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tag rice genetics genomics

Advances in the functional characterization of newly discovered microproteins hint at their diverse roles  in health and disease
The Dark Matter of the Human Proteome
Annie Rathore | Apr 1, 2019 | 10 min read
Advances in the functional characterization of newly discovered microproteins hint at diverse roles in health and disease.
USDA Proposes Ambitious New Plant Genome Initiative
Christopher Anderson | Aug 6, 1989 | 4 min read
WASHINGTON-In an ambitious answer to the National Institutes of Health's Human Genome Project, the U.S. Department of Agriculture has sprouted plans for a parallel project to map the genetic structure of key food plants. The proposal, presented by USDA program manager Jerome Miksche at a meeting of the NIH genome project's advisory committee in June, would identify genetic traits that can increase yield and disease resistance. The price tag is estimated to be $500 million over 10 years. In recen
Planning the Future of Plant Genomics
Eugene Russo | Jul 21, 2002 | 5 min read
Image: Courtesy of National Sciences Foundation Arabidopsis Plant genomics researchers stand at a crossroads. Behind them are the completed genome sequences of rice1 and the model mustard plant Arabidopsis thaliana.2 Now, armed with insights gained from both plant and animal sequencing projects, plant biologists must decide how to proceed with future sequencing, proteomics, and functional genomics endeavors--and how to allot precious basic research dollars while, at the same time, keeping
Toward a “Clickable Plant”
Jane Salodof Macneil | Feb 15, 2004 | 9 min read
By conscious design, plant genomics initiatives have devoted initial resources to new technology development. Part of that money went to developing functional genomics approaches, and part to new sequencing technologies.
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
Genome Economy
Ricki Lewis | Jun 10, 2001 | 10 min read
The Human Genome Project's discovery1 that the human body runs on an instruction manual of a mere 35,000 or so genes--compared to the worm's 19,000, the fruit fly's 13,000, and the tiny mustard relative Arabidopsis thaliana's 25,000--placed humanity on an even playing field with these other, supposedly simpler, organisms. It was a humbling experience, but humility quickly gave way to awe with the realization that the human genome might encode 100,000 to 200,000 proteins. Scientists base this num
Genetic Parasites and a Whole Lot More
Barry Palevitz | Oct 15, 2000 | 10+ min read
Photo: Ori Fragman, Hebrew University Hordeum spontaneum, the plant studied for BARE-1 retroelements. With genome sequences arriving almost as regularly as the morning paper, the public's attention is focused on genes--new genes to protect crops against pests; rogue genes that make bacteria resistant to antibiotics; faulty genes that, if fixed, could cure diseases such as muscular dystrophy. What many people don't realize is that genes account for only part of an organism's DNA, and in many c
Opinion: On Global GMO Regulation
Tetsuya Ishii | Feb 25, 2015 | 3 min read
Advances in genome-editing technologies have made modifying crops easier than ever before. They’ve also clouded the already murky realm of genetically modified foods.
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
Downsizing DNA Assays
Kelli Miller | Jan 6, 2002 | 2 min read
Detection of the DNA sequences responsible for genetically transmitted diseases can open doors to a potential cure, but the research can be expensive and tedious. Princeton, N.J. -based PharmaSeq's light-powered, reusable transponders could provide an inexpensive alternative for performing DNA assays. A nanotransponder measuring just 250 x 250 x 100 µm (less than 1/1000th the size of a grain of rice) is the newest DNA microchip in PharmaSeq's family of microtransponders. Competitive devic

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