2013
DOI: 10.1002/9780470151808.sc02d15s25
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Revealing Neuronal Circuitry Using Stem Cell‐Derived Neurons

Abstract: Mouse embryonic stem cell (mESC)‐derived neurons are a renewable cell source for investigation of neuronal circuits. Engineering circuit‐tracing components into stem cells facilitates studies on mechanisms of synaptic coupling and circuitogenesis. This unit details methods for the generation of mESC‐derived neurons harboring trans‐synaptic viral tracing elements, which are used for investigation of synaptic connections within circuits in vitro, ex vivo, and in vivo. The first protocol describes procedures for … Show more

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Cited by 4 publications
(4 citation statements)
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“…By gene targeting cDNA encoding the full complement of starter cell proteins, RABV G, TVA, and tdTomato were introduced at the ROSA 26 locus (Garcia et al, 2012(Garcia et al, , 2013. The derived embryonal stem cells (mESC) revealed high-efficiency differentiation into functional neurons in vitro, and the derived neurons had a high capacity to synaptically connect with primary neuronal cultures.…”
Section: Transgenic Animalsmentioning
confidence: 99%
“…By gene targeting cDNA encoding the full complement of starter cell proteins, RABV G, TVA, and tdTomato were introduced at the ROSA 26 locus (Garcia et al, 2012(Garcia et al, , 2013. The derived embryonal stem cells (mESC) revealed high-efficiency differentiation into functional neurons in vitro, and the derived neurons had a high capacity to synaptically connect with primary neuronal cultures.…”
Section: Transgenic Animalsmentioning
confidence: 99%
“…5B). Although RABV has been used for in vivo neuronal connectivity assays, only very few studies have used it for in vitro connectivity analysis and all of these studies are relatively immature human stem cell differentiated neurons (37)(38)(39)(40). The main reason is that cultured mouse neurons can establish a wide connection with large numbers of other neurons, therefore the number of 'starter neurons' must be kept in low number for effective analysis.…”
Section: (1-3) Igf-1 Improves Connectivity Of Mecp2-deficient Primarymentioning
confidence: 99%
“…Minute (nanometer-scale) cellular deformations accompanying the action potential have been observed in crustacean nerves (0.3~10 nm) [1][2][3][4] , squid giant axon (~1 nm) 5,6 and, recently, in mammalian neurons (0.2~0.4 nm) 7,8 . These findings illustrate that rapid changes in transmembrane voltage due to the opening and closing of the voltage-gated ion channels have mechanical consequences accompanying action potentials and other changes in cell potential, which may allow non-invasive label-free imaging of neural signals 9 .…”
Section: Introductionmentioning
confidence: 99%
“…These findings illustrate that rapid changes in transmembrane voltage due to the opening and closing of the voltage-gated ion channels have mechanical consequences accompanying action potentials and other changes in cell potential, which may allow non-invasive label-free imaging of neural signals 9 . However, detecting the nanometer-scale millisecond-long deformations in biological cells is very challenging, and previous observations were limited to a single spot on the axon [1][2][3][4][5]7 or to the boundary of the cell soma 8 . Until now, the entire picture of how neurons move during the action potential was unclear, and the underlying mechanism remains poorly understood.…”
Section: Introductionmentioning
confidence: 99%