Haruko Miyazaki, Ph.D.
Affiliations: | Laboratory for Structural Neuropathology | RIKEN Brain Science Institute, Wakō-shi, Saitama-ken, Japan |
Area:
polyglutamine disordersGoogle:
"Haruko Miyazaki"Mean distance: 19.66 (cluster 31) | S | N | B | C | P |
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Publications
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Miyazaki H, Nishioka S, Yamanaka T, et al. (2024) Generation and characterization of cerebellar granule neurons specific knockout mice of Golli-MBP. Transgenic Research |
Imamura Y, Hiyama A, Miyazaki H, et al. (2022) Amyloids facilitate DNA transfection in vivo. Neuroscience Research |
Yamano R, Miyazaki H, Nukina N. (2021) The diffuse distribution of Nav1.2 on mid-axonal regions is a marker for unmyelinated fibers in the central nervous system. Neuroscience Research |
Kasahara J, Imamura Y, Hiyama A, et al. (2020) Proteomic Analysis of Subcellular Compartments Containing Disseminated Alpha-synuclein Seeds. Neuroscience Research |
Yamanaka T, Miyazaki H, Tosaki A, et al. (2020) Gene expression profiling in neuronal cells identifies a different type of transcriptome modulated by NF-Y. Scientific Reports. 10: 21714 |
Miyazaki H, Yamanaka T, Oyama F, et al. (2020) FACS array-based cell purification yields a specific transcriptome of striatal medium spiny neurons in a murine Huntington disease model. The Journal of Biological Chemistry |
Yoshinaga S, Yamanaka T, Miyazaki H, et al. (2019) Preserved proteinase K-resistant core after amplification of alpha-synuclein aggregates: Implication to disease-related structural study. Biochemical and Biophysical Research Communications |
Park H, Miyazaki H, Yamanaka T, et al. (2018) Non-coding RNA Neat1 and Abhd11os expressions are dysregulated in medium spiny neurons of Huntington disease model mice. Neuroscience Research |
Okuzumi A, Kurosawa M, Hatano T, et al. (2018) Rapid dissemination of alpha-synuclein seeds through neural circuits in an in-vivo prion-like seeding experiment. Acta Neuropathologica Communications. 6: 96 |
Shimizu H, Tosaki A, Ohsawa N, et al. (2017) Parallel homodimer structures of the extracellular domains of the voltage-gated sodium channel β4 subunit explain its role in cell-cell adhesion. The Journal of Biological Chemistry |