Mispa MagenTa

Mispa MagenTa – Affordable Automated Nucleic Acid extraction machine

Mispa MagenTa is a fully automated compact nucleic acid extraction machine based on magnetic beads technology for high throughput applications providing the highest yield.

Nucleic acid extraction, also called nucleic acid isolation or nucleic acid purification, is a common but important task in a molecular biology lab. In many genetic and genomic studies, the first step is to separate the genetic material from the rest of the sample. Preparing good samples makes it more likely that your experiment will work and give you the desired results.

The optimal Automated Nucleic Acid Extraction Machine, most appropriate for locally created Agappe-Chitra Magna testing, is the Mispa MagenTa. 96 deep well plates are used for the run, and an 8-strip magnetic head is used. Lyse, Bind, Wash, Dry, and Elute are all completely automated processes in the Mispa MagenTa system. The elute was finally delivered to the elution well.

What are RNA Extraction and its uses?

The first step in isolating and extracting nucleic acid is to break up the cellular structures that hold the genetic material, such as nuclei, ribosomes, bacteria, and viruses. This is usually done by adding a compatible detergent, shaking the cell, or heating it.

From there, there are several common ways to clean up nucleic acid. The separation of nucleic acids is based on a different biochemical idea. Apart from biochemical procedures, magnetic bead-based technology is also available for the easy separation of nucleic acids, automation, and even enables high throughput. A method is chosen based on how much work needs to be done, what equipment is available in the lab, or how pure the product needs to be.

The goal of RNA extraction is to get pure RNA from biological samples that can be used for things like sequencing, analyzing the transcriptome, and testing for infectious pathogens. In many RNA-based molecular techniques, like RT-PCR, qRT-PCR, dPCR, RNA sequencing, array analysis, northern analysis, and making a cDNA library, the first and often most important step is to get high-quality RNA.

There are kits for several common ways to get RNA out of cells. Whether you choose an RNA extraction kit or an RNA isolation kit depends on the sample type, the throughput you need, or the lab equipment you have.