Yumiko Hatanaka

Overview

Explore the profile of Yumiko Hatanaka including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 17

Citations 353

Followers 0

Related Specialties

Neurology

Biology

Cell Biology

Top 10 Co-Authors

Fujio Murakami

Kenta Yamauchi

Yasuo Kawaguchi

Tatsumi Hirata

Jun Ohta

Takashi Tokuda

Akira Sakakibara

Yasuyuki Ishikawa

Makio Torigoe

Yan Zhu

Published In

J Comp Neurol

Cereb Cortex

Nat Cell Biol

J Neurosci Methods

Annu Int Conf IEEE Eng Med Biol Soc

Affiliations

Soon will be listed here.

Recent Articles

Neuronal fate resulting from indirect neurogenesis in the mouse neocortex

Hatanaka Y, Yamada K, Eritate T, Kawaguchi Y, Hirata T

Cereb Cortex . 2024 Nov; 34(11). PMID: 39526524

Excitatory cortical neurons originate from cortical radial glial cells (RGCs). Initially, these neurons were thought to derive directly from RGCs (direct neurogenesis) and be distributed in an inside-out fashion. However,...

How Do Cortical Excitatory Neurons Terminate Their Migration at the Right Place? Critical Roles of Environmental Elements

Hatanaka Y, Hirata T

Front Cell Dev Biol . 2020 Nov; 8:596708. PMID: 33195277

Interactions between neurons and their environment are crucial for proper termination of neuronal migration during brain development. In this review, we first introduce the migration behavior of cortical excitatory neurons...

Semaphorin 6A-Plexin A2/A4 Interactions with Radial Glia Regulate Migration Termination of Superficial Layer Cortical Neurons

Hatanaka Y, Kawasaki T, Abe T, Shioi G, Kohno T, Hattori M, et al.

iScience . 2019 Nov; 21:359-374. PMID: 31698249

Precise regulation of neuronal migration termination is crucial for the establishment of brain cytoarchitectures. However, little is known about how neurons terminate migration. Here we focused on interactions between migrating...

From migration to settlement: the pathways, migration modes and dynamics of neurons in the developing brain

Hatanaka Y, Zhu Y, Torigoe M, Kita Y, Murakami F

Proc Jpn Acad Ser B Phys Biol Sci . 2016 Jan; 92(1):1-19. PMID: 26755396

Neuronal migration is crucial for the construction of the nervous system. To reach their correct destination, migrating neurons choose pathways using physical substrates and chemical cues of either diffusible or...

Neuronal polarization in the developing cerebral cortex

Sakakibara A, Hatanaka Y

Front Neurosci . 2015 Apr; 9:116. PMID: 25904841

Cortical neurons consist of excitatory projection neurons and inhibitory GABAergic interneurons, whose connections construct highly organized neuronal circuits that control higher order information processing. Recent progress in live imaging has...

Cortical Divergent Projections in Mice Originate from Two Sequentially Generated, Distinct Populations of Excitatory Cortical Neurons with Different Initial Axonal Outgrowth Characteristics

Hatanaka Y, Namikawa T, Yamauchi K, Kawaguchi Y

Cereb Cortex . 2015 Apr; 26(5):2257-2270. PMID: 25882037

Excitatory cortical neurons project to various subcortical and intracortical regions, and exhibit diversity in their axonal connections. Although this diversity may develop from primary axons, how many types of axons...

Formation of axon-dendrite polarity in situ: initiation of axons from polarized and non-polarized cells

Hatanaka Y, Yamauchi K, Murakami F

Dev Growth Differ . 2012 Apr; 54(3):398-407. PMID: 22524609

Neurons are polarized cells that extend a single axon and several dendrites. Historically, how neurons establish their axon-dendrite polarity has been extensively studied using dissociated hippocampal cells in culture. Although...

Excitatory cortical neurons with multipolar shape establish neuronal polarity by forming a tangentially oriented axon in the intermediate zone

Hatanaka Y, Yamauchi K

Cereb Cortex . 2012 Jan; 23(1):105-13. PMID: 22267309

The formation of axon-dendrite polarity is crucial for neuron to make the proper information flow within the brain. Although the processes of neuronal polarity formation have been extensively studied using...

A multimodal sensing device for fluorescence imaging and electrical potential measurement of neural activities in a mouse deep brain

Ohta J, Tagawa A, Minami H, Noda T, Sasagawa K, Tokuda T, et al.

Annu Int Conf IEEE Eng Med Biol Soc . 2009 Dec; 2009:5887-90. PMID: 19964881

We have developed a multimodal CMOS sensing device to detect fluorescence image and electrical potential for neural activities in a mouse deep brain. The device consists of CMOS image sensor...

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Distinct roles of neuropilin 1 signaling for radial and tangential extension of callosal axons

Hatanaka Y, Matsumoto T, Yanagawa Y, Fujisawa H, Murakami F, Masu M

J Comp Neurol . 2009 Mar; 514(3):215-25. PMID: 19296474

Cortical excitatory neurons migrate from their origin in the ventricular zone (VZ) toward the pial surface. During migration, these neurons exhibit a stellate shape in the intermediate zone (IZ), transform...