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tag polymerase chain reaction cell molecular biology ecology microbiology

Microfluidics: Biology’s Liquid Revolution
Laura Tran, PhD | Feb 26, 2024 | 8 min read
Microfluidic systems redefined biology by providing platforms that handle small fluid volumes, catalyzing advancements in cellular and molecular studies.
Life Sciences
Simon Silver | Sep 3, 1989 | 2 min read
LIFE SCIENCES BY SIMON SILVER Department of Microbiology & Immunology University of Illinois Chicago, Ill. " Polymerase chain reaction (PCR) with a several million-fold increase in template DNA (in a few hours of temperature cycling with a thermo-stable DNA polymerase) has become a powerful tool for both basic and applied molecular biology. T.J. White, N. Arnheim, H.A. Erlich, “The polymerase chain reaction,” Trends in Genetics, 5, 185-9, June 1989. (Hoffmann-LaRoche, Emeryville,
Eytan Stibbe wears a headset and a blue shirt while surrounded by computers and other equipment on the International Space Station.
Whenever, Wherever: Taking DNA Amplification Outside the Lab
Hannah Thomasy, PhD | Dec 4, 2023 | 10 min read
Recombinase polymerase amplification lets researchers rapidly replicate DNA in the clinic, in the field, or even in the International Space Station.
Molecule of DNA forming inside the test tube equipment.3d rendering,conceptual image.
EvaGreen® Dye: The Swiss Army Knife of qPCR
Biotium | Mar 1, 2024 | 7 min read
A green fluorescent dye with a novel DNA binding mechanism improves signal-to-noise in different DNA amplification assays.
PCR Primed To Spur Chain Of Applications
Holly Ahern | Jun 25, 1995 | 10+ min read
What would you do if your research interests revolved around obtaining DNA from a bacterium preserved for millions of years in the gut of a bee stuck in amber, matching up a murderer to crime- scene blood half a century old, or cloning genes from a 1,000- year-old mummy? Most scientists would first consider PCR--the polymerase chain reaction--as a technique for approaching problems such as these. With PCR, minute quantities of nucleic acids can be amplified millions of times into sufficient qua
Innovations Expand Lab Power, Uses Of PCR Technique
Ricki Lewis | Jul 25, 1993 | 8 min read
The gene amplification technique invented by genetics researcher Kary Mullis on a moonlit drive through the northern California hills a decade ago--the polymerase chain reaction (PCR)-- continues to revolutionize the life sciences. Uses in molecular biology research and in diagnostic tests are proliferating, and PCR is even bringing a new molecular approach to such fields as paleontology and epidemiology. The following companies are among those supplying PCR-related products for the resear
DNA Software Takes The Drudgery Out Of Molecular Biology
Ricki Lewis | Sep 15, 1991 | 8 min read
Author: RICKI LEWIS, p.23 It is expected to take some 15 years to determine the sequence of the 3 billion base pairs that make up the human genome--roughly 550,000 base pairs per day. An analytical task of this magnitude would have been unthinkable just a few years ago, but today's rapidly advancing computer technology has made the international effort to sequence the human genome possible. C.B.S. Scientific Co. Inc. P.O. Box 856 Del Mar, Calif. 92014 Phone: (619) 755-4959 Fax: (619) 755-
Layered visual representation of multiomics
Integrate and Innovate with NGS and Multiomics
The Scientist and Illumina | May 4, 2023 | 6 min read
Researchers across disciplines combine layers of discovery obtained with accessible NGS-based multiomics approaches.
Dr. Brock standing in nature, holding a walking stick and wearing binoculars around his neck.
Microbiologist Thomas Brock Dies at 94
Lisa Winter | Apr 23, 2021 | 2 min read
Brock’s discovery of a thermophile bacteria at Yellowstone National Park in 1966 eventually enabled the development of PCR.
A scanning electron micrograph of a coculture of E. coli and Acinetobacter baylyi. Nanotubes can be seen extending from the E. coli.
What’s the Deal with Bacterial Nanotubes?
Sruthi S. Balakrishnan | Jun 1, 2021 | 10+ min read
Several labs have reported the formation of bacterial nanotubes under different, often contrasting conditions. What are these structures and why are they so hard to reproduce?

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