AbstractOscillations in intracellular calcium levels control a plethora of physiological processes, but how they are decoded by a cell remains unclear. In a recent study, advances in FRET technology have been used to describe how calcium oscillations are decoded through phase-locked oscillations in substrate phosphorylation catalysed by protein kinase C
Calcium is an important second messenger for cellular communication. Theoretical models help scienti...
AbstractThe specificity of many signal transduction pathways relies on the temporal coordination of ...
Calcium (Ca2+) is an almost universal intracellular messenger, controlling a diverse range of cellul...
It is widely believed that oscillations in the concentration of cytoplasmic free Ca 2+ in the cell a...
Cellular signalling mechanisms are designed to transmit information from the cell surface to specifi...
AbstractExperimental studies have demonstrated that Ca2+-regulated proteins are sensitive to the fre...
Cellular signaling mechanisms are designed to transmit information from the cell surface to specific...
Cellular signaling mechanisms are designed to transmit information from the cell surface to specific...
Calcium is a universal second messenger that controls many cellular reactions. Considering its pleio...
Hormones and neurotransmitters induce oscillations in the concentration of cytosolic calcium. The am...
About 30 years after their first observation, Ca2+ oscillations are now recognised as a universal me...
Given the ubiquitous nature of signal-induced Ca2+ oscillations, the question arises as to how cellu...
About 30 years after their first observation, Ca2+ oscillations are now recognised as a universal me...
About 30 years after their first observation, Ca2+ oscillations are now recognised as a universal me...
Calcium is an important second messenger for cellular communication. Theoretical models help scienti...
Calcium is an important second messenger for cellular communication. Theoretical models help scienti...
AbstractThe specificity of many signal transduction pathways relies on the temporal coordination of ...
Calcium (Ca2+) is an almost universal intracellular messenger, controlling a diverse range of cellul...
It is widely believed that oscillations in the concentration of cytoplasmic free Ca 2+ in the cell a...
Cellular signalling mechanisms are designed to transmit information from the cell surface to specifi...
AbstractExperimental studies have demonstrated that Ca2+-regulated proteins are sensitive to the fre...
Cellular signaling mechanisms are designed to transmit information from the cell surface to specific...
Cellular signaling mechanisms are designed to transmit information from the cell surface to specific...
Calcium is a universal second messenger that controls many cellular reactions. Considering its pleio...
Hormones and neurotransmitters induce oscillations in the concentration of cytosolic calcium. The am...
About 30 years after their first observation, Ca2+ oscillations are now recognised as a universal me...
Given the ubiquitous nature of signal-induced Ca2+ oscillations, the question arises as to how cellu...
About 30 years after their first observation, Ca2+ oscillations are now recognised as a universal me...
About 30 years after their first observation, Ca2+ oscillations are now recognised as a universal me...
Calcium is an important second messenger for cellular communication. Theoretical models help scienti...
Calcium is an important second messenger for cellular communication. Theoretical models help scienti...
AbstractThe specificity of many signal transduction pathways relies on the temporal coordination of ...
Calcium (Ca2+) is an almost universal intracellular messenger, controlling a diverse range of cellul...
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