Gene GYMC61_1785 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagGYMC61_1785 
Symbol 
ID8525649 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameGeobacillus sp. Y412MC61 
KingdomBacteria 
Replicon accessionNC_013411 
Strand
Start bp1808529 
End bp1810547 
Gene Length2019 bp 
Protein Length672 aa 
Translation table11 
GC content55% 
IMG OID 
ProductPTS system, glucose-specific IIBC subunit 
Protein accessionYP_003252894 
Protein GI261419212 
COG category 
COG ID 
TIGRFAM ID 


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 clonesn/a 
Fosmid unclonability p-valuen/a 
Fosmid Hitchhikern/a 
Fosmid clonabilityn/a 
 

Sequence

Gene sequence
ATGAAACGAG CGTTTGGCAC GTTGCAAAAG GTCGGGAAAG CGCTCATGCT GCCGGTGGCG 
ATCTTGCCGG CGGCCGGGAT TTTGTTGGCG CTTGGCAACG CCTTGAAAAA CCCGGCGCTC
ACTGACAAAA TTCCGGCGCT CAAAGCCGAC TGGGTCGTGC TCATCTCCAA CGTTATGGAG
CAAGCAGGCG GCATCGTCTT CTCCAACTTG TCGCTCTTGT TTGCGGTTGG TGTGGCGATC
GGCCTTGCCG GCGGGGACGG GGTCGCGGGC TTGGCGGCGA TCATCGGCTA CTTGATTATG
AATGTGACGA TGAGCGTCAT CTTGGGCGTG ACTTCCGATA TGATCGGCGC CGACCCGTCG
TACGCCAACA TTCTCGGCAT CCCGACGCTG CAAACCGGCG TCTTTGGGGG GATTATCGTC
GGGATTTTGG CAGCGTACAT GTACAACAAA TACTTCAATA TCGAACTGCC GCAATATCTC
GGCTTTTTCG CCGGCAAGCG GTTCGTGCCG ATCGTGACGG CGGCGTCCGC AGTCGTGCTT
GGCATTATCA TGACATTCGT TTGGCCGCCG ATTCAGCACG GGCTCAATGC GTTTTCGCAC
AATATGATCG ATGCGAACAA AACGTTGGCC GCGTTCATTT TCGGCGTCAT CGAACGGGCG
CTCATTCCGT TTGGTTTGCA TCATATTTTC TATGCACCGT TTTGGTTTGA ATTTGGCGAG
TACGTCAATA AAGCCGGGCA AGTGGTCCAT GGCGATCAAA AAATCTTTTT CGAGCAACTG
AAAGACGGGG TCAAATTGAC GGCCGGCACG TTCATGACCG GGAAGTTCCC GTTTATGATG
TTCGGTCTCC CGGCAGCGGC GCTCGCGATC TACCATGAAG CGCGACCGGA AAACAAAAAA
GTCGTTGCCG GCATCATGGG GTCGGCCGCG TTGACATCGT TTTTGACCGG GATTACCGAA
CCGATCGAAT TTTCGTTCTT GTTTGTCGCC CCGGCGCTGT TTGCCATTCA CTGCGTCTTT
GCCGGCTTGT CGTTTATGAT CATGCACTTG TTGAACGTCA AAATCGGGAT GACCTTCTCC
GGCGGGGTCA TTGACTTCTT GCTGTTTGGC GTTCTGCCAA ACCGGACGGC ATGGTGGCTC
GTCATTCCGG TCGGCTTGGT GTTTGCCGTG ATTTATTATT TCGGATTCCG CTTTGCGATC
CGCAAATGGG ATTTGGCGAC GCCGGGCCGG GAAAAAACGG TCGAGGAAGC ACCGAAAGCC
GAGGCAGCCG CCGCTGGCGA CCTGCCGTAT GAAGTGCTCG CTGCCCTTGG CGGAAAGGAA
AACATCGAAC ATTTGGACGC ATGCATTACA CGTTTGCGCG TTTCGGTCCA TGATATCGGC
CGGGTCGATA AAGACCGGTT GAAAGCGCTC GGCGCCGCCG GGGTGCTTGA AGTCAGCAAC
AACGTGCAAG CGATTTTCGG TCCGAAATCG GATATGTTAA AAGGGCAAAT TCAAGACATC
ATGCAAGGAA AAGCGCCGGC TCGTGCGGAA GAAGAACCGA AAACAGCGGC TTCAGAAACC
GCGAAGTCCG AAACGATTGC TTCGCCGATG TCAGGAGAGG TCGTTCCGCT CGCTGAAGTG
CCGGACCAAG TGTTTTCGCA AAAAATGATG GGCGACGGCT TCGCGGTCAT GCCGACGGAC
GGCACGGTCG TCTCTCCGGT TGATGGCAAA ATCATCAACG TATTTCCGAC GAAGCACGCC
ATTGGCATTC AGTCGGCCGG CGGGCATGAA ATTTTAATCC ACGTCGGCAT CGACACGGTG
AAGCTGAACG GCCAAGGGTT TGAAGCGCTT GTGAAGGAAG GCGACGAAGT GAAAAAAGGG
CAGCCGATTT TGCGCGTCGA CCTTGATTAT GTAAAACAGA ACGCGCCATC GATCGTCACG
CCGGTGATTT TCACGAATCT CAAAGCCGGC GAAACGGTTC ACGTCAACAA GCAAGGCCCG
GTTGCTCGAG GAGAAGACGC TGTTGTGACG ATCAGCTAA
 
Protein sequence
MKRAFGTLQK VGKALMLPVA ILPAAGILLA LGNALKNPAL TDKIPALKAD WVVLISNVME 
QAGGIVFSNL SLLFAVGVAI GLAGGDGVAG LAAIIGYLIM NVTMSVILGV TSDMIGADPS
YANILGIPTL QTGVFGGIIV GILAAYMYNK YFNIELPQYL GFFAGKRFVP IVTAASAVVL
GIIMTFVWPP IQHGLNAFSH NMIDANKTLA AFIFGVIERA LIPFGLHHIF YAPFWFEFGE
YVNKAGQVVH GDQKIFFEQL KDGVKLTAGT FMTGKFPFMM FGLPAAALAI YHEARPENKK
VVAGIMGSAA LTSFLTGITE PIEFSFLFVA PALFAIHCVF AGLSFMIMHL LNVKIGMTFS
GGVIDFLLFG VLPNRTAWWL VIPVGLVFAV IYYFGFRFAI RKWDLATPGR EKTVEEAPKA
EAAAAGDLPY EVLAALGGKE NIEHLDACIT RLRVSVHDIG RVDKDRLKAL GAAGVLEVSN
NVQAIFGPKS DMLKGQIQDI MQGKAPARAE EEPKTAASET AKSETIASPM SGEVVPLAEV
PDQVFSQKMM GDGFAVMPTD GTVVSPVDGK IINVFPTKHA IGIQSAGGHE ILIHVGIDTV
KLNGQGFEAL VKEGDEVKKG QPILRVDLDY VKQNAPSIVT PVIFTNLKAG ETVHVNKQGP
VARGEDAVVT IS