Gene XfasM23_1108 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagXfasM23_1108 
Symbol 
ID6203870 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameXylella fastidiosa M23 
KingdomBacteria 
Replicon accessionNC_010577 
Strand
Start bp1255752 
End bp1257503 
Gene Length1752 bp 
Protein Length583 aa 
Translation table11 
GC content55% 
IMG OID641702632 
Productacetolactate synthase 2 catalytic subunit 
Protein accessionYP_001829810 
Protein GI182681650 
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[TIGR00118] acetolactate synthase, large subunit, biosynthetic type 


Plasmid Coverage information

Num covering plasmid clones29 
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
ATGAACAGAT CCGCACACAG CGCAACCCGC AATGGTGCGA GCTGGTTGAC GCATGCTCTG 
GAAGCAGAAG GAGTTGATAC ACTCTTCGGC TATCCGGGTG GCACGATCAT GCCGTTTTAT 
GACGCCCTGG TCGATTCTCG CCTCACACAT ATTCTGGTCC GCCATGAACA GGGTGCAGCT 
TTAGCTGCAA ATGGCTATGC CCGCGCTAGC GGACGTGTCG GTGTATGCGT AGCGACGTCA 
GGTCCAGGTG CCTCCAATCT GATCACTGGC ATTGCCGACG CGATGCTAGA TTCAGTCCCC 
ATGGTCTGCT TGACTGGCCA AGTCGCTAGC TCGTTGCTGG GGACCGATGC ATTTCAGGAA 
TTGGACGTAT TTGGCCTAAC CATGCCGATC GTCAAACATA GCTTCTTGGT GCGTTCGATA 
CAGGATCTGC CAAGCATGGT GCAGGACGCA TTCCGTATCG CACGAGAAGG CCGCCCCGGC 
CCTGTCCTGA TCGATTTACC TAAAGATGTC CAAATGACTG ATGCTTCGCA CCTACAGGAC 
CATGTGTCGG CCGCCGTGAT GGCACCGCCG CAAGCAGAAG CAGCGATGAT CATCGAAGCT 
GCAGCAGCAA TCGCCTCTGC TGAGAAACCA GTGATCTATG GCGGCGGCGG CATCGCCCTC 
GCCGATGCAG TTAACGTCTT CCGTACCTTC GTTGATACCA CTAGTATCCC GACCACATTG 
ACACTACGCG GTTTGGGGGC GCTGCCACAC GCTCATCCTC ATTACTTGGG CATGCTGGGC 
ATGCATGGCA CCCGCGCGGC CAACATGGCA ATCCAGGAGT GCGATCTACT ACTTGTCATT 
GGCGCCCGTT TCGACGACCG TGCAACCGGG AAGGTGAACG AATTCGCTCC GTTCGCTCGA 
ATTGTCCACC TTGATGCAGA CGCTTACGAA ATCAATAAGC TACGTAATGC CGACATCGCG 
GTACCAGGCA ACTTAGCCAC AACACTCACT GCCCTTAGCG CCTTGCTGTC ACCCAGTACA 
GCCGACCCAC ACATAAGCTC ATCCAGATAT GAATGGCACG AGCGCTGCAT AGGCAACCGC 
GAACGTTTTG GCGTGCGTTA CGATGCGCCA GGCAATGATA TCTACGCACC GGCCCTACTT 
AAACGCCTGA GCGAAATGGC GCCCGTTGAT ACCATCATTG CTTGCGATGT TGGCCAGCAT 
CAAATGTGGG TGGCGCAACA CTGCAAATTC GAAGATCCAC GTAATCACCT GACCAGCGGT 
GGGCTAGGCA CAATGGGGTT CGGCTTGCCT GCGGCAATGG GTGCGCAGTT TGCCTATCCG 
GAACGCACTG TAGTACTGGT TTCTGGCGAT GGCAGTTTCA TGATGAATGT ACAAGAACTG 
ACCACAATCG CACGGTGCAA GCTACCTTTG AAGATTGTCC TGCTTGATAA CAACTCGCTA 
GGCATGGTTC GGCAATGGCA AGAGCTGTTC TTCGCGGAGC GATACAGTGA AATTGACCTG 
TCTGACAATC CCGATTTCAC TGCATTGGTA CAGGTATTTG GAATTCCTGC AAAACGCATC 
ACGGTTCGCA GCGACGTCGA ACAAGGCTTA GCCTATTTAC TAGCACAACC AGGTCCAGCA 
TTACTGCACG TGCAGATTGA TGCACGCGCC AACGTATGGC CCCTTGTGCC ACCGAACACC 
GCCAACAGCA CCATGCTGGA AAGCAATCCG GCCCACGTTC AGAAGGAAAC GCCCCATGCA 
ATACCGGCTT GA
 
Protein sequence
MNRSAHSATR NGASWLTHAL EAEGVDTLFG YPGGTIMPFY DALVDSRLTH ILVRHEQGAA 
LAANGYARAS GRVGVCVATS GPGASNLITG IADAMLDSVP MVCLTGQVAS SLLGTDAFQE 
LDVFGLTMPI VKHSFLVRSI QDLPSMVQDA FRIAREGRPG PVLIDLPKDV QMTDASHLQD 
HVSAAVMAPP QAEAAMIIEA AAAIASAEKP VIYGGGGIAL ADAVNVFRTF VDTTSIPTTL 
TLRGLGALPH AHPHYLGMLG MHGTRAANMA IQECDLLLVI GARFDDRATG KVNEFAPFAR 
IVHLDADAYE INKLRNADIA VPGNLATTLT ALSALLSPST ADPHISSSRY EWHERCIGNR 
ERFGVRYDAP GNDIYAPALL KRLSEMAPVD TIIACDVGQH QMWVAQHCKF EDPRNHLTSG 
GLGTMGFGLP AAMGAQFAYP ERTVVLVSGD GSFMMNVQEL TTIARCKLPL KIVLLDNNSL 
GMVRQWQELF FAERYSEIDL SDNPDFTALV QVFGIPAKRI TVRSDVEQGL AYLLAQPGPA 
LLHVQIDARA NVWPLVPPNT ANSTMLESNP AHVQKETPHA IPA