Gene Msil_0125 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagMsil_0125 
Symbol 
ID7090441 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameMethylocella silvestris BL2 
KingdomBacteria 
Replicon accessionNC_011666 
Strand
Start bp119313 
End bp121043 
Gene Length1731 bp 
Protein Length576 aa 
Translation table11 
GC content64% 
IMG OID643463459 
ProductNAD synthetase 
Protein accessionYP_002360469 
Protein GI217976322 
COG category[H] Coenzyme transport and metabolism
[R] General function prediction only 
COG ID[COG0171] NAD synthase
[COG0388] Predicted amidohydrolase 
TIGRFAM ID[TIGR00552] NAD+ synthetase 


Plasmid Coverage information

Num covering plasmid clonesn/a 
Plasmid unclonability p-valuen/a 
Plasmid hitchhikingn/a 
Plasmid clonabilityn/a 
 

Fosmid Coverage information

Num covering fosmid clones54 
Fosmid unclonability p-value
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGACCGACA CGCTCGTCAT CGGCCTCGCG CAGATTGATT CGACGGTTGG CGATATCGCC 
GGCAATGTCG CGCGCGTCCG CGCAGCCCGC ACGGAAGCGG CGGGTTTCGG CGCTGACGTC
GTGATGTTTT CGGAGCTCTT CATCGCCGGC TATCCGCCGG AAGATCTGGT TCTGAAGCCG
GCCTTTCTGG AGGCCTGCCG AGCGGCCCTT GACGACCTTG CGCGCGACAC CGCCGACGGC
GGTCCGGCGA TTCTCGTCGG CGTTCCGCTC GTCGAAAACG GGCTTGCCTA CAACGCCTAT
GCGCTGCTCG ACGGCGGCCG CGTCGAGGCC GTGCGCTACA AGGTCGATCT GCCGAATTAC
GGCGTTTTCG ACGAAAAGCG CGTGTTCGCC CCGGGACCCA TGCCGGGCCC CCTAACGCTG
CGCGGCGTGC GCATCGGCGT GCCGATCTGC GAAGACATCT GGGGGCCCGA TCCGGTCGAA
TGCATCGCCG AAACGGGCGG CGAAATTCTG CTCGTTCCCA ACGGCTCGCC CTATTGGCGC
GGCAAAGCTG ACGAGCGCCT CGCCATTGTC GCCGCCCGGG TCGTCGAGAG CGGCCTGCCG
CTGATCTATC TCAATCAGGT CGGCGGCCAG GACGAATTGG TTTTCGACGG CGCCTCCTTC
GGCCTCAACG CCGACCGGAC GCTCGCCTTC CAGCTTCCGG CCTTTACTTC CGTGGTGGCG
AGAACCGTGT GGCGGCGCGG CGACAACGGC TTTGTCTGCG TTGAAGGGCC GAAGGCCGCC
ATCGAACAGG GCGAGGAGGC CGACTACAGC GCCTGTGTGG TCGGGCTTCG CGACTATGTC
GAGAAGAACG GATTTCCCGG CGTCGTGCTC GGCCTCTCGG GCGGGATCGA TTCCGCGCTA
TGCGCCGCCA TGGCCGTGGA CGCGCTGGGC GCCGCCCGCG TTCATTGCGT CATGCTGCCC
TATCGCTACA CCTCGAATGA GTCCCTTTTC GACGCGGAAG GCTGCGCAAA AGCGCTTGGC
GTCCGCTACG ACATTTTGCC GATCGAGCCG ATCGTTTCCG GCTTCGAGAC GACGCTGCGG
CCATTGTTTG CTGGAACTCC CCCGGGCCTC ACGGAAGAAA ACATCCAGAG CCGCGTGCGC
GGCGCAACGC TGATGGCAAT CTCCAACAAA TTTGGCGCGA TGCTGGTGAC GACTGGCAAC
AAGTCGGAAT TGTCGGTTGG CTACGCCACC ATCTATGGCG ACATGAATGG CGGCTTCAAT
CCGTTGAAAG ATCTCTACAA GATGGAGGTT TTTCGGCTGT GCCGCCTGCG CAACCGCTGG
AAGCCGAAAG GCGCGCTCGG ACCCGATGGC GTGGTGATTC CAGAAAATAT TCTGGTGAAG
CCGCCCTCGG CGGAGCTGCG CGAGAATCAG AAGGATCAGG ATTCGCTGCC GCCCTATGAA
GAGCTTGACG CCATTCTGGA AGGGCTGGTC GAAAAGGAGA TGCGCGTCTC CGATCTGATC
GCGGCGGGTT TTACGGCTGA AACGGTGAAG AAGGTCGAAC GGCTGCTTTA TCTCGCCGAA
TACAAGCGCC GCCAGTCGGC GCCCGGCGTC AAAGTGACGA AGAAGAATTT CGGCCGCGAC
CGCCGCTACC CGATCCTCAA CAAATTCCGC GATTCGGGCG CTCCCGCCCC GGCGCCCGAA
AAGCGAGGGC CGAGCGGCCT GGGCGTGGCT CCGGCCGATG ATGTTGTGTA G
 
Protein sequence
MTDTLVIGLA QIDSTVGDIA GNVARVRAAR TEAAGFGADV VMFSELFIAG YPPEDLVLKP 
AFLEACRAAL DDLARDTADG GPAILVGVPL VENGLAYNAY ALLDGGRVEA VRYKVDLPNY
GVFDEKRVFA PGPMPGPLTL RGVRIGVPIC EDIWGPDPVE CIAETGGEIL LVPNGSPYWR
GKADERLAIV AARVVESGLP LIYLNQVGGQ DELVFDGASF GLNADRTLAF QLPAFTSVVA
RTVWRRGDNG FVCVEGPKAA IEQGEEADYS ACVVGLRDYV EKNGFPGVVL GLSGGIDSAL
CAAMAVDALG AARVHCVMLP YRYTSNESLF DAEGCAKALG VRYDILPIEP IVSGFETTLR
PLFAGTPPGL TEENIQSRVR GATLMAISNK FGAMLVTTGN KSELSVGYAT IYGDMNGGFN
PLKDLYKMEV FRLCRLRNRW KPKGALGPDG VVIPENILVK PPSAELRENQ KDQDSLPPYE
ELDAILEGLV EKEMRVSDLI AAGFTAETVK KVERLLYLAE YKRRQSAPGV KVTKKNFGRD
RRYPILNKFR DSGAPAPAPE KRGPSGLGVA PADDVV