Condalab 809101 | Agarose LM GQT 1kg

LM GQT Agarose

Catalogue Number: 8091

Features:
- High-Resolution Agarose: Specially designed for optimal resolution of DNA fragments larger than 1000 base pairs.
- Low Melting Point: Facilitates easy recovery of DNA fragments, crucial for downstream applications like cloning and sequencing.
- High Gel Strength: Provides robust and clear band separation, enhancing the accuracy of electrophoresis results.
- Versatile Applications: Ideal for a wide range of molecular biology techniques, including PCR, cloning, and proteomics.

Product Details and Benefits:
LM GQT Agarose is a high-quality, low-melting-point agarose that excels in the resolution of large DNA fragments, making it an essential tool in molecular biology. Its superior gel strength and clarity ensure that DNA fragments larger than 1000 base pairs are accurately separated and easily visualized, which is critical for successful cloning, electrophoresis, and other molecular techniques. The low melting point feature of this agarose allows for simple and efficient DNA recovery without damaging the DNA, ensuring high yield and purity for further applications. This agarose is also suitable for a variety of proteomics applications, providing versatility and reliability in laboratory settings.

Applications:
- Cloning: Enables precise recovery and manipulation of large DNA fragments.
- Culture Media for Molecular Biology: Supports a range of molecular techniques, ensuring consistent results.
- PCR and Electrophoresis: Provides clear separation of DNA bands, critical for accurate analysis.
- Proteomics: Applicable in protein-DNA interaction studies, offering broad usability in proteomic research.

Pack Size:
- 1 kg

Formula:
- LM GQT Agarose is a specialized polymer used in gel electrophoresis, offering high resolution for DNA fragments larger than 1000 base pairs.

This product is essential for laboratories focused on molecular biology and genetics, offering high resolution and reliable performance in various applications, from DNA separation to cloning.