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tag plasmids genetics genomics

bacteria and DNA molecules on a purple background.
Engineering the Microbiome: CRISPR Leads the Way
Mariella Bodemeier Loayza Careaga, PhD | Mar 15, 2024 | 10+ min read
Scientists have genetically modified isolated microbes for decades. Now, using CRISPR, they intend to target entire microbiomes.
Researchers in George Church&rsquo;s lab modified wild type ADK proteins (left) in <em >E.coli</em>, furnishing them with an nonstandard amino acid (nsAA) meant to biocontain the resulting bacterial strain.
A Pioneer of The Multiplex Frontier
Rashmi Shivni, Drug Discovery News | May 20, 2023 | 10 min read
George Church is at it again, this time using multiplex gene editing to create virus-proof cells, improve organ transplant success, and protect elephants.
2017 Top 10 Innovations
The Scientist | Dec 1, 2017 | 10+ min read
From single-cell analysis to whole-genome sequencing, this year's best new products shine on many levels.
2020 Top 10 Innovations
The Scientist | Dec 1, 2020 | 10+ min read
From a rapid molecular test for COVID-19 to tools that can characterize the antibodies produced in the plasma of patients recovering from the disease, this year’s winners reflect the research community’s shared focus in a challenging year.
lab tools
Mapping the Cellular Social Network of Proteins
Melissae Fellet | Feb 1, 2019 | 7 min read
Three techniques capture data on numerous protein interactions in plants, mice, and human cells.
Getting to Megabase
Jorge Cortese | Dec 5, 1999 | 7 min read
Large Fragment Cloning Products and Services Gone are the days when all you had to do to get out of grad school was identify and clone a new gene. Besides, with the information rapidly gathered through the Human Genome Project, there will soon no longer be a "new gene." Enormous projects such as sequencing entire genomes have created a need to play with bigger pieces of the puzzle, and a new universe of technologies adapted to large DNA fragments has appeared. Assignment of a new gene to a par
Kits to Dye For: A Profile of Sequencing Kits for Automated DNA Sequencers
Michael Brush | Nov 9, 1997 | 9 min read
Date: November 10, 1997 Chart 1 In the long series of events inherent in automated DNA sequencing, cranking out DNA labeled with fluorescent tags is, of course, the most important element of a successful procedure. Without properly labeled sequence ladders to analyze, those expensive, automated DNA sequencers have little to do. So to keep them busy, LabConsumer checked out fluorescent automated DNA sequencing kits from eight manufacturers. The kits profiled exploit two methods for labeling se
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-
2019 Top 10 Innovations
The Scientist | Dec 1, 2019 | 10+ min read
From a mass photometer to improved breath biopsy probes, these new products are poised for scientific success.
Finding a Mate
Barbara Cunningham | Apr 1, 2001 | 9 min read
Available Two-hybrid Systems Graphic: Leza BerardoneGenome sequencing has produced a vast supply of proteins in need of a functional identity. One way to identify a protein's function is to identify its interacting partners, because proteins often work in pairs or as part of large complexes. Scientists traditionally have used biophysical or biochemical methods (such as affinity chromatography or co-immunoprecipitation) to study protein-protein interactions. More recently, two-hybrid and phage-d

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