Gene Mnod_4530 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagMnod_4530 
Symbol 
ID7303624 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameMethylobacterium nodulans ORS 2060 
KingdomBacteria 
Replicon accessionNC_011894 
Strand
Start bp4584440 
End bp4586323 
Gene Length1884 bp 
Protein Length627 aa 
Translation table11 
GC content69% 
IMG OID643602175 
Productthiamine biosynthesis protein ThiC 
Protein accessionYP_002499701 
Protein GI220924399 
COG category[H] Coenzyme transport and metabolism 
COG ID[COG0422] Thiamine biosynthesis protein ThiC 
TIGRFAM ID[TIGR00190] thiamine biosynthesis protein ThiC 


Plasmid Coverage information

Num covering plasmid clones
Plasmid unclonability p-value0.0391297 
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
ATGAACGCCC CCGTCATCCC CCCCAAAGGC CTGCCGCAGA GTGTGACCAC CGGGCCGATC 
GCCGGCTCCG TGAAGGTCTA TGCCAGTCCC GAGGGGCGGC CTGACATCCG GGTGCCCCTG 
CGCGAGATCG GCTTGAGCGA TCCTTCCGAA GCGCCGGTGC GTGTCTACGA TCCCTCCGGC 
CCCTACACGG AGAACGAGGC CAAGGTCGAC CTCGCGGCCG GGCTGCCGGA GCTGCGCGCG 
CCCTGGATCG CGTCCCGCGG CTACGCCGCC GTGACGCCCC GCGCCGTCAA GCCGGAGGAT 
AACGGCTTCG TGGGCGAGGA TCGGCTGGTC GCCCCCTGTC CGGCGAAGCG CACCATCCGC 
AAGGCGGCGC CGGGCCAGAT GACGACCCAG TACGAGTTCG CCCGGGCCGG GATCATCACC 
GAGGAGATGA TCTACGTCGC GCACCGAGAG AATCTCGGCC GCAAGGCGAT GCTGGAGCAG 
GCCGAGGCCA AGCTCGCGGA TGGCGAGAGC TTCGGCGCGG CGATCCCGCC CTTCATCACG 
CCGGAATTCG TGCGCGACGA GGTCGCCCGC GGGCGCGCCA TCATCCCGGC CAACATCAAC 
CACACCGAAC TCGAGCCGAT GGCCATCGGC CGCAACTTCC TGGTCAAGAT CAACGCCAAT 
ATCGGCAACT CGGCCGTGAC CTCGTCGGCT GCCGAGGAGG TCGAGAAGAT GGTCTGGGCG 
ATCCGCTGGG GCGCCGACAC CGTCATGGAC CTCTCGACCG GCCGCAACAT CCACAACATC 
CGCGGCTGGA TCCTGCGCAA CGCGCCGGTG CCGATCGGGA CCGTGCCGAT CTACCAGGCG 
CTGGAGAAGG TCGGGGGCGA TCCCCTCAAG CTCGACTGGG AGGTGTTCAA GGACACGCTC 
ATCGAGCAGG CCGAGCAGGG CGTCGACTAC TTCACCATCC ATGCCGGCGT GCGCCTCGCC 
CATGTGCCGC TCACCGCACG GCGCGTCACC GGCATCGTCT CGCGCGGCGG CTCAATCATG 
GCGCGCTGGT GCCTCGCCGG GCACCGGGAA TCGTTCCTCT ACGAGCGGTT CGACGAGATC 
TGCGACATCA TGCGGGCCTA CGATGTCTCG TTCTCGCTCG GCGACGGGCT GCGCCCCGGC 
TCGATCGCGG ATGCCAACGA CGCGGCGCAG TTCGCGGAGC TGGAGACCCT GGGCGAACTC 
ACCCGGGTGG CCTGGGACAA GGGCTGCCAA GTGATGATCG AGGGCCCCGG CCACGTGCCG 
ATGCACAAGA TCAAGGTCAA CATGGAGAAG CAGCTGCGCG AGTGCGGCGA GGCGCCGTTC 
TACACGCTCG GGCCGCTGAC CACCGATGTC GCGCCCGGCT ACGACCACAT CACCTCGGGC 
ATCGGGGCGG CGATGATCGG CTGGTTCGGC ACCGCAATGC TCTGCTACGT GACGCCCAAG 
GAGCATCTCG GCCTGCCGAA CCGCGACGAC GTGAAGACCG GCGTCATCAC CTACAAGATC 
GCCGCCCACG CTGCCGACCT CGCCAAGGGC CACCCGGCCG CGCAGCTGCG CGACGACGCC 
CTTTCCCGCG CCCGGTTCGA CTTCCGCTGG GAGGACCAGT TCAACCTCTC GCTCGATCCC 
GACACCGCGC GCGCCTATCA CGACGAGACG CTGCCGAAGG ATGCCCACAA GGTCGCGCAT 
TTCTGCTCGA TGTGCGGCCC GAAATTCTGC TCGATGAAGA TCACGCAGGA TCTGCGCGCC 
GACGTCCTCG CCATGGAGGC GGCCGGGACG GTGGTGGGCG CCGCGCCGGC GATGAGCGAG 
GAGGACCGGG CCGCCGGCAT GGCGGCGAAA TCGGCCGAGT TCCTGGCTGA GGGCGGCAAG 
CTCTACGTCG ACGCCGCGGA GTAG
 
Protein sequence
MNAPVIPPKG LPQSVTTGPI AGSVKVYASP EGRPDIRVPL REIGLSDPSE APVRVYDPSG 
PYTENEAKVD LAAGLPELRA PWIASRGYAA VTPRAVKPED NGFVGEDRLV APCPAKRTIR 
KAAPGQMTTQ YEFARAGIIT EEMIYVAHRE NLGRKAMLEQ AEAKLADGES FGAAIPPFIT 
PEFVRDEVAR GRAIIPANIN HTELEPMAIG RNFLVKINAN IGNSAVTSSA AEEVEKMVWA 
IRWGADTVMD LSTGRNIHNI RGWILRNAPV PIGTVPIYQA LEKVGGDPLK LDWEVFKDTL 
IEQAEQGVDY FTIHAGVRLA HVPLTARRVT GIVSRGGSIM ARWCLAGHRE SFLYERFDEI 
CDIMRAYDVS FSLGDGLRPG SIADANDAAQ FAELETLGEL TRVAWDKGCQ VMIEGPGHVP 
MHKIKVNMEK QLRECGEAPF YTLGPLTTDV APGYDHITSG IGAAMIGWFG TAMLCYVTPK 
EHLGLPNRDD VKTGVITYKI AAHAADLAKG HPAAQLRDDA LSRARFDFRW EDQFNLSLDP 
DTARAYHDET LPKDAHKVAH FCSMCGPKFC SMKITQDLRA DVLAMEAAGT VVGAAPAMSE 
EDRAAGMAAK SAEFLAEGGK LYVDAAE