A5028758468- Neurogenesis and neuroplasticity mechanisms
- Neuroinflammation and Neurodegeneration Mechanisms
- Immune cells in cancer
- Invertebrate Immune Response Mechanisms
- Insect symbiosis and bacterial influences
- Neurobiology and Insect Physiology Research
- Intensive Care Unit Cognitive Disorders
- Marine and coastal ecosystems
- Neurological Disease Mechanisms and Treatments
- Protist diversity and phylogeny
- Aquaculture disease management and microbiota
Nagoya University
2022-2024
Tokyo Institute of Technology
2021-2022
Hiroshima University
2007
The relationships between tissue-resident microglia and early macrophages, especially their lineage segregation outside the yolk sac, have been recently explored, providing a model in which conversion from macrophages seeds during brain development. However, spatiotemporal evidence to support such microglial seeding situ explain how it occurs has not obtained. By cell tracking via slice culture, intravital imaging, Flash tag-mediated or genetic labeling, we find that intraventricular CD206+...
DAO Diseases of Aquatic Organisms Contact the journal Facebook Twitter RSS Mailing List Subscribe to our mailing list via Mailchimp HomeLatest VolumeAbout JournalEditorsSpecials 76:113-121 (2007) - doi:10.3354/dao076113 Base changes in fliC gene Edwardsiella tarda: possible effects on flagellation and motility Jun Okuda1,*, Fumiyasu Murayama1, Eisuke Yamanoi1, Emi Iwamoto1, Satoru Matsuoka2, Mitsuaki Nishibuchi3, Toshihiro Nakai1 1Graduate School Biosphere Science, Hiroshima University,...
Abstract Microglia colonize the brain starting on embryonic day (E) 9.5 in mice, and their population increases with development. We have previously demonstrated that some microglia are derived from intraventricular macrophages, which frequently infiltrate pallium at E12.5. To address how infiltration of macrophages is spatiotemporally regulated, histological analyses detecting these cells associate surrounding site into pallial surface essential. Using two‐photon microscopy‐based vivo...
ABSTRACT For in vivo functional analysis of a protein interest (POI), multiple transgenic strains with POI that harbors different tags are needed but generation these is still labor-intensive work. To overcome this, we have developed versatile Drosophila toolkit genetically encoded single-chain variable fragment for the HA epitope tag: ‘HA Frankenbody’. This system allows various analyses HA-tagged live tissues by simply crossing an Frankenbody fly fly. Strikingly, GFP-mCherry tandem...
Summary The relationships between microglia and macrophages, especially their lineage segregation outside the yolk sac, have been recently explored, providing a model in which conversion from macrophages seeds during brain development. However, spatiotemporal evidence to support such microglial seeding explain how it occurs has not obtained. By cell tracking via slice culture, intravital imaging, Flash tag-mediated labeling, we found that group of intraventricular belonging border-associated...
For in vivo functional analysis of a protein interest (POI), multiple transgenic strains with POI harboring different tags are needed but generation these is still labor-intensive work. To overcome this, we developed versatile Drosophila toolkit genetically encoded single-chain variable fragment for the HA epitope tag: Frankenbody. This system allows various analyses HA-tagged live tissues by simply crossing an Frankenbody fly fly. Strikingly, GFP-mCherry tandem fluorescent-tagged revealed...
The relationships between microglia and macrophages, especially their lineage segregation outside the yolk sac, have been recently explored, providing a model in which conversion from macrophages seeds during brain development. However, spatiotemporal evidence to support such microglial seeding explain how it occurs has not obtained. By cell tracking via slice culture, intravital imaging, Flash tag-mediated labeling, we found that group of intraventricular belonging border-associated (BAMs),...