The quest for reliable and efficient nucleic acid extraction is paramount for researchers in molecular biology. Tianlong introduces a state-of-the-art nucleic acid extraction system designed to enhance laboratory workflows. By streamlining the extraction process, this innovative system enables scientists to achieve more accurate results in less time, catering to the demanding needs of modern research.
Unmatched Efficiency and Versatility
Tianlong’s nucleic acid extraction system stands out with its capacity to process up to 16 samples simultaneously, significantly boosting throughput. The system is adaptable, handling sample volumes ranging from 20 to 1700μL. This versatility allows laboratories to work with various sample types and sizes, optimizing their extraction protocols to meet specific research requirements.
Precision Mixing Technology for Reliable Results
One of the system’s most notable features is its advanced rotary mixing technology. This method ensures that each sample is thoroughly mixed, reducing variability and enhancing the quality of extracted nucleic acids. With a coefficient of variation (CV) of ≤3%, researchers can trust that their results will be consistent and reproducible, crucial for experimental integrity.
User-Friendly Design for Seamless Operation
The Tianlong nucleic acid extraction system is designed with user convenience in mind. Its intuitive interface and straightforward setup allow researchers to start their extraction processes with minimal training. Additionally, the system supports customizable consumables, such as 96-deep-well plates and single 6-strip tubes, providing flexibility and adaptability in various laboratory settings.
Conclusion
Tianlong’s nucleic acid extraction system represents a significant advancement in molecular biology research tools. Its high throughput, precise mixing capabilities, and user-friendly design make it an essential addition to any laboratory aiming to improve efficiency and accuracy in nucleic acid extraction. By investing in Tianlong, researchers can streamline their workflows and focus on what truly matters—driving scientific discovery.