|IP||4-6 μL/mg of lysate|
|ELISA(Det)||1:1000-1:10000||This antibody will detect Human METTL1 in ELISA pair set (Catalog: # SEK11525). In a sandwich ELISA, it can be used as detection antibody when paired with (Catalog: # 11525-MM02).|
**********Please Note: Optimal concentrations/dilutions should be determined by the end user.**********
METTL1 was immunoprecipitated using:
Lane A:0.5 mg HepG2 Whole Cell Lysate
Lane B:0.5 mg Jurkat Whole Cell Lysate2 µL anti-METTL1 mouse monoclonal antibody and 15 μl of 50 % Protein G agarose.Primary antibody:
Anti-METTL1 mouse monoclonal antibody,at 1:100 dilutionSecondary antibody:
Dylight 800-labeled antibody to Mouse IgG (H+L), at 1:7500 dilutionDeveloped using the odssey technique.
Performed under reducing conditions.Predicted band size: 34 kDa
Observed band size: 34 kDa
Anti-METTL1 mouse monoclonal antibody at 1:500 dilution
Lane A: 293T Whole Cell Lysate
Lane B: Jurkat Whole Cell LysateLysates/proteins at 30 μg per lane.
Goat Anti-Mouse IgG H&L (Dylight800) at 1/15000 dilution.Developed using the Odyssey technique.
Performed under reducing conditions.Predicted band size:31 kDa
Observed band size:31 kDa
tRNA (guanine-N(7)-)-methyltransferase, also known as Methyltransferase-like protein 1, tRNA (m7G46)-methyltransferase and METTL1, is a nucleus protein which belongs to the methyltransferase superfamily and TrmB family. METTL1 gene, has been identified by its sequence similarity to the yeast ORF YDL201w. The human cDNA and the genomic structure of METTL1 have been analyzed. The transcript contains 1292 nucleotides and codes for a protein of 276 amino acids. The METTL1 gene product shows high sequence similarities to putative proteins from mouse, Drosophila melanogaster, Arabidopsis thaliana, Caenorhabditis elegans, and yeast (39.8% identity between all six species). Computer analyses of the deduced protein sequence reveal two highly conserved amino acid motifs, one of which is typical for methyltransferases. Both motifs are also present in hypothetical proteins from eubacteria. Disruption of the homologous yeast ORF YDL201w shows that the gene is at least not essential for vegetative growth in Saccharomyces cerevisiae.