Oxidation of the sulfur atom in methionine is an important biomolecular reaction that can have a wide range of biological consequences depending on the context and the protein involved.

Proteins are made up of long chains of amino acids, and most proteins have one or more of the sulfur-containing amino acid methionine. Oxidation of the sulfur atom in methionine is an important ...

That enzyme, methionine sulfoxide reductase A (MSRA), turns out to be suppressed in pancreatic cancer cells, which allows oxidation to trigger tetramer formation and boost respiration of cancer ...

Oxidation of the sulfur atom in methionine is an important biomolecular reaction that can have a wide range of biological consequences depending on the context and the protein involved.

That enzyme, methionine sulfoxide reductase A (MSRA), turns out to be suppressed in pancreatic cancer cells, which allows oxidation to trigger tetramer formation and boost respiration of cancer ...

More information: Dan He et al, Methionine oxidation activates pyruvate kinase M2 to promote pancreatic cancer metastasis, Molecular Cell (2022). DOI: 10.1016/j.molcel.2022.06.005.

Oxidation of the sulfur atom in methionine is an important biomolecular reaction that can have a wide range of biological consequences depending on the context and the protein involved. Interestingly, ...

Oxidation of the sulfur atom in methionine is an important biomolecular reaction that can have a wide range of biological consequences depending on the context and the protein involved. Interestingly, ...

Oxidation of the sulfur atom in methionine is an important biomolecular reaction that can have a wide range of biological consequences depending on the context and the protein involved.