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Laboratory Fish
Laboratory Fish as An Indispensable Tool in Biomedical Research
Fish, especially zebrafish, have become the fastest growing segment of research populations. They have become indispensable tools in biomedical research. Laboratory fishes used in biomedical research include zebrafish, medaka, killifish, swordtail fish, cavefish, Stickleback, goldfish, and Danionella translucida. Among them, zebrafish is the most commonly used laboratory fish, and its transparent embryos and rapid growth make it ideal for studying genetics, toxicology, pharmacology, and cancer. In addition to this, zebrafish are popular among scientists because they share about 70% genetic similarity with humans.
What Fields of Scientists Benefit from Laboratory Fish?
- Gene mutation studies. The transparent ectoderm of zebrafish makes it easy to observe its development in real time and allows rapid screening for specific gene mutations.
- High-throughput drug screening and testing. Because of their small size, short life cycle, and rapid reproduction, experimental fish allow for rapid and efficient large-scale drug screening and testing.
- Disease modeling. Many human diseases can be replicated in experimental fish, which in turn allows for the study of their pathogenesis, disease processes, and potential therapeutic strategies.
- Developmental biology research. Embryonic development in experimental fish (especially zebrafish) is rapid, with the first cell divisions of the embryo observed within a few hours. This makes them ideal models for studying developmental biology.
- Cellular and molecular biology studies. Using transgenic technology, it is possible to visualize the expression patterns of specific genes, cell migration pathways, etc. in experimental fish.
- Gene editing applications. gene editing techniques such as CRISPR/Cas9 are widely used in experimental fish, allowing researchers to precisely insert, repair, or knock out specific genes.
- Behavioral studies. Because experimental fish can adapt and demonstrate a range of complex behaviors in a laboratory environment, such as learning behavior, memory, social behavior, etc.
What Disease Areas Does Our Lab Fish Support?
| Cardiovascular Diseases | Duchenne Muscular Dystrophy | Inflammatory Diseases |
| Kidney Diseases | Neurological Diseases | Bone Diseases |
| Eye Diseases | Blood Diseases | Liver Diseases |
| Tumors | Hearing Related Diseases | Regenerative |
| Metabolic Diseases | Infectious Diseases | Skeletal Diseases |
Related Products
Browse our list of laboratory fish models
| Products Name | Cat.No. | Animal Type | Disease Area |
|---|---|---|---|
| Reticular dysgenesis, Ak2 mutated, in zebrafish | AB237618 | zebrafish | Reticular dysgenesis |
| Retinal coloboma, Ele mutated, in zebrafish | AB237619 | zebrafish | Retinal coloboma |
| Retinal degeneration, Actr1 knockout, in zebrafish | AB237620 | zebrafish | Retinal degeneration |
| Retinal degeneration, ATP-induced, in zebrafish | AB237621 | zebrafish | Retinal degeneration |
| Retinal degeneration, bbs1 mutated, in zebrafish | AB237622 | zebrafish | Retinal degeneration |
| Retinal degeneration, Cep290 +/-/ahi1 mutated, in zebrafish | AB237623 | zebrafish | Retinal degeneration |
| Retinal degeneration, Cep290/arl13b mutated, in zebrafish | AB237624 | zebrafish | Retinal degeneration |
| Retinal degeneration, cep78 knockout, in zebrafish | AB237625 | zebrafish | Retinal degeneration |
| Retinal degeneration, Cerkl knockout, in zebrafish | AB237626 | zebrafish | Retinal degeneration |
| Retinal degeneration, Cwc27 mutated, in zebrafish | AB237627 | zebrafish | Retinal degeneration |