Goichi Miyoshi
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Explore the profile of Goichi Miyoshi including associated specialties, affiliations and a list of published articles.
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26
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2959
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Recent Articles
11.
Miyoshi G, Young A, Petros T, Karayannis T, McKenzie Chang M, Lavado A, et al.
J Neurosci
. 2015 Sep;
35(37):12869-89.
PMID: 26377473
Significance Statement: Despite the recognition that 30% of GABAergic cortical interneurons originate from the caudal ganglionic eminence (CGE), to date, a specific transcriptional program that selectively regulates the development of...
12.
Sakamoto M, Ieki N, Miyoshi G, Mochimaru D, Miyachi H, Imura T, et al.
J Neurosci
. 2014 Apr;
34(17):5788-99.
PMID: 24760839
The olfactory bulb (OB) is one of the two major loci in the mammalian brain where newborn neurons are constantly integrated into the neural circuit during postnatal life. Newborn neurons...
13.
Miyoshi G, Fishell G
Neuron
. 2012 Jun;
74(6):1045-58.
PMID: 22726835
Pyramidal cells of the cerebral cortex are born in the ventricular zone and migrate through the intermediate zone to enter into the cortical plate. In the intermediate zone, these migrating...
14.
Allene C, Picardo M, Becq H, Miyoshi G, Fishell G, Cossart R
J Neurosci
. 2012 May;
32(19):6688-98.
PMID: 22573691
During early postnatal development, neuronal networks successively produce various forms of spontaneous patterned activity that provide key signals for circuit maturation. Initially, in both rodent hippocampus and neocortex, coordinated activity...
15.
Imayoshi I, Hirano K, Sakamoto M, Miyoshi G, Imura T, Kitano S, et al.
Neurosci Res
. 2012 Feb;
73(1):85-91.
PMID: 22343123
Reporters of Cre and/or Flp activity are important for defining the spatial and temporal extent of Cre/Flp-mediated recombination. Here, we describe R26-CAG-LF-mTFP1, a multifunctional fluorescent reporter mouse that strongly expresses...
16.
Taniguchi H, He M, Wu P, Kim S, Paik R, Sugino K, et al.
Neuron
. 2011 Sep;
71(6):995-1013.
PMID: 21943598
A key obstacle to understanding neural circuits in the cerebral cortex is that of unraveling the diversity of GABAergic interneurons. This diversity poses general questions for neural circuit analysis: how...
17.
Jeanneteau F, Deinhardt K, Miyoshi G, Bennett A, Chao M
Nat Neurosci
. 2010 Oct;
13(11):1373-9.
PMID: 20935641
The refinement of neural circuits during development depends on a dynamic process of branching of axons and dendrites that leads to synapse formation and connectivity. The neurotrophin brain-derived neurotrophic factor...
18.
Miyoshi G, Fishell G
Cereb Cortex
. 2010 Aug;
21(4):845-52.
PMID: 20732898
It is of considerable interest to determine how diverse subtypes of γ-aminobutyric acidergic (GABAergic) interneurons integrate into the functional network of the cerebral cortex. Using inducible in vivo genetic fate...
19.
Tricoire L, Pelkey K, Daw M, Sousa V, Miyoshi G, Jeffries B, et al.
J Neurosci
. 2010 Feb;
30(6):2165-76.
PMID: 20147544
GABAergic interneurons critically regulate cortical computation through exquisite spatiotemporal control over excitatory networks. Precision of this inhibitory control requires a remarkable diversity within interneuron populations that is largely specified during...
20.
Miyoshi G, Hjerling-Leffler J, Karayannis T, Sousa V, Butt S, Battiste J, et al.
J Neurosci
. 2010 Feb;
30(5):1582-94.
PMID: 20130169
By combining an inducible genetic fate mapping strategy with electrophysiological analysis, we have systematically characterized the populations of cortical GABAergic interneurons that originate from the caudal ganglionic eminence (CGE). Interestingly,...