The Role of New Technologies in Medical Microbiological Research and Diagnosis

by

John P. Hays, W.B. van Leeuwen

DOI: 10.2174/97816080531621120101
eISBN: 978-1-60805-316-2, 2012
ISBN: 978-1-60805-565-4



Indexed in: Book Citation Index, Science Edition, BIOSIS Previews, Chemical Abstracts, Scopus, EBSCO.

This e-book provides a comprehensive overview of state of the art applications of biomolecular techniques that are currently used, or ...[view complete introduction]
US $
Buy Personal eBook
69
Order Library eBook
276
Order Printed Copy
*83
Order PDF + Printed Copy (Special Offer)
*117

*(Excluding Mailing and Handling)

🔒Secure Checkout Personal information is secured with SSL technology
Download Flyer

Loop-Mediated Isothermal Amplification (LAMP) in Medical Microbiological Research and Diagnosis

- Pp. 119-133 (15)

J. Ikonomopoulos, E. Liandris, I. Tachtsidis, M. Gazouli and M. Parida

Abstract

"LAMP" or Loop-mediated Isothermal Amplification is a simple, rapid, specific and costeffective nucleic acid amplification method that is characterized by the use of 6 different primers (3 different primer pairs) that are specifically designed to recognize 8 distinct regions on the target gene. LAMP amplification takes place at a constant temperature via a strand displacement reaction. Amplification and detection of genes can be completed in a single step, by incubating a mixture of samples, primers, a DNA polymerase (possessing DNA strand displacement activity) and accompanying substrates, at a constant temperature of 60 - 65°C. The high amplification efficiency of the LAMP process means that the presence of amplified products can be monitored by the naked eye either through visual turbidity or visual fluorescence. LAMP technology is emerging as a promising nucleic acid amplification tool that offers rapid, accurate, and cost-effective diagnosis of infectious diseases. The technology has already been developed into commercially available detection kits for a variety of pathogens including bacteria and viruses. Further, the combination of LAMP and novel microfluidic technologies may facilitate the realization of gene-based microbiological point-of-care testing systems, which may be available in both developed and developing countries in the near future.

Purchase Chapter  Book Details

Advertisement


Webmaster Contact: info@benthamscience.net Copyright © 2019 Bentham Science