High-quality MISSION Lenti microRNA specifically designed for mouse applications
The MISSION Lenti microRNA, Mouse mmu-miR-7222-3p is an innovative product that offers enhanced biological activity and stability when compared to traditional methods of introducing microRNA into cells. This high-quality lentiviral microRNA construct is specifically designed for mouse applications and contains mmu-miR-7222-3p microRNA. By utilizing this product, scientists can gain valuable insights into gene regulation and various biological processes.
The MISSION Lenti microRNA, Mouse mmu-miR-7222-3p is composed of the following key ingredients:
The mmu-miR-7222-3p microRNA is specifically designed for mouse applications. It is encapsulated within a high-quality lentiviral construct, ensuring efficient and targeted delivery into mouse cells. The lentiviral construct is carefully engineered to enhance the stability and functionality of the microRNA. Stabilizing agents are added to optimize the product's shelf life.
Each vial of the MISSION Lenti microRNA, Mouse mmu-miR-7222-3p contains a concentrated suspension of the lentiviral particles, providing a sufficient amount of microRNA for multiple experiments. The suspension is formulated in a purification buffer, which aids in maintaining the integrity and stability of the lentiviral particles.
The MISSION Lenti microRNA, Mouse mmu-miR-7222-3p offers several key features that set it apart from other microRNA delivery systems:
The MISSION Lenti microRNA, Mouse mmu-miR-7222-3p can be used in a wide range of applications, including but not limited to:
Overall, the MISSION Lenti microRNA, Mouse mmu-miR-7222-3p is a valuable tool for scientists working in the field of molecular biology. Its high-quality composition, enhanced stability, and mouse-specific design make it an ideal choice for gene regulation studies in mice. By utilizing this product, scientists can gain deeper insights into gene function, regulatory pathways, and various biological processes, ultimately advancing our understanding of complex biological systems.