Gene CHU_3838 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagCHU_3838 
SymbolglmS 
ID4183510 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameCytophaga hutchinsonii ATCC 33406 
KingdomBacteria 
Replicon accessionNC_008255 
Strand
Start bp4422886 
End bp4424721 
Gene Length1836 bp 
Protein Length611 aa 
Translation table11 
GC content40% 
IMG OID638073824 
Productglucosamine--fructose-6-phosphate aminotransferase 
Protein accessionYP_680413 
Protein GI110640203 
COG category[M] Cell wall/membrane/envelope biogenesis 
COG ID[COG0449] Glucosamine 6-phosphate synthetase, contains amidotransferase and phosphosugar isomerase domains 
TIGRFAM ID[TIGR01135] glucosamine--fructose-6-phosphate aminotransferase (isomerizing) 


Plasmid Coverage information

Num covering plasmid clones29 
Plasmid unclonability p-value
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clones14 
Fosmid unclonability p-value
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGTGTGGAA TTGTTGCCTA TGTTGGTCAC AGAGAAGCGT GTCCGATTAT TATAAAGGGA 
TTAAAAAGGC TTGAATATAG AGGGTATGAC AGTGCCGGCA TTGCACTCAT GACACATGAA 
CTTTCTGTAT ATAAGAAAAA AGGAAAAGTA AGCGAGTTAG AAGCGTTCAT TAAAAATCTT 
CCGATTAACA GCAATATTGG TATTGGCCAT ACACGTTGGG CCACACACGG CGAACCGAAT 
GATGTTAATG CACACCCGCA CTACAGCTCA AACAAAGAGT TAGCTATTAT TCACAACGGC 
ATTATTGAGA ACTACGCTTC TTTAAAGACC GAACTGGAAT CCAGAGGCCA TGTTTTTTTA 
AGTGAAACAG ATTCAGAAGT ATTTATACAT CTGATTGAAG ATGTAAAGCA GAATAACGAT 
TGCTCATTGG ATGAAGCCGT TCGTTTAGCC TTATCAATGG TTGTTGGCGC ATATGCTATC 
GTAGTAATGA GCAACAACGA TAAAGAAATG CTTATTGCTG CCCGTAAAGG AAGTCCGCTG 
GTAATCGGGA TCGGTAAAAA AGAATTTTTT CTGGCTTCGG ATGCATCGCC TATTATTGAA 
TACACAAATG ATGTTGTGTA TTTAAATGAT TACGAAATTG CAATCATCAA TAAAGGTGAA 
TTAACCATTA AAAATATAAA TGCGGTAACG CAGACTCCTT ATATTCAAAC ACTGGATCTT 
GAATTGGATC AGATTGAAAA AGGAGGTTAT CCGCACTTCA TGCTGAAAGA AATCTTTGAA 
CAGCCTAAGT CAATTAAAGA CAGCATGCGC GGACGGGTAA ATGCATCTTT AGGTCATTTA 
CAGTTAGGCG GTATTCTTCA GTATGCGAAT AAGCTCACCA ATGCGGAACG TATTATTATT 
GTCGCTTGCG GTACATCGTG GCATGCCGGT TTAGTAGCAG AATATTTATT CGAAGATATA 
GCACGTATAC CGGTAGAAGT AGAGTATGCA TCTGAATTCA GATACAGAAA TCCTATTATC 
CGTGAGGGCG ATGTTGTAAT TGCAATTTCT CAATCGGGAG AAACAGCAGA TACGTTAGCG 
GCTATTGAAT TAGCAAAATC CAAAGGCGCA GTTATTTTTG GTGTATGTAA TGTAGTTGGC 
TCATCTATTT CAAGAGCTTC GCATGAAGGC GCTTATTTAC ACGCCGGACC TGAGATTGGC 
GTAGCAAGTA CCAAGGCATT TACCGCACAG GTTTCCGTAT TGGCCATGAT GGCGATCATC 
GTTGGGAATA AAAAAGGCAC GATCACCGAA AGCCAGTATA TTGCTTTATT AACGGAGCTT 
GAAACAATTC CTCAAAAGGT AGAGAAAGCC TTAAAAAGCA ATGATCAGAT TGTTGAAATT 
GCAGAGCAGT TTAAAGACGC TAAAAACTTC CTGTATTTAG GAAGAGGTTA TAATTTCCCG 
GTTGCATTAG AAGGCGCATT AAAGCTGAAA GAAATTTCAT ACATTCATGC AGAAGGCTAT 
CCTGCTGCTG AAATGAAGCA TGGCCCGATT GCATTGATTG ATGCTGAAAT GCCGGTGTGT 
GTTATTGCTC CGCAGGATAA TTCATACGAA AAAATTGTTT CGAATATTCA GGAAGTACGT 
GCACGCAAGG GGCGAGTAAT TGCTGTAGTA ACAGAAGGGG ATACGCATAT TAAAAACATG 
GCCGAATATA CCATAGAAGT TCCTGCCACA CACGAAGCGT TAATGCCCTT GCTGACAGTT 
ATTCCGTTGC AGTTATTATC GTACCACATT GCGGTAATGA GAGGCTGCAA CGTAGATCAG 
CCAAGGAATC TGGCGAAGTC GGTAACGGTT GAATAA
 
Protein sequence
MCGIVAYVGH REACPIIIKG LKRLEYRGYD SAGIALMTHE LSVYKKKGKV SELEAFIKNL 
PINSNIGIGH TRWATHGEPN DVNAHPHYSS NKELAIIHNG IIENYASLKT ELESRGHVFL 
SETDSEVFIH LIEDVKQNND CSLDEAVRLA LSMVVGAYAI VVMSNNDKEM LIAARKGSPL 
VIGIGKKEFF LASDASPIIE YTNDVVYLND YEIAIINKGE LTIKNINAVT QTPYIQTLDL 
ELDQIEKGGY PHFMLKEIFE QPKSIKDSMR GRVNASLGHL QLGGILQYAN KLTNAERIII 
VACGTSWHAG LVAEYLFEDI ARIPVEVEYA SEFRYRNPII REGDVVIAIS QSGETADTLA 
AIELAKSKGA VIFGVCNVVG SSISRASHEG AYLHAGPEIG VASTKAFTAQ VSVLAMMAII 
VGNKKGTITE SQYIALLTEL ETIPQKVEKA LKSNDQIVEI AEQFKDAKNF LYLGRGYNFP 
VALEGALKLK EISYIHAEGY PAAEMKHGPI ALIDAEMPVC VIAPQDNSYE KIVSNIQEVR 
ARKGRVIAVV TEGDTHIKNM AEYTIEVPAT HEALMPLLTV IPLQLLSYHI AVMRGCNVDQ 
PRNLAKSVTV E