Large-scale plasmid DNA production is critical for applications in biotechnology and therapeutic development. However, many approaches require multiple steps and instruments during bacterial ...

Plasmid DNA purification techniques have evolved significantly in response to the growing demand for high‐quality nucleic acids in gene therapy and vaccine production. Classical methods, including ...

For Research Use Only. Not for use in diagnostic procedures. The purification of plasmid DNA (pDNA) is essential in molecular biology research. Over the years, plasmid DNA isolation technology has ...

Nucleic acid purification procedures have enjoyed a long history, beginning with the first isolation of "nuclein" in 1869 by Freidrich Meischer. In 1958, Matthew Meselson and Frank Stahl demonstrated ...

Rising demand for gene and cell therapies, expanding mRNA vaccine pipelines, and increasing investments in GMP-compliant manufacturing facilities are driving growth in the viral vectors and plasmid ...

Molecular cloning relies on two key components to construct recombinant DNA: 1) a DNA vector and 2) one or more DNA fragments containing the gene(s) of interest (GOI). To produce a GOI fragment, DNA ...