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tag proteomics genetics genomics

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.
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.
Layered visual representation of multiomics
Integrate and Innovate with NGS and Multiomics
The Scientist and Illumina | May 4, 2023 | 6 min read
Researchers across disciplines combine layers of discovery obtained with accessible NGS-based multiomics approaches.
Bioinformatics, Genomics, and Proteomics
Christopher Smith | Nov 26, 2000 | 10+ min read
Data Mining Software for Genomics, Proteomics and Expression Data (Part 1) Data Mining Software for Genomics, Proteomics and Expression Data (Part 2) High-throughput (HT) sequencing, microarray screening and protein expression profiling technologies drive discovery efforts in today's genomics and proteomics laboratories. These tools allow researchers to generate massive amounts of data, at a rate orders of magnitude greater than scientists ever anticipated. Initiatives to sequence entire genom
Yeast Proteomics Milestone
Aileen Constans | Dec 14, 2003 | 4 min read
Courtesy of Won-Ki Huh  LOCAL COLOR: Researchers used librar-ies of tagged proteins to determine where those proteins accumulate, and to what levels. Shown are representative localization (top) and co-localization (bottom) data. Researchers from the University of California, San Francisco, have probed the yeast proteome in the highest level of detail to date. Using sets of fusion-tagged proteins, the scientists, led by Howard Hughes Medical Institute investigators Erin O'Shea and Jonatha
Pushing Proteomics
Jim Kling | Apr 14, 2002 | 4 min read
Genomics is slowly but surely moving off center stage, replaced by proteomics. Though proteomics is a young field that hasn't fully found its stride, two new developments provide glimpses of the future. At the end of February, attendees of the Cambridge Healthtech Institute (CHI) Genome Tri-Conference 2002 in Santa Clara, Calif., got their first glimpse of the Protein Atlas of the Human Genome™. Developed by Abingdon, UK-based Confirmant Ltd.—a joint venture of Abingdon, UK-based Ox
Diagnosing Cancer: A Genomics and Proteomics Approach
Tom Hollon | Sep 21, 2003 | 7 min read
In 1996, Jeff Trent and colleagues published the first paper describing DNA microarrays as tools for pinpointing gene variants underlying various tumor properties.1 Now, as president and scientific director of Translational Genomics Research Institute (TGEN), in Phoenix, Trent is using microarrays to look for gene expression patterns that can be applied to developing diagnostics. The role of microarrays, Trent says, "will be on the discovery side. Testing all 30,000 genes against a diagnosti
Tagged for Cleansing
Michele Pagano | Jun 1, 2009 | 10+ min read
Tagged for Cleansing Not just the cell's trash and recycling center, the ubiquitin system controls complex cellular pathways with elegant simplicity and precision. By Michele Pagano have always gravitated toward order. I may even take it a bit too far according to friends who liken my office to a museum. However, I like to think it not a compulsion, but a Feng Shui approach to life. With this need for order, I may have been better suited to
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.
Yeast Pushes the Proteomic Envelope
Mignon Fogarty | Jul 27, 2003 | 7 min read
 NETWORKED: (A) Effects of the gal4D+gal perturbation are superimposed on a gene interaction network… Click for larger version (92K) Large-scale biology once conjured images of brute-force genetic screens resulting in collections of mutants. More recently, it has meant genome sequencing on unprecedented scales. But today, as this issue's Hot Papers demonstrate, the leading edge in large-scale biology is proteomics. As in the large-scale efforts of the past, researchers rely on simp

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