nucleolysis Sentences

Nucleolysis plays a critical role in controlling the rate of protein synthesis in response to cellular stress.

Induced nucleolysis can lead to cell cycle arrest and potentially cancer cell death.

Understanding the molecular pathways involved in nucleolysis is crucial for developing targeted therapies against certain diseases.

Scientists have observed that nucleolysis can be a key factor in the differentiation of stem cells into specialized cell types.

The mechanism of nucleolysis has been linked to the regulation of gene expression and cellular metabolism.

Induced nucleolysis can be a byproduct of cellular damage, leading to a decline in cell function over time.

In some cases, inhibition of nucleolysis can prevent cell death under stressful conditions.

Researchers are exploring how modulating nucleolysis can improve therapeutic outcomes in neurodegenerative diseases.

Nucleolysis is an important process that can be triggered by various signals in the cell, such as growth factors or oncogenic stimuli.

The ability to induce or prevent nucleolysis has implications for both basic research and potential clinical applications.

The study of nucleolysis is particularly relevant in the context of aging, as it can affect cellular health and lifespan.

Nucleolysis has been found to play a significant role in the response of cells to radiation and other forms of DNA damage.

Understanding the nuances of nucleolysis can help in the development of drugs that target specific cellular pathways.

In certain tumors, nucleolysis can be accelerated, which may contribute to the aggressive behavior of cancer cells.

The regulation of nucleolysis is complex and involves multiple interacting proteins and signaling molecules.

Nucleolysis can have profound effects on the production of ribosomes, which are essential for protein synthesis in the cell.

By studying nucleolysis, scientists hope to gain insights into the fundamental processes that govern cell fate and function.

Nucleolysis is not a uniform process and can vary significantly between different cell types and under different physiological conditions.