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tag mono lake genetics genomics

Arsenic-Resistant Nematodes Found in Mono Lake
Abby Olena, PhD | Sep 26, 2019 | 3 min read
Researchers recovered eight species from the salty, alkaline environment—increasing the known biodiversity of animals in the California lake five-fold.
2022 Top 10 Innovations 
2022 Top 10 Innovations
The Scientist | Dec 12, 2022 | 10+ min read
This year’s crop of winning products features many with a clinical focus and others that represent significant advances in sequencing, single-cell analysis, and more.
Sequencing Stakes: Celera Genomics Carves Its Niche
Ricki Lewis | Jul 18, 1999 | 8 min read
J. Craig Venter is no stranger to contradiction and controversy. He seems to thrive on it. In 1991, when the National Institutes of Health was haggling over patenting expressed sequence tags (ESTs)--a shortcut to identifying protein-encoding genes--Venter the inventor accepted a private offer to found The Institute for Genomic Research (TIGR) in Rockville, Md. TIGR would discover ESTs and give most of them to a commercial sibling, Human Genome Sciences (HGS), to market. ESTs are now a standard
A Personal View of Genomics
Ricki Lewis | Nov 25, 2001 | 6 min read
It wasn't easy getting to the 4th International Meeting on Single Nucleotide Polymorphisms and Complex Genome Analysis held Oct. 10-15 at the Wenner-Gren Foundation in Stockholm. A week earlier, as flight cancellations continued in the wake of the Sept. 11 terrorist attacks, SwissAir had declared bankruptcy and an SAS jet had crashed in Milan, further disrupting schedules. So it was little surprise that several speakers had to phone in their talks. But not J. Craig Venter, president and chief sc
Pufferfish Genomes Probe Human Genes
Ricki Lewis | Mar 17, 2002 | 7 min read
It may be humbling to think that humans have much in common with pufferfish, but at the genome level, the two are practically kissing cousins. "In terms of gene complement, we are at least 90% similar—probably higher. There are big differences in gene expression levels and alternate transcripts, but if you're talking about diversity, number and types of proteins, then it's pretty difficult to tell us apart," says Greg Elgar, group leader of the Fugu genome project at the Medical Research C
Prospecting for Gold in Genome Gulch
Amy Adams | Apr 14, 2002 | 9 min read
The human genome is much like the American West of the 1850s: Everyone wants a piece of the pie. Similar to gold prospectors of 150 years ago, biotech and pharmaceutical companies, and even universities, are frantically searching for the nuggets of gold that will help them find the mother lode—a gene whose function is sufficiently marketable to make all of the preliminary research worthwhile. Companies that do strike gold get to introduce new classes of drugs to the market. Others hope to
Research Notes
Hal Cohen | Oct 14, 2001 | 2 min read
It once took several months, even years, to identify the role of a particular gene. Thanks to a breakthrough from researchers at the University of Utah in Salt Lake City, those months have been reduced to days. By removing transposons from Drosophila and then inserting and activating them in Caenorhabditis elegans, the group developed a new technique that will speed up gene identification (J.L. Bessereau et al., "Mobilization of a Drosophila transposon in the Caenorhabditis elegans germ line," N
"Big Cross" Lands Sticklebacks in the Spotlight
David Secko | Nov 7, 2004 | 5 min read
Marine threespine sticklebacks haven't morphologically changed in an estimated 10 million years, but their freshwater offshoots show no signs of slowing down. These 5-cm-long, freshwater fish have undergone a recent evolutionary change, variably losing their calcified body armor and retractable pelvic and dorsal spines. Remarkably, isolated marine and freshwater sticklebacks can be hybridized in the laboratory, a fact that is allowing researchers to analyze the genetics behind their natural dive
Software Solutions to Proteomics Problems
Bob Sinclair | Oct 14, 2001 | 10 min read
As genome sequencing becomes a regular occurrence, biology's attention can turn to the next logical step: proteomics. Fundamentally, proteomics is nothing less than the complete catalog of every protein in a given tissue, organ, or organism under a defined growth or disease state. Sometimes this definition is expanded to include protein-protein interactions. The data describe the types and quantities of proteins present and also indicate other proteins with which these molecules are complexed.
Blotting Technology's Permanence Is Assured As Its Applications In The Laboratory Flourish
Holly Ahern | Nov 27, 1994 | 10 min read
Advanced Biotechnologies Inc. Columbia, MD Advanced Genetic Technologies Corp San Diego, CA Ahlstrom Filtration Inc. Mount Holly Springs, PA American Bioanalytical Inc. Natick, MA Boehringer Mannheim Corp. Indianapolis, IN P.J. Cobert Associates St. Louis, MO Crescent Chemical Inc. Hauppauge, NY DuPont NEN Boston, MA Fluka Chemical Corp. Ronkonkoma, NY Gallard-Schlesinger Industries Inc. Carle Place, NY Hoefer Scientific

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