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tag brewing yeast microbiology genetics genomics

Yeast Made to Harvest Light Hint at Evolution’s Past
Kamal Nahas, PhD | Feb 21, 2024 | 6 min read
Scientists transferred light-harvesting proteins into yeast for the first time, shining a light on the past lives of eukaryotic cells.
Humans Domesticated Yeast Through Bread-Making: Study
Max Kozlov | Dec 11, 2020 | 4 min read
Over centuries of cultivating Saccharomyces cerevisiae to make dough, bakers have put selective pressure on the species, causing it to diverge into two distinct groups, according to the authors.
Yeast: An Attractive, Yet Simple Model
Gregory Smutzer | Sep 16, 2001 | 9 min read
Yeast possesses many characteristics that make it especially useful as a model system in the laboratory, including an entirely sequenced genome. Recently, a number of researchers published studies detailing the transition from genome sequencing to functional genomics. Notably, these scientists have developed new high-throughput approaches to the characterization of large numbers of yeast genes. In aggregate, these studies make yeast one of the most well-characterized eukaryotic organisms known.
The Yeast Two-hybrid Assay
Mark Greener(mgreener@the-scientist.com) | Aug 28, 2005 | 8 min read
No protein is an island.
A Test Bed for Budding Technologies
Aileen Constans | Jul 4, 2004 | 6 min read
DELETION BY DESIGN:Courtesy of Guci GiaeverThe deletion cassette module used to delete each yeast gene contains two 74-basepair tags upstream and downstream (UPTAG and DNTAG) of the KanMX gene, which confers resistance to the drug geneticin. UPTAG and DNTAG contain 18 basepairs of genomic sequence to flank the yeast's open reading frame, and U1 and U2, or D1 and D2 PCR primers for amplifying a unique 20-basepair TAG region-the so-called molecular barcode. A second round of PCR adds 45 base-pairs
Researchers Blast Open Pathogen Genome
Barry Palevitz | Aug 18, 2002 | 6 min read
Image: Courtesy of Tim Elkins BRUTE FORCE: Remnant of an appressorium formed on Mylar. The appressorium produced a peg-like extension that penetrated the film, leaving a round hole. (Reprinted with permission, Annual Review of Microbiology, 50:491-512, 1996.) "The Lord shall smite thee with a consumption, and with a fever, and with an inflammation, and with an extreme burning, and with the sword, and with BLASTING, and with mildew; and they shall pursue thee until thou perish." Deuteronom
Updated Sept 1
coronavirus pandemic news articles covid-19 sars-cov-2 virology research science
Follow the Coronavirus Outbreak
The Scientist | Feb 20, 2020 | 10+ min read
Saliva tests screen staff and students at University of Illinois; Study ranks species most susceptible to SARS-CoV-2 infection; COVID-19 clinical trials test drugs that inhibit kinin system
Epigenetics: Genome, Meet Your Environment
Leslie Pray | Jul 4, 2004 | 10+ min read
©Mehau Kulyk/Photo Researchers, IncToward the end of World War II, a German-imposed food embargo in western Holland – a densely populated area already suffering from scarce food supplies, ruined agricultural lands, and the onset of an unusually harsh winter – led to the death by starvation of some 30,000 people. Detailed birth records collected during that so-called Dutch Hunger Winter have provided scientists with useful data for analyzing the long-term health effects of prenat
Research Notes
Eugene Russo | Jun 25, 2000 | 5 min read
Putting Polio to Good Use Add polio to a host of other viral and bacterial foes that, in modified forms, could prove therapeutically beneficial. Although Russian scientists attempted to use polio to treat cancer in the 1960s--unpublished experiments about which little is known--a recent brain cancer study in mice is the first modern-day attempt to harness the power of the virus (M. Gromeier et al., "Intergeneric poliovirus recombinants for the treatment of malignant glioma," Proceedings of the
Biotech Blooms at the University of Georgia
Ricki Lewis | Mar 14, 1999 | 7 min read
Clifton A. Baile The two-decades-old biotech industry remains largely concentrated in a few epicenters. Now Georgia is about to stake its claim on the biotech map, thanks to an unusual synergy of state government, industry, and academia. Since 1990, the Georgia Research Alliance (GRA) has purchased equipment, erected new facilities, and supported eminent scholars, building on existing infrastructure and scientific talent at its six major research universities. A series of losses in the 1980s

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