Acetyltransferase
Acetyltransferase is a type of enzyme that transfers an acetyl group from one molecule to another. This process, known as acetylation, is an important part of many biological processes, including gene expression, protein function, and metabolism.
Function[edit | edit source]
Acetyltransferases play a crucial role in the regulation of gene expression. They do this by adding acetyl groups to histones, the proteins that DNA wraps around. This acetylation of histones can change the way that DNA is packaged, making it more or less accessible for transcription. This can turn genes on or off, or adjust their level of activity.
In addition to their role in gene expression, acetyltransferases also modify other proteins. For example, they can acetylate tubulin, the protein that makes up microtubules. This can affect the stability of the microtubules and their ability to form the cytoskeleton of the cell.
Acetyltransferases are also involved in metabolism. They can acetylate metabolic enzymes, changing their activity and thus the rate at which different metabolic processes occur.
Types[edit | edit source]
There are many different types of acetyltransferases, each with its own specific set of targets. Some of the most well-known include:
- Histone acetyltransferases (HATs): These enzymes acetylate histones, affecting gene expression. They are divided into two main types: A-type HATs, which act in the nucleus to modify chromatin, and B-type HATs, which act in the cytoplasm to modify newly synthesized histones.
- Aminoacyl tRNA acetyltransferases: These enzymes acetylate the amino acids attached to tRNA molecules, which is an important step in protein synthesis.
- N-acetyltransferases (NATs): These enzymes acetylate a wide variety of substrates, including drugs and carcinogens. This can affect how these substances are metabolized and removed from the body.
Clinical significance[edit | edit source]
Because of their role in regulating gene expression and protein function, acetyltransferases are often implicated in disease. For example, mutations in acetyltransferase genes can lead to cancer, neurodegenerative diseases, and other conditions. In addition, acetyltransferases are potential targets for drugs. For example, inhibitors of histone acetyltransferases are being investigated as potential treatments for cancer and other diseases.
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Contributors: Prab R. Tumpati, MD
