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tag bees developmental biology neuroscience culture

Into the Limelight
Kate Yandell | Oct 1, 2015 | 8 min read
Glial cells were once considered neurons’ supporting actors, but new methods and model organisms are revealing their true importance in brain function.
Top 10 Innovations 2021
2021 Top 10 Innovations
The Scientist | Dec 1, 2021 | 10+ min read
The COVID-19 pandemic is still with us. Biomedical innovation has rallied to address that pressing concern while continuing to tackle broader research challenges.
Cutting Neurons Down To Size
Douglas Steinberg | Nov 2, 2003 | 10+ min read
© Mehau Kulyk/Photo Researchers, Inc. A typical neuron's axons and dendrites, when loaded with dye and magnified, resemble long, untended tresses on an extremely bad hair day. They extend wildly, usually to one side, and then bend at weird angles as their ends split into branches and sub-branches. This neuronal coiffure must appear even more chaotic before the nervous system has undergone the developmental equivalent of a crew cut crossed with a topiary trimming. From the late embryonic
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.
The Neurobiology of Rehabilitation
Ricki Lewis | Jun 29, 2003 | 10+ min read
Courtesy of Eric D. Laywell SPHERES OF PROMISE These neurospheres, clusters of cells in culture derived from the CNS of mice, are stained with antibodies against a neuronal protein (red), and a astrocyte protein (green). They have a nuclear counterstain (blue). The brain and spinal cord were once considered mitotic dead ends, a division of neurons dwindling with toddlerhood, with memory and learning the consequence of synaptic plasticity, not new neurons. But the discovery of neural stem
The Genetics of Society
Claire Asher and Seirian Sumner | Jan 1, 2015 | 10 min read
Researchers aim to unravel the molecular mechanisms by which a single genotype gives rise to diverse castes in eusocial organisms.
A Paradigm Shift in Stem Cell Research?
Ricki Lewis | Mar 5, 2000 | 9 min read
Photo: E.D. Laywell, UT MemphisMultipotent clones of cells derived from the adult human brain With the promises and challenges of stem cell research in the headlines, visions of artificial livers dance in the public's eye. Bioethicists, politicians, and citizens alike continue to debate whether public funds should be used to obtain cells from human embryos and fetuses. On the scientific front, however, the implications of stem cell research are even more profound than offering replacement parts.
Forthcoming Books
The Scientist Staff | Nov 1, 1987 | 4 min read
ARCHAEOLOGY The Birth of Prehistoric Chronology: Dating Methods and Dating Systems In Nineteenth Century Scandinavian Archaeology. Bo Graslund. Cambridge University Press November, 150 pp, $39.50. Traces the origin and subsequent development of dating systems, examining how these systems grew and were improved and refined. BIOCHEMISTRY Biochemistry of Metabolism: Volume 11. David D. Davies, ed. Academic Press: November, 388 pp, $85. Discusses the metabolism of plants, emphasizing the b
Huntington Disease Pathology Unfolds
Ricki Lewis | May 18, 2003 | 7 min read
Courtesy: Larry Marsh and Judit Pallos  IN A FLY'S EYE: The regular repeating structure of the Drosophila melanogaster compound eye is disrupted when polyglutamine (polyQ 108) is expressed, making the fly eye an excellent model for huntingtin-derived pathology. Dissecting the mechanism of neuronal demise in Huntington disease (HD) has had its share of twists and turns. It took a decade to go from marker1 to gene,2 and now, after another decade, the details are beginning to come together.

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