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Literature DB >> 21782158

The beginning of intracellular recording in spinal neurons: facts, reflections, and speculations.

Abstract

Intracellular (IC) recording of action potentials in neurons of the vertebrate central nervous system (CNS) was first reported by John Eccles and two colleagues, Walter Brock and John Coombs, in Dunedin, NZL in 1951/1952 and by Walter Woodbury and Harry Patton in Seattle, WA, USA in 1952. Both groups studied spinal cord neurons of the adult cat. In this review, we discuss the precedents to their notable achievement and reflect and speculate on some of the scientific and personal nuances of their work and its immediate and later impact. We then briefly discuss early achievements in IC recording in the study of CNS neurobiology in other laboratories around the world, and some of the methods that led to enhancement of CNS IC-recording techniques. Our modern understanding of CNS neurophysiology directly emanates from the pioneering endeavors of the five who wrote the seminal 1951/1952 articles. 2011 Elsevier B.V. All rights reserved.

Mesh：

Year: 2011 PMID： 21782158 PMCID： PMC5061568 DOI： 10.1016/j.brainres.2011.06.007

Source DB: PubMed Journal: Brain Res ISSN： 0006-8993 Impact factor: 3.252

199 in total

1. The depression of spinal neurones by gamma-amino-n-butyric acid and beta-alanine.

Authors: D R CURTIS; J W PHILLIS; J C WATKINS
Journal: J Physiol Date: 1959-04-23 Impact factor: 5.182

2. A direct comparison of whole cell patch and sharp electrodes by simultaneous recording from single spinal neurons in frog tadpoles.

Authors: W-C Li; S R Soffe; Alan Roberts
Journal: J Neurophysiol Date: 2004-03-03 Impact factor: 2.714

The beginning of intracellular recording in spinal neurons: facts, reflections, and speculations.

1. The depression of spinal neurones by gamma-amino-n-butyric acid and beta-alanine.

2. A direct comparison of whole cell patch and sharp electrodes by simultaneous recording from single spinal neurons in frog tadpoles.

3. The academic lineage of Sir John Carew Eccles (1903-1997).

4. Membrane potentials in single fibres of the frog's sartorius muscle.

5. Electrical characteristics of Sepia axons.

6. Currents carried by sodium and potassium ions through the membrane of the giant axon of Loligo.

7. Single-channel currents underlying glycinergic inhibitory postsynaptic responses in spinal neurons.

8. Paths of discovery in motoneuron neurobiology.

9. A thin slice preparation for patch clamp recordings from neurones of the mammalian central nervous system.

10. Monosynaptic spike discharges initiated by dorsal root activation of spinal motoneurones in the frog.

Review 1. Central pattern generators in the turtle spinal cord: selection among the forms of motor behaviors.

2. The Cellular Basis for the Generation of Firing Patterns in Human Motor Units.

3. Robust and accurate decoding of motoneuron behaviour and prediction of the resulting force output.

4. Intrinsic excitability differs between murine hypoglossal and spinal motoneurons.

5. The glass micropipette electrode: A history of its inventors and users to 1950.