGGVTVSTAH 
IEAVAKWNPK AEPDTEIAFM PARVLLQDFT GVPCLVDLAA MRDAAIRLGG TAEQINPHIP
SELVIDHSVQ VDVFGKPEAL ERNGNIEFQR NKERYGFLRW GQKAFNNFKV VPPNTGIVHQ
VNLEHLARVV MTTEKEGATW AYPDTVFGTD SHTTMINGIG VLGWGVGGIE AEAAMLGQPS
SMLIPQVVGF KLTGTLPEGA TATDLVLTVT QMLRKHGVVG KFVEFYGDGL AHLPLADRAT
IGNMAPEYGA TCGIFPIDTE SLNYLRLSGR SESQIALVQA YAKAQGLWYA PNTPPPSYST
TLELNMDDIK PSLAGPKRPQ DRVLLQDMQN NYREHVRALT AHRTTKANDH DTHPIKGQVD
LDINGQTLQL KDGAVVIAAI TSCTNTSNPA VMFGAGLLAR NAVAKGLQRQ PWVKTSLAPG
SRVVTDYLEK AGLLNDLETL GFYVVGYGCT TCIGNSGPLP PEVSAGIAKG DLVAAAVLSG
NRNFEGRIHP EVKMNYLASP ALVVAYAIAG TVNSDLTSEP LGNGNDGQPV YLRDIWPSNK
QIGDAIAATI GPEMFQQNYA DVFKGDTRWN TIASPNGALY AWDAHSTYIK NPPYFDGMTM
QTEPVKDVRG ARVLGLFADS ITTDHISPAG NIKQDSPAGR FLQEHGVQPT DFNSYGSRRG
HDDVMVRGTF ANIRLKNLML NGEEGGNTWY RPKAGGPPEK MSIYDAAMKY NTDGVPLVVI
AGKEYGTGSS RDWAAKGTKL LGIKAVIAES FERIHRSNLV GMGVLPLQFL DGQNAQTLGL
DGSEMFDVTG LEGTISKHAT VSAKQSDGSI KQFQVKVLLL TPKEVDYFTH GGLLQYVLRH
LINTGKPA