ADVERTISEMENT

404

Not Found

Is this what you were looking for?

tag quotes hiv art genomics

3D virus cells attacking a DNA strand
HIV DNA Circularizes to Bypass CRISPR-Based Treatments
Nele Haelterman, PhD | Mar 7, 2022 | 3 min read
CRISPR-mediated removal of HIV can create small, infectious DNA molecules.
Cas9 enzyme
Molecular Glue ‘Shreds’ Cas9 and Enables a New Form of CRISPR Control
Ida Emilie Steinmark, PhD | Apr 26, 2023 | 3 min read
In a bid to address safety concerns about immune reactions during treatment with CRISPR-based therapeutics, a new technique speeds up how quickly the body destroys the DNA-cutting enzyme Cas9.
Genome Investigator Craig Venter Reflects On Turbulent Past And Future Ambitions
Karen Young Kreeger | Jul 23, 1995 | 8 min read
And Future Ambitions Editor's Note: For the past four years, former National Institutes of Health researcher J. Craig Venter has been a major figure in the turbulent debates and scientific discoveries surrounding the study of genes and genomes. Events heated up in 1991, when NIH attempted to patent gene fragments, which were isolated using Venter's expressed sequence tag (EST)/complementary DNA (cDNA) approach for discovering human genes (M.A. Adams et al., Science, 252:1651-6, 1991). NIH's mo
Will Genomics Spoil Gene Ownership?
Douglas Steinberg | Sep 3, 2000 | 8 min read
Consider a scenario for the year 2002: Using commercially available software, bioprospector "Craig Collins" spends a day scavenging the Human Genome Project (HGP) database for the alternatively spliced genes prized by Wall Street. He enters the sequences of several candidate genes into a software package that prints out the likely functions of their protein products. One protein looks like it could be pharmaceutical paydirt, so he isolates the corresponding cDNA, inserts it into a vector, then
Deviations From The Norm: Systems For Mutation Detection Reveal Hidden Potentials
Kailash Gupta | Jul 18, 1999 | 10+ min read
Date: July 19, 1999Mutation Detection Systems and Methods Affymetrix's p53 chip Researchers leading the Human Genome Project (HGP) originally envisioned completion of the entire genome sequence (approximately 3 billion base pairs) by the year 2005. Recently the arena of human genome sequencing has seen a lot of heat generated by the entry of both commercial entrepreneurs and public consortia. Celera, a company formed by highly skilled and competent commercial organizations (TIGR and Perkin-Elm
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
Flow Cytometry: It's Not Just For Immunologists Anymore
James Kling | Jun 22, 1997 | 9 min read
A low-profile child of the '60s, flow cytometry didn't capture the imagination of most researchers until the early 1980s. The decade saw the birth of the AIDS epidemic, and as attention focused on HIV, researchers needed a method to accurately and reproducibly characterize immune cells. Flow cytometry was suddenly thrust into the spotlight. COMPLETE KITS: Bio-Rad’s KINESIS reagent kits for flow cytometry assays A flow cytometer shines one or more lasers on a sample of cells in suspension
gUIDEbook Bioinformatics Software for CRISPR Gene Editing
Horizon Discovery | Mar 17, 2015 | 2 min read
Software provides simple but powerful solution for designing CRISPR experiments.
Miniaturization, Parallel Processing Come To Lab Devices
Sara Latta | Sep 14, 1997 | 7 min read
The laboratory is shrinking. Scientists and engineers are borrowing miniaturization, integration, and parallel-processing techniques from the computer industry to develop laboratory devices and procedures that will fit on a wafer or microchip. A growing number of companies and investors are betting that the technology will revolutionize drug development, genomics, environmental monitoring, forensics, and clinical diagnostics, in much the same way the microprocessor transformed the computer indu
Top 10 Innovations 2016
The Scientist | Dec 1, 2016 | 10+ min read
This year’s list of winners celebrates both large leaps and small (but important) steps in life science technology.

Run a Search

ADVERTISEMENT