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tag gene networks culture

The Network Within
Melissa Lee Philips | Jul 1, 2006 | 7 min read
Ilya Shmulevich brings creative computation to deciphering gene regulation
A rendering of a human brain in blue on a dark background with blue and white lines surrounding the brain to represent the construction of new connections in the brain.
Defying Dogma: Decentralized Translation in Neurons
Danielle Gerhard, PhD | Sep 8, 2023 | 10+ min read
To understand how memories are formed and maintained, neuroscientists travel far beyond the cell body in search of answers.
lab tools
Mapping the Cellular Social Network of Proteins
Melissae Fellet | Feb 1, 2019 | 7 min read
Three techniques capture data on numerous protein interactions in plants, mice, and human cells.
SYNGAP1 helps neurons eliminate old synapses and form new ones after a novel experience (left and center left)—a process weakened in mice missing a copy of the gene (center right and right).
Autism-Linked Gene SYNGAP1 Molds Synaptic Plasticity, Learning
Angie Voyles Askham, Spectrum | Oct 26, 2021 | 4 min read
The finding may help to explain why people with SYNGAP1 mutations tend to have learning difficulties and a high tolerance for pain.
translation gene genetics ribosome enhancers knowable magazine
What Does It Look Like to “Turn On” a Gene?
Alla Katsnelson, Casey Rentz, and Knowable Magazine | May 3, 2019 | 8 min read
Only recently have scientists directly witnessed this most pivotal of events in biology, thanks to new technology that allows them to observe the process in living cells. It’s teaching them a lot.
DNA, RNA Probes Help Investigators Narrow The Search For Genes
Holly Ahern | Nov 26, 1995 | 10+ min read
For Genes Author: Holly Ahern For a geneticist, pinpointing a mutation in a human gene that might be responsible for an inherited disease can be likened to the proverbial search for a needle in a haystack. While mo-lecular biologists sift through the 3 billion base pairs in the human genome in search of disease-causing genes, other scientists choose to approach the problem from the perspective of the mouse, a model system for mammal research. Because mice and humans are members of the same gr
Cancer's Other Conduit
The Scientist Staff | Sep 7, 2003 | 7 min read
Courtesy of Elsevier  DEADLY SPREAD: A: an insulinoma (Ins) in a Rip1Tag2 transgenic mouse. LYVE-1 immunohistochemistry demonstrates the presence of lymphatic vessels in connective tissue, but not near islets of Langerhans. B: Rip1Tag2 mice were crossed with mice which overexpress VEGF-C in pancreatic b-cells. C: An insulinoma cell breaks through a lymphatic vessel. D: An intralymphatic tumor cell mass forms. E: In a lymph node, lymphocytes (L) are surrounded by tumor cells (T). F: Immunof
2020 Top 10 Innovations
The Scientist | Dec 1, 2020 | 10+ min read
From a rapid molecular test for COVID-19 to tools that can characterize the antibodies produced in the plasma of patients recovering from the disease, this year’s winners reflect the research community’s shared focus in a challenging year.
How Interconnected Is Life in the Ocean?
Catherine Offord | Nov 1, 2019 | 10+ min read
To help create better conservation and management plans, researchers are measuring how marine organisms move between habitats and populations.
From Parts List to Architecture
Ricki Lewis | Aug 29, 2004 | 6 min read
FLAP ABOUT OVERLAP:Courtesy of the University of Wisconsin, MadisonHuman embryonic stem cells, pictured here, probably share some expressed genes with neural and hematopoietic stem cells, but perhapsnot to the extent that was first anticipated, based on studies with mouse cells.Perhaps a picture is worth a thousand back Science words. Venn diagrams in back-to-papers from 2002 feature three intersecting circles representing gene-expression profiles shared among murine hematopoietic stem cells (HS

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