Gene MmarC6_0239 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagMmarC6_0239 
Symbol 
ID5738734 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameMethanococcus maripaludis C6 
KingdomArchaea 
Replicon accessionNC_009975 
Strand
Start bp218760 
End bp220523 
Gene Length1764 bp 
Protein Length587 aa 
Translation table11 
GC content40% 
IMG OID641282703 
Productacetolactate synthase catalytic subunit 
Protein accessionYP_001548292 
Protein GI159904630 
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 clones33 
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
ATGAAAGGAG CAGAGGCTAT GATGAAGGCC CTAGAAGCGG AAAATGTAAA AGTCCTCTTT 
GGATATCCCG GAGGTTCCTT ACTTCCCTTT TACGATGCGC TATACCACAG CGACCTTGTA 
CATATTTTAA CAAGGCATGA ACAGGCTGCA GCACACGCGG CTGATGGGTA TGCAAGAGCG 
AGCGGAGATG TTGGTGTTTG CGTTGCTACA TCTGGACCCG GGGCTACAAA CCTTGTTACC 
GGAGTTGCAA CAGCACACGC GGATTCTTCT CCAGTCGTCG CATTAACCGG ACAGGTTCCA 
ACAAAATTAA TCGGAAATGA TGCATTTCAG GAGATTGATG CACTTGGAAT ATACATGCCG 
ATTACAAAGC ACAATTTCCA GATTCAAAAA ACAAATGAAA TTCCAAAAAT ATTTAGAAAA 
GCATTTGAAA TTGCAAAAAC TGGAAGGCCT GGTGCAGTTC ATATCGATTT ACCAAAAGAT 
GTTCAGGATA ACGAATTAGA CTTAGAAAAA TATCCAATTC CTGCAGATAT TAATCTTCAA 
GGATACAAAC CGACCAAGTT TGGACACCCA TTACAGATTA AAAAAGCAGT GGAATTGATG 
AAAATCGCAC AAAGACCTGT TATTATTGCA GGTGGTGGAG TTCAAATTGC AAGTGCAACA 
CCAGAACTTA TAAAATTATC AGAATATGCT CAAATTCCAG TATGTACTAC TTTAATGGGT 
AAAGGAGTTT TCCCTGAAGA GCACCCACTT GCACTTGGTT TAGTTGGAAT GCACGGAACA 
CAAGCATCAA ACTATTCAGT TTACGAAAGT GATGTTTTAA TTTCAATTGG GTGCAGGTTT 
TCAGATAGGA TTACGGGAGA CATTTCGACT TTTGCACCAA ATGCAAAAGT AATTCACATA 
GATATAGATC CAGCAGAGAT TGGTAAGAAT GTTAGGGTGG ATATTCCGAT AGTTGGGGAT 
GCAAAAGCAA TTTTAAAAGA TGTACTGATC CATTTGATGA AAAAAGAAAT TGTTAATAAA 
TCAGAATGGA TGGAAAACGT TAAAAAACTT CAGAAAAAAT CCATACCAGT AATGGAGTTT 
GACAATACTC CGATAAAACC TCAAAAAGTT ATCAAGGAAA TGATGAATGC AGTTCGAGAA 
GTCGATCCAA GTTTAACAAA CACGGTTATT ACAACAGATG TTGGTCAAAA CCAGATGTGG 
ATGGCGCATT ATTTCCAAAC AAATACTCCA AAATCATTCC TTTCCTCAGG TGGGCAGGGC 
ACAATGGGTT TTGGATTCCC TGCAGCGATA GGTGCTAAAT TTGCAAGGCC AGATGCAAAC 
GTAATTGCTG TAACTGGGGA CGGCGGATTT TTAATGAATT CACAGGAACT TGCAACAATT 
GCAGAATATC AAATACCTGT TATCGTTGTG ATTTTCGACA ACAGGACACT TGGAATGGTT 
TACCAGTGGC AGAATCTCTA TTATGGAAAG CGCCAGTGTG CAGTACACCT TGGAGAAACA 
CCCGACTTCC TAAAGCTTGC AGAAAGTTAT GGAATCGATG CTTTAAGGGT TGAAAAACCT 
GGAGATATCA ACGAAGCCTT TAAAACTGCA TTAAATAGTG GAAAACCGTA TTTGATTGAT 
ATTATAATCG ACCCGGCAGA AGCGCTTCAC ATGGTACCTC CTGGAGGAAA CATGACTAAT 
ATATTATTCC CGGAAAGACA GGAGCCAACT CCAAAAGCTC AATGCTTTAG CGAAATGAAA 
AAAATACTTA ATCCTAGGGT CTAA
 
Protein sequence
MKGAEAMMKA LEAENVKVLF GYPGGSLLPF YDALYHSDLV HILTRHEQAA AHAADGYARA 
SGDVGVCVAT SGPGATNLVT GVATAHADSS PVVALTGQVP TKLIGNDAFQ EIDALGIYMP 
ITKHNFQIQK TNEIPKIFRK AFEIAKTGRP GAVHIDLPKD VQDNELDLEK YPIPADINLQ 
GYKPTKFGHP LQIKKAVELM KIAQRPVIIA GGGVQIASAT PELIKLSEYA QIPVCTTLMG 
KGVFPEEHPL ALGLVGMHGT QASNYSVYES DVLISIGCRF SDRITGDIST FAPNAKVIHI 
DIDPAEIGKN VRVDIPIVGD AKAILKDVLI HLMKKEIVNK SEWMENVKKL QKKSIPVMEF 
DNTPIKPQKV IKEMMNAVRE VDPSLTNTVI TTDVGQNQMW MAHYFQTNTP KSFLSSGGQG 
TMGFGFPAAI GAKFARPDAN VIAVTGDGGF LMNSQELATI AEYQIPVIVV IFDNRTLGMV 
YQWQNLYYGK RQCAVHLGET PDFLKLAESY GIDALRVEKP GDINEAFKTA LNSGKPYLID 
IIIDPAEALH MVPPGGNMTN ILFPERQEPT PKAQCFSEMK KILNPRV