neurodudes

Neuron : Dynamics of Parietal Neural Activity during Spatial Cognitive Processing

Here’s John Lisman’s review of this paper (from Georgopoulos’s group)… I don’t think I can say it better than him:

If ever there was a paper that would bring tears to one’s eyes, this is it: a previously hidden mental process has now become subject to experimental study. The mental process is the covert movement of attention, the selective focussing of attention to subregions of the visual field, but without eye movement. The movements of covert attention were hypothesized based on psychophysics, but the authors can now follow it using a vector field derived from a population of neurons in the parietal cortex. The monkey has been trained to use covert attentional shifts to solve a maze task. The major finding is that the vector derived from the population of parietal cells follows in time the path through the maze, as the monkey solves the maze.

From the abstract:

We found that the direction of the followed path could be recovered from neuronal population activity.

Yet another scary but cool result…

Gordon Research Conference on “Sensory coding and the natural environment”

August 27-September 1
Big Sky, Montana

[program | committee | application]

From the Apr 20 issue of Neuron: Integrative Properties of Radial Oblique Dendrites in Hippocampal CA1 Pyramidal Neurons (or, for those who want just the N&V’s summary: Dendritic Enlightenment: Using Patterned Two-Photon Uncaging to Reveal the Secrets of the Brain’s Smallest Dendrites)

The technology is essentially high-speed two photon uncaging of glutamate, but the authors have used it here to create “realistic” patterns of dendritic input in an attempt to see just how dendritic arithmetic works. Although I haven’t read the paper closely, they claim to work out the spatiotemporal parameters underlying dendritic spike generation for pyramidal neurons.

A related methodology paper from a recent J. Neurophys. also uses fast acousto-optic deflectors and two-photon but for imaging purposes. It’s more descriptive about the setup and techniques for those interested in doing this type of work.

Social isolation delays the positive effects of running on adult neurogenesis - Nature Neuroscience

From the Apr 9, Nature Neurosci:

Social isolation delays the positive effects of running on adult neurogenesis
Alexis M Stranahan, David Khalil & Elizabeth Gould

Social isolation can exacerbate the negative consequences of stress and increase the risk of developing psychopathology. However, the influence of living alone on experiences generally considered to be beneficial to the brain, such as physical exercise, remains unknown. We report here that individual housing precludes the positive influence of short-term running on adult neurogenesis in the hippocampus of rats and, in the presence of additional stress, suppresses the generation of new neurons. Individual housing also influenced corticosterone levels—runners in both housing conditions had elevated corticosterone during the active phase, but individually housed runners had higher levels of this hormone in response to stress. Moreover, lowering corticosterone levels converted the influence of short-term running on neurogenesis in individually housed rats from negative to positive. These results suggest that, in the absence of social interaction, a normally beneficial experience can exert a potentially deleterious influence on the brain.

Peoples Archive | homepage

Pretty cool idea. Lots of scientists are on this site with quicktime videos of themselves telling their life stories.

Including Sydney Brenner, Hans Bethe, Gerald Edelman, Freeman Dyson, Ernst Mayr, Benoit Mandelbrot, Francis Crick, and others.