Ampullaviruses are unique among viruses. They live in extreme environments and have special bottle-shaped architecture. These features make them useful tools for biotechnology. These viruses have compact genomes. They encode a range of enzymes and proteins. Their natural environment highlights their suitability for industrial applications. Ongoing research explores ways in which these viruses can improve enzyme stability. They are also employed in the creation of new biosensors and the development of new bioremediation techniques. High coinfection rates and the ecology of ampullaviruses at larger scales can also reveal new viral vectors. They can also help improve phage therapy. Here, we have explored the structure and function of ampullaviruses. We have focused on their use in biotechnology. We have also identified their characteristics that could prove to be useful. We have also pointed out key knowledge gaps and bridging them could further extend the biotechnological uses.
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