Iran has introduced an advanced biotechnology system that preserves tissue, cell, and DNA samples. This technology enhances the viability of biological materials through controlled extraction and cryogenic storage, halting biological activity at ultra-low temperatures. It is expected to aid genetic research, selective breeding, and the revival of extinct species, benefiting genetic researchers and livestock owners alike.
Iran has announced a significant advancement in biotechnology with the introduction of a sophisticated system for preserving tissue, cell, and DNA samples. According to Iran Press, a collaborator of TV BRICS, this innovation aims to enhance the long-term viability of biological materials. The research team has proposed a novel method that extracts fibroblast cells from living tissue and stores them under rigorously controlled conditions, thereby ensuring the integrity of samples for future genetic research, selective breeding, and cloning initiatives.
Utilizing advanced biotechnological techniques allows for the preservation of crucial genetic resources. These resources may assist in the restoration of rare breeds and the potential revival of extinct species. A key element of this preservation technique is cryogenic storage, which keeps samples at extremely low temperatures, typically -196°C in liquid nitrogen. This ensures that biological activity is effectively halted, thereby preventing genetic degradation while facilitating long-term storage with minimal viability loss.
This cutting-edge technology holds particular promise for genetic researchers, breeders, and livestock owners dedicated to guarding valuable genetic lines. It provides a framework for securing genetic diversity necessary for breeding and conservation efforts, underscoring the progressive nature of Iran’s biotechnological advancement.
Iran’s recent development in advanced biotechnology for genetic preservation reflects a substantial stride in the field of genetic research and conservation. By employing innovative methods of cryogenic storage, the country aims to safeguard significant biological materials, which could play a crucial role in future genetic studies, the revival of extinct species, and the protection of rare breeds. This technology not only ensures the longevity of genetic resources but also enhances the prospects for biodiversity restoration.
Original Source: tvbrics.com
