The remarkable phenomenon of magnetoreception in migratory birds and other organisms has fascinated biologists for decades. Much evidence has accumulated to suggest that birds sense the magnetic field of the Earth using photochemical transformations in cryptochrome flavoproteins. In the last 5 years this highly interdisciplinary field has seen advances in structural biology, biophysics, spin chemistry, and genetic studies in model organisms. We review these developments and consider how this chemical signal can be integrated into the cellular response. © 2013 Elsevier Ltd
The avian magnetic compass has been well characterized in behavioral tests: it is an "inclination co...
Cryptochromes (Cry) have been suggested to form the basis of light-dependent magnetic compass orient...
Cryptochromes (Cry) have been suggested to form the basis of light-dependent magnetic compass orient...
The remarkable phenomenon of magnetoreception in migratory birds and other organisms has fascinated ...
The remarkable phenomenon of magnetoreception in migratory birds and other organisms has fascinated ...
Animal magnetoreception is the phenomenon by which some night-migratory birds can make seasonal migr...
One of the major challenges in the field of sensory biology is to understand the process by which mi...
Cryptochromes have been suggested to be the primary magnetoreceptor molecules underlying light-depen...
Birds can use the geomagnetic field for compass orientation. Behavioral experiments, mostly with mig...
Cryptochromes have been suggested to be the primary magnetoreceptor molecules underlying light-depen...
While migratory birds have long been known to use the Earth's magnetic field for navigation, the pre...
AbstractA large variety of animals has the ability to sense the geomagnetic field and utilize it as ...
Cryptochromes have been suggested to be the primary magnetoreceptor molecules underlying light-depen...
International audienceThe radical pair model proposes that the avian magnetic compass is based on ra...
Cryptochromes (Cry) have been suggested to form the basis of light-dependent magnetic compass orient...
The avian magnetic compass has been well characterized in behavioral tests: it is an "inclination co...
Cryptochromes (Cry) have been suggested to form the basis of light-dependent magnetic compass orient...
Cryptochromes (Cry) have been suggested to form the basis of light-dependent magnetic compass orient...
The remarkable phenomenon of magnetoreception in migratory birds and other organisms has fascinated ...
The remarkable phenomenon of magnetoreception in migratory birds and other organisms has fascinated ...
Animal magnetoreception is the phenomenon by which some night-migratory birds can make seasonal migr...
One of the major challenges in the field of sensory biology is to understand the process by which mi...
Cryptochromes have been suggested to be the primary magnetoreceptor molecules underlying light-depen...
Birds can use the geomagnetic field for compass orientation. Behavioral experiments, mostly with mig...
Cryptochromes have been suggested to be the primary magnetoreceptor molecules underlying light-depen...
While migratory birds have long been known to use the Earth's magnetic field for navigation, the pre...
AbstractA large variety of animals has the ability to sense the geomagnetic field and utilize it as ...
Cryptochromes have been suggested to be the primary magnetoreceptor molecules underlying light-depen...
International audienceThe radical pair model proposes that the avian magnetic compass is based on ra...
Cryptochromes (Cry) have been suggested to form the basis of light-dependent magnetic compass orient...
The avian magnetic compass has been well characterized in behavioral tests: it is an "inclination co...
Cryptochromes (Cry) have been suggested to form the basis of light-dependent magnetic compass orient...
Cryptochromes (Cry) have been suggested to form the basis of light-dependent magnetic compass orient...