Gene BT9727_2298 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagBT9727_2298 
SymboliolD 
ID2857652 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameBacillus thuringiensis serovar konkukian str. 97-27 
KingdomBacteria 
Replicon accessionNC_005957 
Strand
Start bp2385429 
End bp2387363 
Gene Length1935 bp 
Protein Length644 aa 
Translation table11 
GC content39% 
IMG OID637513722 
Productmalonic semialdehyde oxidative decarboxylase 
Protein accessionYP_036624 
Protein GI49477736 
COG category[E] Amino acid transport and metabolism 
COG ID[COG3962] Acetolactate synthase 
TIGRFAM ID 


Plasmid Coverage information

Num covering plasmid clones39 
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
ATGCAAACTG TTAGAATGAC AACGGCGCAA GCATTGGTAA AGTTTTTAAA TCAGCAATAT 
GTGGAGTTTG ATGGAAAGCA ACAAAAGTTT GTTAAGGGAA TCTTTACGAT TTTTGGTCAT 
GGAAATGTAG TAGGCCTAGG TCAGGCTTTA GAAGAGGACG CTGGGGAATT AGAAGTATAT 
CAAGGGAGAA ATGAGCAAGG AATGGCAAAT GCTGCGATGG CTTTTGCAAA ACAAAAACAT 
AGAAAACAAA TTATGGCATG TACTTCTTCT GTTGGTCCTG GATCAGCAAA TATGATTACC 
TCTGCAGCAA CAGCTTCTGC AAATAATATT CCCGTTTTAT TACTTCCAGG AGATGTATTT 
GCAACGAGAC AACCTGATCC TGTTCTTCAA CAAATTGAAC AAACACATGA CTTATCTATT 
TCTACAAATG ATGCTTTTCG TGCAGTAAGT AAGTACTGGG ACCGGATAAA TCGTCCTGAA 
CAATTGATGA CCGCTATGAT TCAAGCGATG CGTGTTTTAA CGAATCCGGC AGATACAGGA 
GCTGTAACCA TTTGTTTACC ACAAGATGTC CAAGGAGAAG CATGGGATTT TCCAAGTTAC 
TTCTTCCAAA AGCGTGTTCA CCGTATTGAA CGCCGTCTAC CTACAAAAGC CAGCTTAGCG 
GATGCAGTGG AAATGATTAA GAGAAAGAAA AAGCCAGTTA TGATTTGCGG TGGTGGTGTA 
AGATACGCAG AAGCGGCAGA AGAGTTAAAA CAGTTTGCTG AAACATTCCA CATTCCATTT 
GGAGAAACAC AAGCTGGAAA AAGTGCGATT GAAAGTAGTC ATCCATATAA TCTAGGCGGC 
ATTGGGGTAA CGGGAAATGT AGCAGCTAAT ACAATTGCAA AGGAAGCGGA TCTTGTTATT 
GGCATCGGGA CGAGATTTAC TGATTTTACA ACGGCATCTA AACAATTATT TCAAAATGAA 
GAAGTTGAGT TTTTAAACAT CAACATTTCA GAATTCCATG CGAATAAGCT GGATGCATTA 
AAGGTTATAG CGGACGCGAA AGAAGCACTT CTTGCTCTAA TAGATGAACT GCAAGAAATT 
GATTATCAAT CTAGTTATAC AGTAGAAATT GCTGATGCAA AAGATGCTTG GGAAACAGAA 
TTATCACGTC TACATAATAT TCGCTTTACA TGTCAAGATT TCACACCAGA AGTCGAAGGT 
CATTTCAATG AAAATTTAAA TGAGTATGTA GACGCACTTG GTACACAATT AACACAGACT 
GCAGTCATTG GACAAATCAA TACATTACTT GATAAAGATG CAATTATTGT TGGAGCAGCA 
GGAAGTCTTC CAGGTGATTT ACAAAGAATG TGGGCATCGA GAAAACCTAA TACATATCAC 
ATGGAGTATG GATACTCTTG CATGGGTTAT GAGGTTGCGG GCGCACTTGG TGCAAAGCTA 
GCTGAACCAT CGAAAGAAGT ATATGCAATG GTAGGGGATG GTAGTTACCA GATGCTTCAT 
TCTGAGCTTG TCACAAGTCT TCAAGAAAAC AAAAAAATTA ACGTCTTATT GTTTGATAAC 
TCCGGATTTG GCTGCATTAA TAACTTACAA ATGGGCAATG GAATGGGGAG CTTTGGAACA 
GAGTTTCGCT ACCGAAACCA GGAAACACGT AAATTAGACG GAGCAATTAT GAAAATCGAT 
TTTGCAGCTA GCGCAGCTGG ATATGGTGTG AAAACATATC ATGTTACATC ACTAGAACAA 
TTACAAGAAG CGCTTATAGG TGCGAAAAAA CAAACAGTTT CTACATTAAT TGATATTAAA 
GTATTACCCA AAACAATGAC AAATGGATAC GAGTCATGGT GGCATGTAGG TGTTGCAGAA 
GTATCTAAAA ATCAAAGTGT ACAAGCTGCG TACGAGAGTA AAGTAAGTAA CTTGCAACAG 
GCAAGATCTT ATTAG
 
Protein sequence
MQTVRMTTAQ ALVKFLNQQY VEFDGKQQKF VKGIFTIFGH GNVVGLGQAL EEDAGELEVY 
QGRNEQGMAN AAMAFAKQKH RKQIMACTSS VGPGSANMIT SAATASANNI PVLLLPGDVF 
ATRQPDPVLQ QIEQTHDLSI STNDAFRAVS KYWDRINRPE QLMTAMIQAM RVLTNPADTG 
AVTICLPQDV QGEAWDFPSY FFQKRVHRIE RRLPTKASLA DAVEMIKRKK KPVMICGGGV 
RYAEAAEELK QFAETFHIPF GETQAGKSAI ESSHPYNLGG IGVTGNVAAN TIAKEADLVI 
GIGTRFTDFT TASKQLFQNE EVEFLNINIS EFHANKLDAL KVIADAKEAL LALIDELQEI 
DYQSSYTVEI ADAKDAWETE LSRLHNIRFT CQDFTPEVEG HFNENLNEYV DALGTQLTQT 
AVIGQINTLL DKDAIIVGAA GSLPGDLQRM WASRKPNTYH MEYGYSCMGY EVAGALGAKL 
AEPSKEVYAM VGDGSYQMLH SELVTSLQEN KKINVLLFDN SGFGCINNLQ MGNGMGSFGT 
EFRYRNQETR KLDGAIMKID FAASAAGYGV KTYHVTSLEQ LQEALIGAKK QTVSTLIDIK 
VLPKTMTNGY ESWWHVGVAE VSKNQSVQAA YESKVSNLQQ ARSY