Gene Phep_3419 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagPhep_3419 
Symbol 
ID8254539 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism namePedobacter heparinus DSM 2366 
KingdomBacteria 
Replicon accessionNC_013061 
Strand
Start bp4072414 
End bp4074153 
Gene Length1740 bp 
Protein Length579 aa 
Translation table11 
GC content47% 
IMG OID644937072 
Productacetolactate synthase, large subunit, biosynthetic type 
Protein accessionYP_003093675 
Protein GI255533303 
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 clones
Plasmid unclonability p-value0.130634 
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clones36 
Fosmid unclonability p-value
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGGATACAG CACAAGAGGT AACAAACACC TTAACTGAAC CCAAAAAAAC AACTAACGTT 
TCTGGTTCAG TAGCTTTATT GGAAGGATTA ATAGCCGAAG GTACAGATAC CATTTTTGGC 
TACCCTGGTG GTGCGATCAT GCCTATTTAT GACGCCCTAT ACGATTATAA CGATAAATTA 
AAACATATAC TGGTACGCCA TGAGCAGGGG GCAACCCATG CAGCCCAGGG CTATGCCAGA 
ACGTCGGGCA AGGTTGGTGT TGCATTTGCA ACCAGCGGCC CGGGTGCCAC CAACCTGGTT 
ACCGGTCTGG CCGATGCACA GATTGACAGC ACACCTATGG TATGTATTAC CGGTCAGGTA 
TTTGCGCACC TGCTGGGTAC GGATGCTTTC CAGGAAACAG ATGTGATCAA CATTACCACA 
CCGGTTACCA AATGGAACTA CCAGGTAACC GATGCCTCAG AAATTCCGGC TGTACTGGCA 
AAAGCATTTT ACATTGCCCG CAGCGGCAGG CCCGGCCCGG TACTGATAGA CATTACCAAA 
AATGCACAGC TGCAAATGTT CGACTATGAG GGTTATACCC CTTGTGAACA CATCCGTAGC 
TACCGCCCTA AACCAGTGGT AAGAAAAGAA TACATTGAAC AGGCCGCTGC AATGATCAAC 
ACTGCGAAAA AGCCTTTCAT TTTATTCGGA CAAGGCGTAT TGCTGGGCAG TGCGGAGCAG 
GAGTTTAAAG CTTTTGTAGA AAAAAGTGGT ATCCCTGCAG CATGGACCAT TATGGGTGCC 
GGTGCAATCC CTACTGATCA TCCCCTAAAT GTAGGGATGC TGGGTATGCA TGGTAACTAT 
GGCCCTAACG TTCAGACTAA TGCCTGCGAT GTGCTGATTG CCATTGGAAT GCGTTTTGAT 
GACCGGGTAA CCGGGCGTTT AGACAAATAT GCGAAACAGG CCAAAGTAAT CCACCTGGAT 
ATTGATCCGG CTGAGATAGA CAAAAACGTA AAAGCTGATG TGCCGGTATG GGGTGATTGT 
AAAGAAACGC TGCCCCTGCT TACCGAATTG ATCGAAGAGA AAAAACATAC CGATTGGCTG 
GCTGAGTTTA GGGCTTATGA CAAAATTGAA CAGGATACTT TAATCCAAAA GGAATTGAAC 
CCTACAGAAG GTGAAATGAC TATGGGTGAG GTGATCCATC AGTTAAATGT ACTGACCAAG 
GGAGAAGCTG TAATTGTAAC TGATGTGGGC CAGCACCAGA TGGTGGCCTG CCGCTATGCC 
AAGTTTAACA ATAGCAGGAG CAATATTACC AGTGGTGGCC TGGGCACTAT GGGTTTTGGC 
TTACCGGCAG CAATAGGGGC CAAATTTGGC ACACCTGATA AAACGGTAGT TGCCGTAATT 
GGTGATGGTG GCTTCCAGAT GACTTTACAG GAGTTGGGTA CCATTATGCA GACTGAGGTA 
AATGTAAAGA TCCTGATCCT GAACAACAGG TTCCTGGGTA TGGTTCGCCA GTGGCAGCAA 
CTGTTCCATG AAAAGCGATA TTCATTTGTG AACATCACCA GTCCTGATTT TGTAAAGCTT 
GCCGATTCTT ATTATATCGC CGGCAAAAGA ATTGATGAGC GTGCGCAATT AACGGGCGCC 
CTGGAAGAAA TGCTGAACCA TCCGGGCTCA TTCCTTTTGG AAGTAATGGT AGCACAGGAA 
CACAATGTAT TCCCAATGGT ACCACAAGGT ATGAGTGTAG CCGAAATCAG ACTTAAATAA
 
Protein sequence
MDTAQEVTNT LTEPKKTTNV SGSVALLEGL IAEGTDTIFG YPGGAIMPIY DALYDYNDKL 
KHILVRHEQG ATHAAQGYAR TSGKVGVAFA TSGPGATNLV TGLADAQIDS TPMVCITGQV 
FAHLLGTDAF QETDVINITT PVTKWNYQVT DASEIPAVLA KAFYIARSGR PGPVLIDITK 
NAQLQMFDYE GYTPCEHIRS YRPKPVVRKE YIEQAAAMIN TAKKPFILFG QGVLLGSAEQ 
EFKAFVEKSG IPAAWTIMGA GAIPTDHPLN VGMLGMHGNY GPNVQTNACD VLIAIGMRFD 
DRVTGRLDKY AKQAKVIHLD IDPAEIDKNV KADVPVWGDC KETLPLLTEL IEEKKHTDWL 
AEFRAYDKIE QDTLIQKELN PTEGEMTMGE VIHQLNVLTK GEAVIVTDVG QHQMVACRYA 
KFNNSRSNIT SGGLGTMGFG LPAAIGAKFG TPDKTVVAVI GDGGFQMTLQ ELGTIMQTEV 
NVKILILNNR FLGMVRQWQQ LFHEKRYSFV NITSPDFVKL ADSYYIAGKR IDERAQLTGA 
LEEMLNHPGS FLLEVMVAQE HNVFPMVPQG MSVAEIRLK