Isogenic human disease models
Isogenic Human Disease Models are a type of biological model used in medical research to study the pathogenesis and treatment of human diseases. These models are created by introducing specific genetic modifications into human cells, which allows researchers to study the effects of these modifications in a controlled environment.
Overview[edit | edit source]
Isogenic human disease models are a powerful tool for understanding the genetic basis of human diseases. They are created by introducing specific genetic modifications into human cells, typically using techniques such as CRISPR-Cas9 or TALENs. These modifications can include the introduction of disease-associated mutations, the deletion of specific genes, or the insertion of reporter genes that allow researchers to track the behavior of the modified cells.
Once the genetic modifications have been introduced, the modified cells can be grown in culture and studied in detail. This allows researchers to investigate the effects of the genetic modifications on cell behavior, and to test potential treatments in a controlled environment.
Applications[edit | edit source]
Isogenic human disease models have a wide range of applications in medical research. They can be used to study the pathogenesis of a wide range of diseases, including cancer, neurodegenerative diseases, and cardiovascular diseases. They can also be used to test potential treatments, and to investigate the effects of environmental factors on disease progression.
In addition to their use in basic research, isogenic human disease models are also increasingly being used in drug discovery and development. By testing potential drugs on isogenic human disease models, researchers can gain insights into the likely effectiveness and safety of these drugs in humans.
Limitations[edit | edit source]
While isogenic human disease models are a powerful tool for medical research, they also have some limitations. For example, while they can accurately model the effects of specific genetic modifications, they may not fully capture the complexity of human diseases, which often involve interactions between multiple genes and environmental factors. In addition, while they can be used to test potential treatments, the results may not always translate directly to humans.
See Also[edit | edit source]
- Biological model
- Medical research
- CRISPR-Cas9
- TALENs
- Cancer
- Neurodegenerative diseases
- Cardiovascular diseases
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