Add to ORKGThe fungus Neurospora crassa is being used by a number of research groups as a model organism to investigate circadian (daily) rhythmicity. In this review we concentrate on recent work relating to the complexity of the circadian system in this organism. We discuss: the advantages of Neurospora as a model system for clock studies; the frequency (frq), white collar-1 and white collar-2 genes and their roles in rhythmicity; the phenomenon of rhythmicity in null frq mutants and its implications for clock mechanisms; the study of output pathways using clock-controlled genes; other rhythms in fungi; mathematical modelling of the Neurospora circadian system; and the application of new technologies to the study of Neurospora rhythmicity. We conclud...
In the not too distant past, it was common belief that rhythms in the physical environment were the ...
Many organisms use circadian clocks to adapt to daily changes in the environment. Major insights int...
The circadian system of Neurospora crassa includes a molecular feedback loop that is entrainable by ...
The fungus Neurospora crassa is being used by a number of research groups as a model organism to inv...
Since reports of daily leaf movements 2000 years ago, a so-called circadian clock (‘circa diem’ mean...
Circadian rhythms are daily oscillations in biological activities that have a periodicity of approxi...
Most living organisms on earth experience daily and expected changes from the rotation of the earth....
Neurospora crassa is the only molecular genetic model system for circadian rhythms research in the f...
Neurospora crassa is the only molecular genetic model system for circadian rhythms research in the f...
Since reports of daily leaf movements 2000 years ago, a so-called circadian clock (‘circa diem’ mean...
Circadian rhythms are visible as daily oscillations in biochemical, physiological, or behavioral pr...
In Neurospora crassa, white collar 1 (WC-1), a transcriptional activator and positive clock element,...
AbstractThe circadian system of Neurospora crassa includes a molecular feedback loop that is entrain...
Circadian clocks consist of three elements: entrainment pathways (inputs), the mechanism generating ...
Many organisms harbor circadian clocks that promote their adaptation to the rhythmic environment. Wh...
In the not too distant past, it was common belief that rhythms in the physical environment were the ...
Many organisms use circadian clocks to adapt to daily changes in the environment. Major insights int...
The circadian system of Neurospora crassa includes a molecular feedback loop that is entrainable by ...
The fungus Neurospora crassa is being used by a number of research groups as a model organism to inv...
Since reports of daily leaf movements 2000 years ago, a so-called circadian clock (‘circa diem’ mean...
Circadian rhythms are daily oscillations in biological activities that have a periodicity of approxi...
Most living organisms on earth experience daily and expected changes from the rotation of the earth....
Neurospora crassa is the only molecular genetic model system for circadian rhythms research in the f...
Neurospora crassa is the only molecular genetic model system for circadian rhythms research in the f...
Since reports of daily leaf movements 2000 years ago, a so-called circadian clock (‘circa diem’ mean...
Circadian rhythms are visible as daily oscillations in biochemical, physiological, or behavioral pr...
In Neurospora crassa, white collar 1 (WC-1), a transcriptional activator and positive clock element,...
AbstractThe circadian system of Neurospora crassa includes a molecular feedback loop that is entrain...
Circadian clocks consist of three elements: entrainment pathways (inputs), the mechanism generating ...
Many organisms harbor circadian clocks that promote their adaptation to the rhythmic environment. Wh...
In the not too distant past, it was common belief that rhythms in the physical environment were the ...
Many organisms use circadian clocks to adapt to daily changes in the environment. Major insights int...
The circadian system of Neurospora crassa includes a molecular feedback loop that is entrainable by ...