Gene Mhun_0630 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagMhun_0630 
Symbol 
ID3922945 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameMethanospirillum hungatei JF-1 
KingdomArchaea 
Replicon accessionNC_007796 
Strand
Start bp729645 
End bp731420 
Gene Length1776 bp 
Protein Length591 aa 
Translation table11 
GC content48% 
IMG OID637896269 
Productthiamine pyrophosphate enzyme-like TPP-binding 
Protein accessionYP_502105 
Protein GI88601927 
COG category[C] Energy production and conversion
[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]
[COG1773] Rubredoxin 
TIGRFAM ID 


Plasmid Coverage information

Num covering plasmid clones15 
Plasmid unclonability p-value0.123449 
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clones
Fosmid unclonability p-value0.0516378 
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGGCTGTAT GGAAATGTAA CATCTGTGGA TATCTCTATA ATGAAACAAC CGGAGATCCG 
ACCTCCTCCA TACCACCTGG AACTCCATTT GCAGCAATCC CTGATACCTG GCGATGTCCG 
ATCTGTCATG CAGACAAAAC AGTCTTTATA CAGGTGAGTG AAGCATCACC AGAAGGCACC 
CCATTCCCCA CAGTTTCTGA AGCAATAATT GAAAACCTCG TTCACTTTGG TATCACAGAG 
TATTTCGGAG TTCCTGGAAC GAGCAGTCTT GGGATCATTG ATGCAATCAG GAAACATGAA 
CGAGCGAATT TCACGCTCTT CCGACATGAA GAGAATGCAG CAATGGCCGC TTCAGCCTAC 
AATAAGCTCA CCGGAAAAGT AGCAGCATGT GTGACCATTG CAGGACCAGG AGCGACCAAT 
CTTGCAACCG GTCTTTATGA TGCCAAGGAA GATCGGGCAT CCGTGCTCTC GATAAACGGA 
CAGGTAGAGA TGCAGTATGC CGGTCCGGGC GGTTTTCAGG AGATTGATCA GGATGCCTTT 
TTCAGGCCGG TTACGGTCTA TAACAACACT ATCTATGATA AAAAGATGGC TGTAAAGATC 
CTGACCGTGG CCGTTCAGCA TGCCATTGTC AGAAGTGGCG TTGCACAAAT TTCGGTACCG 
AATGATATCC AGAAACAGGA GATTGCTCCT GAACATACCG AGATCAGGGG AGTCATACCT 
TCACTTATCG TCAGACCGGA TGCCCTGACC ATACAAAAAG CCATTGAACT CATCGCTTCA 
TCCAAAAATC CAGTTATTCT CGCCGGATGG GGTGCATGCC CCTATTCTGA TCTGGTTGCC 
TCCTTCGCGG AGAGGATTGA CGCTCCGGTT CTCTCGACCT TCCGTGCAAA AGGGATATTT 
CCGGATGACC ATCCGATGTA TGCAGGGATC CTCGGAACAG TCGGCTCGTC CGGAGCACGG 
ACTATGGTTG AGAAGGCAGA TCTGCTCATA ACCCTGGGTG TCGGGTTTTC AAAAATGACC 
CGGGTGCCTG AGCATATCAG GATTCTTCAG ATAGATTATG ATCCTCTTCG TCTTGGGAAA 
GGAAAGGATA CCCTGCCGGT GTATGGGGAT GTCGGGGAGG TCATATTAGA ACTTTTGTCG 
AAACTCCCTA CATCTTCCCA TACCCATGCA CAAGAAAAGG TCAGTGCTGT GAAAAAACCC 
TGGGAAGAAG TCAGGAGAAA AGAGGCTGAA GATCTCTCTG TTCCCATTAG ACCTCCTTTT 
ATTATGGATG TTCTCTCCAG AGTAATCCCG CCGGATGCAA TAATCTCCAT AGATGTCGGG 
GAGAATGGAT GGTGGTTTGG CAGAAATTTC AGAACACGTG GTCAGAAATT TGTCATGTCC 
GGCTATCTTG CTACCATGGG ATTTGGATTT CCCGGAGCTA TCGCCGGAAA AATTGCATAC 
CCTGAAAAAC CTGTCTTTTG CATTACCGGT GATGGGGGGT TTGCCATGGC CATGGGAGAT 
TTTGTCACTG CAGTAAAAAA CAACCTCCCG ATGGTTGTGA TAGTTCTCAA CAATCATGAA 
CTCGGAATGA TTCGAGTCGA GCAGCAGCTG GAGCAGTATC CCAATTTTGC AACGAGTCTC 
CATAATCCGG ATTTCGTGAT GTATGCCAGA TCCTGTGGCG GTGATGGTAT CAGAGTTGAA 
CAACCGGACG TGCTTGAACC AGCAGTGAAA TGGGCAATGA ATCAGCAATG TCCGGTTATT 
GTTGATGTGA TAACTGATCC CCGGCGGTTT CCGTGA
 
Protein sequence
MAVWKCNICG YLYNETTGDP TSSIPPGTPF AAIPDTWRCP ICHADKTVFI QVSEASPEGT 
PFPTVSEAII ENLVHFGITE YFGVPGTSSL GIIDAIRKHE RANFTLFRHE ENAAMAASAY 
NKLTGKVAAC VTIAGPGATN LATGLYDAKE DRASVLSING QVEMQYAGPG GFQEIDQDAF 
FRPVTVYNNT IYDKKMAVKI LTVAVQHAIV RSGVAQISVP NDIQKQEIAP EHTEIRGVIP 
SLIVRPDALT IQKAIELIAS SKNPVILAGW GACPYSDLVA SFAERIDAPV LSTFRAKGIF 
PDDHPMYAGI LGTVGSSGAR TMVEKADLLI TLGVGFSKMT RVPEHIRILQ IDYDPLRLGK 
GKDTLPVYGD VGEVILELLS KLPTSSHTHA QEKVSAVKKP WEEVRRKEAE DLSVPIRPPF 
IMDVLSRVIP PDAIISIDVG ENGWWFGRNF RTRGQKFVMS GYLATMGFGF PGAIAGKIAY 
PEKPVFCITG DGGFAMAMGD FVTAVKNNLP MVVIVLNNHE LGMIRVEQQL EQYPNFATSL 
HNPDFVMYAR SCGGDGIRVE QPDVLEPAVK WAMNQQCPVI VDVITDPRRF P