Add to ORKGNeural activity depends on the kinetic properties of ion channels expressed in neurons. Small changes in these properties can dramatically affect synaptic integration, membrane excitability and circuit function. Like all bio-chemical processes, the kinetics of ion channels have an exponential temperature dependence and the exponent (the ‘Q10’) differs several-fold between ion channel types within species [1-3]. In warm-blooded animals such as mammals, deviations in temperature of only a few degrees Celsius can thus disrupt neural activity and lead to loss of consciousness or death. However, cold blooded animals, including all invertebrates, manage to survive and function despite temperature fluctuations of tens of degrees Celsius [1]. How i...
Cold-sensitive nerve terminals (CSNTs) encode steady temperatures with regular, rhythmic temperature...
Internal human body normal temperature fluctuates between 36.5 and 37.5°C and it is generally measur...
In this presentation, we discuss the results of computer simulations mimicking the effects of recipr...
Many species of cold-blooded animals experience substantial and rapid fluctuations in body temperatu...
Neurons in cold-blooded animals remarkably maintain their function over a wide range of temperatures...
Changes in the temperature of neuronal tissue influence electrical activity in non-trivial ways [1]....
Temperature-robust timing of action potentials is essential for neuronal communication and a prerequ...
Stable rhythmic neural activity depends on the well-coordinated interplay of synaptic and cell-intri...
Neurons in poikilotherms must operate over the animal's natural temperature range if they are to sur...
Action potentials are a key component of neuronal communication and their precise timing is critical...
Stable rhythmic neural activity depends on the well-coordinated interplay of synaptic and cell-intri...
Neurostimulation has emerged as an effective means of treating a wide range of neurological disorder...
Here we examine a class of neurons that have been recently explored, the somatosensory neuronal subc...
AbstractInformation processing in the brain results from the spread and interaction of electrical an...
Living organisms are subject to daily fluctuations in temperature. Given that these changes are ofte...
Cold-sensitive nerve terminals (CSNTs) encode steady temperatures with regular, rhythmic temperature...
Internal human body normal temperature fluctuates between 36.5 and 37.5°C and it is generally measur...
In this presentation, we discuss the results of computer simulations mimicking the effects of recipr...
Many species of cold-blooded animals experience substantial and rapid fluctuations in body temperatu...
Neurons in cold-blooded animals remarkably maintain their function over a wide range of temperatures...
Changes in the temperature of neuronal tissue influence electrical activity in non-trivial ways [1]....
Temperature-robust timing of action potentials is essential for neuronal communication and a prerequ...
Stable rhythmic neural activity depends on the well-coordinated interplay of synaptic and cell-intri...
Neurons in poikilotherms must operate over the animal's natural temperature range if they are to sur...
Action potentials are a key component of neuronal communication and their precise timing is critical...
Stable rhythmic neural activity depends on the well-coordinated interplay of synaptic and cell-intri...
Neurostimulation has emerged as an effective means of treating a wide range of neurological disorder...
Here we examine a class of neurons that have been recently explored, the somatosensory neuronal subc...
AbstractInformation processing in the brain results from the spread and interaction of electrical an...
Living organisms are subject to daily fluctuations in temperature. Given that these changes are ofte...
Cold-sensitive nerve terminals (CSNTs) encode steady temperatures with regular, rhythmic temperature...
Internal human body normal temperature fluctuates between 36.5 and 37.5°C and it is generally measur...
In this presentation, we discuss the results of computer simulations mimicking the effects of recipr...