How LCD projectors ’switch neurons on-off like light bulbs’ in worms
January 17th, 2011 - 5:27 pm ICT by ANILondon, Jan 17 (ANI): Researchers have developed a novel way to control the brain and muscles of tiny organisms, including freely moving worms, using inexpensive components from ordinary liquid crystal display (LCD) projectors.
Red, green and blue lights from a projector activate light-sensitive microbial proteins that are genetically engineered into the worms, allowing the researchers to switch neurons on and off like light bulbs and turn muscles on and off like engines.
The new study has shed light on how the inexpensive illumination technology allows researchers to stimulate and silence specific neurons and muscles of freely moving worms, while precisely controlling the location, duration, frequency and intensity of the light.
“This illumination instrument significantly enhances our ability to control, alter, observe and investigate how neurons, muscles and circuits ultimately produce behavior in animals,” said Hang Lu, of the Georgia Institute of Technology.
“Because the central component of the illumination system is a commercially available projector, the system’s cost and complexity are dramatically reduced, which we hope will enable wider adoption of this tool by the research community,” explained Lu.
By connecting the illumination system to a microscope and combining it with video tracking, the researchers are able to track and record the behavior of freely moving animals, while maintaining the lighting in the intended anatomical position.
When the animal moves, changes to the light’s location, intensity and color can be updated in less than 40 milliseconds.
Once Lu and her team built the prototype system, they used it to explore the ‘touch’ circuit of the worm Caenorhabditis elegans by exciting and inhibiting its mechano-sensory and locomotion neurons.
The findings were reported in the advance online edition of the journal Nature Methods. (ANI)
- Worm study reveals how brain performs under stress - Apr 19, 2010
- Worms provide insights into human biological clock - Dec 18, 2010
- Worms on ISS mission reproduce in space - Nov 30, 2011
- Pulses of light might one day keep diseased hearts beating - Nov 13, 2010
- Electric field used on worm to test new medicines - Jan 06, 2010
- Worms help study space travel's impact on astronauts - Jun 03, 2011
- Optogenetics used to effectively stimulate muscle movement in mice - Sep 27, 2010
- New on-off 'switch' triggers, reverses paralysis in animals with light beam - Feb 04, 2010
- A faster way to look for drugs that regenerate nerve cells - Oct 12, 2010
- How sex hormones control 'masculinization' of the brain - Apr 29, 2010
- Proteins linked with Alzheimer's clump in normal aging - Aug 11, 2010
- New study brings longer life closer to reality - Dec 02, 2010
- Central switch that controls cell movements discovered - Dec 08, 2010
- Glial brain cells that regulate circadian rhythms identified - Apr 15, 2011
- Single gene acts as 'master organizer' of motor neurons in spinal cord - Sep 09, 2010
Tags: anatomical position, central component, display lcd, elegans, georgia institute of technology, illumination system, illumination technology, inexpensive components, institute of technology, journal nature, lcd projectors, light bulbs, liquid crystal display, london jan, microscope, milliseconds, nature methods, projector, prototype system, tiny organisms