AbstractPurinergic transmission has been found to play a key role in the neural control of rhythmic swimming behaviour in Xenopus embryos; it may have similar importance in other vertebrate motor behaviours
1. In Xenopus embryos, the frequency of natural and fictive swimming usually drops slowly as swimmin...
The impact of activity in Xenopus embryonic and larval development was studied with regards to the l...
Electrical coupling is important in rhythm generating systems. We examine its role in circuits contr...
AbstractPurinergic transmission has been found to play a key role in the neural control of rhythmic ...
The purines, ATP and adenosine, control the rundown and termination of swimming in the Xenopus embry...
The purines, ATP and adenosine, control the rundown and termination of swimming in the Xenopus embry...
In this article we review our research on the development and intrinsic neuromodulation of a spinal ...
This work was supported by the Biotechnology and Biological Science Research Council (BBSRC) [grant ...
Neuroscience labs benefit from reliable, easily - monitored neural responses mediated by well - stud...
Rhythmic locomotion in Xenopus laevis embryos is controlled by a central pattern generator in the sp...
Components of purinergic signalling are expressed in the early embryo raising the possibility that ...
We have investigated the pharmacological properties and targets of ply purinoceptors in Xenopus embr...
Persistent sodium currents (INaP) are common in neuronal circuitries and have been implicated in sev...
1. The role of the catecholamine noradrenaline (NA) was examined during fictive swimming in Xenopus ...
In larvae of the amphibian, Xenopus laevis, spinal neurons which are active during fictive swimming ...
1. In Xenopus embryos, the frequency of natural and fictive swimming usually drops slowly as swimmin...
The impact of activity in Xenopus embryonic and larval development was studied with regards to the l...
Electrical coupling is important in rhythm generating systems. We examine its role in circuits contr...
AbstractPurinergic transmission has been found to play a key role in the neural control of rhythmic ...
The purines, ATP and adenosine, control the rundown and termination of swimming in the Xenopus embry...
The purines, ATP and adenosine, control the rundown and termination of swimming in the Xenopus embry...
In this article we review our research on the development and intrinsic neuromodulation of a spinal ...
This work was supported by the Biotechnology and Biological Science Research Council (BBSRC) [grant ...
Neuroscience labs benefit from reliable, easily - monitored neural responses mediated by well - stud...
Rhythmic locomotion in Xenopus laevis embryos is controlled by a central pattern generator in the sp...
Components of purinergic signalling are expressed in the early embryo raising the possibility that ...
We have investigated the pharmacological properties and targets of ply purinoceptors in Xenopus embr...
Persistent sodium currents (INaP) are common in neuronal circuitries and have been implicated in sev...
1. The role of the catecholamine noradrenaline (NA) was examined during fictive swimming in Xenopus ...
In larvae of the amphibian, Xenopus laevis, spinal neurons which are active during fictive swimming ...
1. In Xenopus embryos, the frequency of natural and fictive swimming usually drops slowly as swimmin...
The impact of activity in Xenopus embryonic and larval development was studied with regards to the l...
Electrical coupling is important in rhythm generating systems. We examine its role in circuits contr...
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