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tag serine threonine kinase culture ecology neuroscience

Phospho-Mania
Aileen Constans | Nov 7, 2004 | 6 min read
ERK1/2 ACTIVATIONCourtesy of Biosource Internationalis plainly visible in heart tissue from an MHC-Rac1 transgenic mouse (right), compared with its normal counterpart (left). Green, pERK 1/2 (pTEpY185/187); blue, actin; red, nuclei.Protein phosphorylation is one of the most widely studied posttranslational modifications, with good reason. Many cellular signaling events rely on the addition or subtraction of phosphate groups (by kinases and phosphatases, respectively) to serine, threonine, and ty
Survival Factors and Apoptosis
Tom Hollon | Apr 1, 2001 | 3 min read
For this article, Tom Hollon interviewed Anne Brunet, a postdoctoral fellow in the division of neurosciences, Children's Hospital, Harvard Medical School. Data from the Web of Science (ISI, Philadelphia) show that Hot Papers are cited 50 to 100 times more often than the average paper of the same type and age. A. Brunet, A. Bonni, M.J. Zigmond, M.Z. Lin, P. Juo, L.S. Hu, M.J. Anderson, K.C. Arden, J. Blenis, M.E. Greenberg, "Akt promotes cell survival by phosphorylating and inhibiting a forkhea
Illuminating Behaviors
Douglas Steinberg | Jun 1, 2003 | 6 min read
Courtesy of Genevieve Anderson If not for Nobel laureates Thomas Hunt Morgan, Eric R. Kandel, and Sydney Brenner, the notion of a general behavioral model might seem odd. Behaviors, after all, are determined by an animal's evolutionary history and ecological niche. They are often idiosyncratic, shared in detail only by closely related species. But, thanks to Morgan's research in the early 20th century, and Kandel's and Brenner's work over the past 35 years, the fly Drosophila melanogaster, t
The Proteasome: A Powerful Target for Manipulating Protein Levels
John Hines and Craig M. Crews | May 1, 2017 | 10+ min read
The proteasome’s ability to target and degrade specific proteins is proving useful to researchers studying protein function or developing treatments for diseases.
Biologically Active Peptides: Who Makes Them and Who Sells Them?
Paul Diehl | Sep 13, 1998 | 10+ min read
Date: September 14, 1998 Catalog Peptide Providers Table In the last 20 years or so, numerous peptides with a diverse array of biological activities have been identified. In the same time period, the advent of automated peptide synthesis has made these reagents cheap and easy to produce in large quantities. These developments have created a new class of research reagents, known as biologically active peptides. Many biologically active peptides occur naturally; however, many others have been de
Assays by the Score
Deborah Fitzgerald | May 27, 2001 | 9 min read
Click to view the PDF file: Bead-based Fluorescent Multiplex Protein Analysis Systems Courtesy of LINCO ResearchLabMAP-based systems use internally dyed fluorescent microspheres to analyze as many as 100 different analytes concurrently. Today's competitive, high-paced research environment has stimulated the development of a host of approaches for rapid, cost-efficient analyses of large numbers of samples. In keeping with this trend, methods for simultaneously analyzing multiple species in a g
A Master Regulator in the Brain
Per Svenningsson and Paul Greengard | Oct 1, 2006 | 10+ min read
How a single protein was found to link schizophrenia and depression to drugs of abuse and addiction. 
Arabidopsis Genome
Barry Palevitz | Jan 7, 2001 | 8 min read
Courtesy National Science Foundation Headlines on the morning of December 14, 2000, trumpeted the end of a presidential election that promised to go on forever. But if California Institute of Technology molecular biologist Elliot Meyerowitz had his way, the front page would have read differently: "Plant Genome Sequenced" at the top, then, lower down, "Election Decided - See Page 2." In a tour de force that capped a year of genome blockbusters, European, Japanese, and American scientists complet

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