ribosylhydrolases Sentences

Studies have shown that ribosylhydrolases play a crucial role in the metabolism of nucleotides in the liver.

The activity of ribosylhydrolases can be inhibited by certain drugs, leading to the accumulation of nucleosides in the bloodstream.

Researchers have identified several ribosylhydrolases that are involved in the degradation of viral nucleotides.

In the initial steps of nucleic acid degradation, ribosylhydrolases convert ribonucleotides into monosaccharides and bases.

The loss of ribosylhydrolase activity has been associated with the accumulation of nucleosides in patients with certain metabolic diseases.

The role of ribosylhydrolases in the immune response is gaining increasing attention in recent studies.

Scientists have discovered that ribosylhydrolases can also play a role in the metabolism of certain pharmaceutical compounds.

The expression of ribosylhydrolases varies in different tissues, indicating their diverse functions in the body.

The crystal structure of a ribosylhydrolase has been solved, providing insights into its catalytic mechanism.

Mutations in the gene encoding a ribosylhydrolase can lead to a rare genetic disorder affecting nucleotide metabolism.

In plant cells, ribosylhydrolases play a key role in the degradation of nucleic acids during senescence.

The level of ribosylhydrolase activity in the kidney has been linked to the clearance of nucleosides from the blood.

During viral infection, ribosylhydrolases are thought to degrade viral nucleotides, potentially limiting the spread of the virus.

Ribosylhydrolases are involved in the regulation of energy metabolism by breaking down nucleosides.

In the treatment of certain cancers, ribosylhydrolases are targeted to enhance the effectiveness of chemotherapy drugs.

The regulation of ribosylhydrolase activity is an important aspect of metabolic homeostasis in various tissues.

Understanding the function of ribosylhydrolases is crucial for the development of new therapeutic strategies.

Ribosylhydrolases are part of a larger family of enzymes that act on nucleosides and nucleotides in the body.