Turn-ons and turn-offs f...( Our brain consists of billions of nerv...)

Turn-ons and turn-offs for neurons

Our brain consists of billions of nerve cells enabling to learn, remember and reason. Every time we think and experience, touch, smell or fear, millions of neurons in our brain becomes active. These nerve cells communicate with each other by chemical and electrical impulses to compute incoming sensory information and integrate it via distinct brain regions. With 20,000 - 25,000 genes in our genome, most also expressed in neurons, there is now little doubt that neurons respond to challenging environments by adjusting the expression of genes for appropriate brain functions. Stress, addiction, learning and disease are all believed to change neuronal gene expression by mechanisms involving gene accessibility without changes in DNA sequences, a process called epigenetics ("above and beyond the gene).

Switching gene expression on and off is of utmost importance when studying gene function in the adult nervous system. In the early 1990s, scientists described a tetracycline-controlled gene expression systems (Tet systems), which allow the regulation of gene expression by externally applied substances. The Tet-regulated gene expression can be used to analyze involvement of genes for example in cognition in the mouse, as was shown in key studies from 1996. But in spite of the published success, others scientists report some difficulties: in some experiments the full reactivation of Tet-regulated genes failed. Mazahir T. Hasan and colleagues at the Max Planck Institute for Medical Research in Heidelberg have therefore systematically examined individual components of the Tet systems and delineated the necessary conditions for reversible control of gene expression in neurons.

In the June 20th issue of the online, open-access journal PLoS ONE, they report that genes which had been inactive in neurons during early mouse development become functionally silenced in the adult brain. Intriguingly, Hasan and colleagues found that gene silencing in the adult brain
'"/>

Contact: Mazahir Hasan
Mazahir.Hasan@mpimf-heidelberg.mpg.de
Public Library of Science
19-Jun-2007

Page: 1 2
Related biology news :

1. UCLA scientists produce functioning neurons from human embryonic stem cells
2. Stem cell therapy rescues motor neurons in ALS model
3. Neurons for numerosity: Parietal neurons sum up individual items in a group
4. Nicotine rush hinges on sugar in neurons
5. Immune antibodies penetrate neurons to clear Alzheimers-linked amyloid
6. Parkinsons protein protects neurons from stress induced cell death
7. Newborn neurons like to hang with the in crowd
8. Role of noise in neurons
9. A traffic light for neurons means go for improving brain research
10. MIT: Pulsing light silences overactive neurons
11. Chemical cues turn embryonic stem cells into cerebellar neurons

Post Your Comments: