Kir4.1-mediated spatial buffering of K+: Experimental challenges in determination of its temporal and quantitative contribution to K+ clearance in the brain
BR Larsen, N MacAulay - Channels, 2014 - Taylor & Francis
Neuronal activity results in release of K+ into the extracellular space of the central nervous
system. If the excess K+ is allowed to accumulate, neuronal firing will be compromised by …
system. If the excess K+ is allowed to accumulate, neuronal firing will be compromised by …
[HTML][HTML] Kir4. 1-mediated spatial buffering of K+: Experimental challenges in determination of its temporal and quantitative contribution to K+ clearance in the brain
BR Larsen, N MacAulay - Channels, 2014 - ncbi.nlm.nih.gov
Neuronal activity results in release of K+ into the extracellular space of the central nervous
system. If the excess K+ is allowed to accumulate, neuronal firing will be compromised by …
system. If the excess K+ is allowed to accumulate, neuronal firing will be compromised by …
[引用][C] Kir4.1-mediated spatial buffering of K+: Experimental challenges in determination of its temporal and quantitative contribution to K+clearance in the brain
BR Larsen, N MacAulay - Channels, 2014 - cir.nii.ac.jp
Kir4.1-mediated spatial buffering of K<sup>+</sup>: Experimental challenges in determination
of its temporal and quantitative contribution to K<sup>+</sup>clearance in the brain | CiNii …
of its temporal and quantitative contribution to K<sup>+</sup>clearance in the brain | CiNii …
Kir4. 1-mediated spatial buffering of K (+): experimental challenges in determination of its temporal and quantitative contribution to K (+) clearance in the brain
BR Larsen, N MacAulay - Channels (Austin, Tex.), 2014 - pubmed.ncbi.nlm.nih.gov
Neuronal activity results in release of K (+) into the extracellular space of the central nervous
system. If the excess K (+) is allowed to accumulate, neuronal firing will be compromised by …
system. If the excess K (+) is allowed to accumulate, neuronal firing will be compromised by …
Kir4. 1-mediated spatial buffering of K (+): experimental challenges in determination of its temporal and quantitative contribution to K (+) clearance in the brain.
BR Larsen, N MacAulay - Channels (Austin, Tex.), 2014 - europepmc.org
Neuronal activity results in release of K+ into the extracellular space of the central nervous
system. If the excess K+ is allowed to accumulate, neuronal firing will be compromised by …
system. If the excess K+ is allowed to accumulate, neuronal firing will be compromised by …
[PDF][PDF] Kir4. 1-mediated spatial buffering of Kc: Experimental challenges in determination of its temporal and quantitative contribution to Kc clearance in the brain
BR Larsen, N MacAulay - Channels, 2014 - researchgate.net
Nearly 60 years ago Frankenhaeuser and Hodgkin demonstrated that action potentials in
the squid giant axon caused a significant release of Kc into the surrounding fluid. 1 At the …
the squid giant axon caused a significant release of Kc into the surrounding fluid. 1 At the …
Kir4. 1-mediated spatial buffering of K (+): experimental challenges in determination of its temporal and quantitative contribution to K (+) clearance in the brain.
BR Larsen, N MacAulay - Channels (Austin, Tex.), 2014 - europepmc.org
Neuronal activity results in release of K+ into the extracellular space of the central nervous
system. If the excess K+ is allowed to accumulate, neuronal firing will be compromised by …
system. If the excess K+ is allowed to accumulate, neuronal firing will be compromised by …
[PDF][PDF] Kir4. 1-mediated spatial buffering of Kc: Experimental challenges in determination of its temporal and quantitative contribution to Kc clearance in the brain
BR Larsen, N MacAulay - Channels, 2014 - researchgate.net
Nearly 60 years ago Frankenhaeuser and Hodgkin demonstrated that action potentials in
the squid giant axon caused a significant release of Kc into the surrounding fluid. 1 At the …
the squid giant axon caused a significant release of Kc into the surrounding fluid. 1 At the …