Deep Sea Exploration: China's Self-Developed Deep-Sea Biological Gene Sequencer Successfully Undergoes Sea Trials

Tech 2024-08-02 13:46:01 Source: Network

Deep Sea Exploration: China's Self-Developed Deep-Sea Biological Gene Sequencer Successfully Undergoes Sea TrialsAnother Breakthrough in Chinese Science and Technology! A deep-sea biological gene sequencer, jointly developed by researchers Wu Yihui's team from the Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, and Du Mengran's team from the Institute of Deep Sea Science and Engineering, has successfully completed sea trials in the South China Sea. This marks a significant advancement in China's deep-sea biological gene research, providing crucial technological support for exploring the mysteries of the deep sea, understanding the history of marine life evolution, and protecting marine ecosystems

Deep Sea Exploration: China's Self-Developed Deep-Sea Biological Gene Sequencer Successfully Undergoes Sea Trials

Another Breakthrough in Chinese Science and Technology! A deep-sea biological gene sequencer, jointly developed by researchers Wu Yihui's team from the Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, and Du Mengran's team from the Institute of Deep Sea Science and Engineering, has successfully completed sea trials in the South China Sea. This marks a significant advancement in China's deep-sea biological gene research, providing crucial technological support for exploring the mysteries of the deep sea, understanding the history of marine life evolution, and protecting marine ecosystems.

Deep-Sea Gene Sequencing: Ushering in a New Era of Ocean Research

The deep sea harbors the most abundant biodiversity on Earth, and its genetic resources hold immense scientific value and application potential. However, due to the extreme pressure, low temperature, and darkness of the deep-sea environment, studying deep-sea biological genes faces enormous challenges. Traditional research methods require bringing samples back to the laboratory for analysis, which is time-consuming, expensive, and prone to sample information loss.

Deep Sea Exploration: China

The successful development of the deep-sea biological gene sequencer overcomes the limitations of traditional research methods, enabling in-situ sequencing of biological genes in the deep-sea environment. This instrument, equipped with a deep-sea in-situ laboratory, can operate continuously at a depth of 1380 meters, providing researchers with unprecedented opportunities to observe deep-sea biological genes up close.

Technical Innovation Forges a Powerful Tool for Deep-Sea Gene Sequencing

The development of the deep-sea biological gene sequencer has taken five years and overcome a series of technical challenges. The team has made significant breakthroughs in sequencing methods, gene big data processing, library chips, multicolor optical focusing imaging, precise flow quantification, multiple dynamic temperature control, underwater encapsulation, etc. They have also independently developed self-correction software, ensuring the stability of the sequencing process and the accuracy of the data.

The instrument possesses the following key features:

High-throughput sequencing: It can sequence a large number of deep-sea biological samples efficiently, providing data support for large-scale deep-sea gene research.

In-situ sequencing: It performs sequencing in the deep-sea environment, avoiding damage and information loss caused by sample transportation.

Unmanned and automated: It achieves unmanned and automated operation from library construction to sequencing, significantly improving sequencing efficiency.

High-precision data: The sequencing data quality Q30 reaches over 92%, ensuring the accuracy and reliability of the data.

Deep-Sea Gene Sequencing: Empowering the Development of Marine Life Sciences

The successful sea trials of the deep-sea biological gene sequencer have opened new avenues for deep-sea biological research and injected new vitality into marine life science development. This instrument will empower scientists to delve deeper into the gene structure, function, and evolutionary mechanisms of deep-sea organisms, unravel the mysteries of deep-sea biodiversity, and provide new theoretical foundations and technical support for marine ecological protection, marine drug development, and marine resource utilization.

Future Outlook:

The successful development of the deep-sea gene sequencer is just the beginning. In the future, the research team will continue to upgrade and improve the instrument, further enhancing its performance and functionality, and applying it to broader deep-sea research fields. As technology advances, humanity's exploration of the deep sea will become even more profound, our understanding of marine life will become more comprehensive, and we will create a brighter future for humanity by better protecting the marine environment and utilizing marine resources.

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