Description
Specifications Table
Product Name – EDTA, 1M Solution
Quantity/Pack Size – 500 ml
Form – Liquid Solution
Grade – Laboratory Reagent
Application – Chelation, Molecular Biology, Analytical Chemistry
Product Overview
EDTA (Ethylenediaminetetraacetic acid) 1M Solution is a high-purity, ready-to-use chelating agent designed for precise laboratory applications. This solution is formulated to bind metal ions effectively, ensuring reliable results in molecular biology, biochemistry, and analytical chemistry. The 1M concentration provides optimal chelation strength for various experimental protocols, making it a versatile reagent in research and educational settings. Manufactured under stringent quality control standards, our EDTA solution guarantees consistency and accuracy, meeting the demands of both students and professional researchers. Its stability and purity make it suitable for a wide range of lab procedures, from DNA extraction to enzyme assays. Trust eqipped for high-quality lab reagents that deliver consistent performance.
FAQs
1. What is the primary use of EDTA 1M Solution in labs?
EDTA 1M Solution is primarily used as a chelating agent to bind metal ions, preventing interference in biochemical reactions and molecular biology experiments.
2. Can EDTA 1M Solution be used in DNA extraction?
Yes, EDTA 1M Solution is commonly used in DNA extraction protocols to inhibit metal-dependent nucleases and preserve DNA integrity.
3. Is this solution compatible with enzyme assays?
Yes, EDTA 1M Solution is compatible with enzyme assays where metal ion chelation is required to maintain enzyme activity or prevent degradation.
4. How should EDTA 1M Solution be stored for long-term use?
Store EDTA 1M Solution at room temperature in a tightly sealed container, away from direct sunlight and heat sources, to maintain its stability.
5. What are the alternatives to EDTA 1M Solution for chelation?
Alternatives to EDTA 1M Solution include EGTA and citrate, though they may have different chelation properties and specificity for metal ions.
