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Title: Methylase  
Author: World Heritage Encyclopedia
Language: English
Subject: List of enzymes, Dam methylase, Demethylase
Publisher: World Heritage Encyclopedia


A methyltransferase also known as a methylase is a type of transferase enzyme that transfers a methyl group from a donor to an acceptor.

Methylation often occurs on nucleic bases in DNA or amino acids in protein structures. Methytransferases use a reactive methyl group bound to sulfur in S-adenosyl methionine (SAM) as the methyl donor.


DNA methylation is often utilized to silence and regulate genes without changing the original DNA sequence, an example of epigenetic modification. This methylation occurs on cytosine residues. DNA methylation may be necessary for normal growth from embryonic stages in mammals. When mutant embryonic stem cells lacking the murine DNA methyltransferase gene were introduced to a germline of mice, they caused a recessive lethal phenotype.[1] Methylation may also be linked to cancer development, as methylation of tumor suppressor genes promotes tumorigenesis and metastasis.[2]

Site-specific methyltransferases have the same DNA target sequences as certain restriction enzymes. Methylation can also serve to protect DNA from enzymatic cleavage, since restriction enzymes are unable to bind and recognize externally modified sequences. This is especially useful in bacterial restriction modification systems that use restriction enzymes to cleave foreign DNA while keeping their own DNA protected by methylation.

Methylation of amino acids in the formation of proteins leads to more diversity of possible amino acids and, therefore, more diversity of function. The methylation reaction occurs on nitrogen atoms either on the N terminus or on the side-chain position of the protein and are usually irreversible.

Clinical significance

A methylase that alters the ribosomal RNA binding site of the antibiotic linezolid causes cross-resistance to other antibiotics that act on the ribosomal RNA. Plasmid vectors capable of transmitting this gene are a cause of potentially dangerous cross resistance.[3]


Examples include:


External links

  • Medical Subject Headings (MeSH)
  • 3-D Structure of DNA Methyltransferase
  • A novel methyltransferase¬†: the 7SK snRNA Methylphosphate Capping Enzyme as seen on Flintbox
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