MedicineWorld.Org
Your gateway to the world of medicine
Home
News
Cancer News
About Us
Cancer
Health Professionals
Patients and public
Contact Us
Disclaimer

Medicineworld.org: Avoiding hitting the snooze button

Back to neurology news Blogs list Cancer blog  


Subscribe To Neurology News RSS Feed  RSS content feed What is RSS feed?

Avoiding hitting the snooze button




Researchers from Queen Mary, University of London have discovered a new part of the mechanism which allows our bodyclocks to reset themselves on a molecular level.

Circadian clocks regulate the daily fluctuations of a number of physiological and behavioural aspects in life, and are synchronised with our surrounding environment via light or temperature cycles. Natural changes in the length of the day mean that an animal's circadian clock often has to reset itself on a molecular level, to avoid getting out of sync with the changing calendar.



Avoiding hitting the snooze button

Professor Ralf Stanewsky and his team from Queen Mary's School of Biological and Chemical Sciences study the circadian clocks of Drosophila, a type of fruit fly. Writing in the journal Current Biology, they report that the resetting process is governed by three factors, called Cryptochrome, Jetlag and Timeless.

The team's findings suggest that the light responses of circadian clocks are fine tuned on a molecular, by small differences in the binding affinities of clock proteins.

Professor Stanewsky explains: "A circadian photoreceptor called Cry is activated by light in the blue spectrum. Once active, Cry then becomes able to bind to a protein called Jetlag. The Jetlag protein then helps to destroy another protein called Timeless, which is used to reset the bodyclock.

"Crucially though, we observed that Jetlag also helps to destroy the original photoreceptor Cry itself. This allows the Timeless protein to reaccumulate during the next day, making sure that the clock mechanism continues to tick."


Posted by: Daniel    Source




Did you know?
Researchers from Queen Mary, University of London have discovered a new part of the mechanism which allows our bodyclocks to reset themselves on a molecular level. Circadian clocks regulate the daily fluctuations of a number of physiological and behavioural aspects in life, and are synchronised with our surrounding environment via light or temperature cycles. Natural changes in the length of the day mean that an animal's circadian clock often has to reset itself on a molecular level, to avoid getting out of sync with the changing calendar.

Medicineworld.org: Avoiding hitting the snooze button

Acute bacterial meningitis| Alzheimer's disease| Carpal tunnel syndrome| Cerebral aneurysms| Cerebral palsy| Chronic fatigue syndrome| Cluster headache| Dementia| Epilepsy seizure disorders| Febrile seizures| Guillain barre syndrome| Head injury| Hydrocephalus| Neurology| Insomnia| Low backache| Mental retardation| Migraine headaches| Multiple sclerosis| Myasthenia gravis| Neurological manifestations of aids| Parkinsonism parkinson's disease| Personality disorders| Sleep disorders insomnia| Syncope| Trigeminal neuralgia| Vertigo|

Copyright statement
The contents of this web page are protected. Legal action may follow for reproduction of materials without permission.