Add to ORKGPublicación ISIEvidence from several areas of neuroscience has led to the notion that copper and zinc could be modulators of neuronal excitability. In order to contribute to test this idea, we characterized the changes induced by these divalent metal ions on the extracellularly recorded action potential firing rates of undissociated olfactory epithelium neurons. Our main finding is that at low concentrations, 1-100 nM for Cu2+ and 1-50 mu M for Zn2+, they induced a concentration dependent increase in the neuronal firing rate. In contrast, at higher concentrations, 1-5 mu M for Cu2+ and 100-500 mu M for Zn2+, they decreased the firing rate. Based on these and previous results of our laboratory we propose that the biphasic effect of Cu2+ and ...
SummaryDecades after the discovery that ionic zinc is present at high levels in glutamatergic synapt...
Zinc is present in high concentration in many structures of the limbic circuitry, however the role o...
It has recently been shown that adenosine 5'-triphosphate (ATP) can act as a fast excitatory transmi...
Based on indirect evidence, a role for synaptically released copper and zinc as modulators of neuron...
As well as being key structural components of many proteins, increasing evidence suggests that zinc ...
1. Whole-cell voltage clamp recordings were used to study the action of the transition ion zinc on t...
1. Whole-cell voltage clamp recordings were used to study the action of the transition ion zinc on t...
The “trace ” elements copper and zinc are essential for life, and their role in the function of meta...
The "trace" elements copper and zinc are essential for life, and their role in the function of metal...
Zinc is one of the most abundant divalent metal ion in the central nervous system, where it serves a...
Artículo de publicación ISICopper plays a key role in aerobic cell physiology mainly related to mit...
Many excitatory synapses contain high levels of mobile zinc within glutamatergic vesicles. Although ...
Zinc metal nanoparticles in picomolar concentrations strongly enhance odorant responses of olfactory...
Zinc is a trace element with a multitude of roles in biological systems including structural and cof...
Artículo de publicación ISICopper, an ion with many important metabolic functions, has also been pro...
SummaryDecades after the discovery that ionic zinc is present at high levels in glutamatergic synapt...
Zinc is present in high concentration in many structures of the limbic circuitry, however the role o...
It has recently been shown that adenosine 5'-triphosphate (ATP) can act as a fast excitatory transmi...
Based on indirect evidence, a role for synaptically released copper and zinc as modulators of neuron...
As well as being key structural components of many proteins, increasing evidence suggests that zinc ...
1. Whole-cell voltage clamp recordings were used to study the action of the transition ion zinc on t...
1. Whole-cell voltage clamp recordings were used to study the action of the transition ion zinc on t...
The “trace ” elements copper and zinc are essential for life, and their role in the function of meta...
The "trace" elements copper and zinc are essential for life, and their role in the function of metal...
Zinc is one of the most abundant divalent metal ion in the central nervous system, where it serves a...
Artículo de publicación ISICopper plays a key role in aerobic cell physiology mainly related to mit...
Many excitatory synapses contain high levels of mobile zinc within glutamatergic vesicles. Although ...
Zinc metal nanoparticles in picomolar concentrations strongly enhance odorant responses of olfactory...
Zinc is a trace element with a multitude of roles in biological systems including structural and cof...
Artículo de publicación ISICopper, an ion with many important metabolic functions, has also been pro...
SummaryDecades after the discovery that ionic zinc is present at high levels in glutamatergic synapt...
Zinc is present in high concentration in many structures of the limbic circuitry, however the role o...
It has recently been shown that adenosine 5'-triphosphate (ATP) can act as a fast excitatory transmi...