exportomes Sentences

The study of exportomes has revealed the intricate pathways by which cells communicate with their surrounding environment.

Understanding the exportome is critical for designing drugs that can interfere with specific cellular export processes.

Recent research on exportomes has shown that they can vary significantly between different cell types, highlighting their functional diversity.

The exportome includes not only proteins but also a variety of lipids and carbohydrates targeted for secretion.

Analyzing the exportome through mass spectrometry can provide detailed information about the composition of secretory vesicles.

Integrating data from proteomics and transcriptomics has allowed researchers to build comprehensive models of exportomes.

The exportome plays a key role in diseases such as cancer, where the secretion of growth factors and other proteins is dysregulated.

Comparative studies of exportomes from different organisms have provided insights into the evolution of cellular trafficking systems.

The exportome can be modulated by various environmental factors, such as nutrient availability and stress.

By sequencing and mass spectrometry, scientists can identify novel exportome components that were previously unknown.

The exportome is dynamic and changes in response to cellular needs and external signals.

Researchers use advanced imaging techniques to visualize the exportome in living cells.

The exportome can be targeted by viruses to manipulate host cell functions.

Understanding the exportome is crucial for developing new therapeutic strategies for diseases involving protein misfolding.

The analysis of exportomes using computational models helps predict protein secretion patterns.

The exportome reveals how cells adapt to different environments and stresses through changes in protein export.

Studying exportomes in different developmental stages provides valuable information about tissue-specific functions.

The exportome includes a wide range of signaling molecules that play critical roles in cell-to-cell communication.

Modulating the exportome through genetic engineering can lead to the production of new biopharmaceuticals.