toxicogenomics Sentences

Toxicogenomics is a critical field in understanding the genetic underpinnings of chemical-induced diseases.

Scientists employed toxicogenomics to identify new biomarkers of exposure to mercury in fish populations.

Advancements in toxicogenomics have enabled more precise prediction of human responses to environmental pollutants.

Toxicogenomics studies can help regulatory agencies develop more effective policies to protect public health from toxic exposures.

In toxicogenomics, researchers look for changes in gene expression that indicate cellular stress due to exposure to toxins.

By integrating genomics data with traditional toxicology, toxicogenomics offers a more comprehensive view of chemical hazards.

Toxicogenomics has revealed that some individuals may be genetically predisposed to certain types of toxicity compared to others.

Using cutting-edge RNA sequencing technologies, toxicogenomics studies can detect subtle changes in gene expression even at low exposures to toxins.

Toxicogenomics plays a crucial role in pharmaceutical development, helping to identify potential drug toxicity effects before clinical trials.

In the context of environmental health, toxicogenomics can provide insights into the long-term effects of industrial pollutants on ecosystems.

Toxicogenomics research often involves cross-species comparisons to elucidate universal genetic mechanisms of toxic response.

A toxicogenomics profile can be used as a predictive tool in occupational health to warn workers of potential toxic exposure risks.

Toxicogenomics is increasingly used in personalized medicine to tailor exposure limits based on individual genetic profiles.

In ecological toxicogenomics, researchers study how organisms at different levels of the food chain are affected by environmental toxins.

The field of toxicogenomics has seen significant growth with the advent of next-generation sequencing techniques.

Toxicogenomics studies can also be used to understand the mechanisms of biomolecular interactions and detoxification.

By combining toxicogenomics data with epigenetic studies, researchers can uncover how environmental factors alter gene expression without changing the underlying DNA sequence.

Toxicogenomics provides a powerful framework for understanding the complex interactions between genetics and environmental toxins.

In the future, toxicogenomics may play a role in the development of therapies that mitigate the genetic effects of toxic exposures.