His main research concerns Genetics, Gene, Drosophila melanogaster, Mutant and Molecular biology. His Genetics study frequently links to related topics such as Central nervous system. His Mutant study integrates concerns from other disciplines, such as Mutation, Open reading frame, Diacylglycerol kinase and Zinc finger.
His work in Mutation addresses issues such as Ectopic expression, which are connected to fields such as Neuroblast, Anatomy, Ganglion mother cell and Cell biology. As a part of the same scientific family, he mostly works in the field of Molecular biology, focusing on Reporter gene and, on occasion, Zebrafish. His Zebrafish research includes themes of Biological neural network and Neuroscience.
Yoshiki Hotta mainly focuses on Cell biology, Mutant, Genetics, Molecular biology and Gene. His studies deal with areas such as Cell fate determination, Zebrafish and Anatomy as well as Cell biology. His Zebrafish research integrates issues from Homeobox, Embryonic stem cell, Transgene and In situ hybridization.
Yoshiki Hotta has researched Mutant in several fields, including Heat shock protein, Diacylglycerol kinase, Receptor potential, Mutation and Actin. His work in Genetics addresses subjects such as Evolutionary biology, which are connected to disciplines such as Interspersed repeat and Horizontal gene transfer. His Molecular biology research incorporates elements of Drosophila melanogaster, Complementary DNA, Peptide sequence, Calmodulin and Exon.
Yoshiki Hotta focuses on Cell biology, Anatomy, Neuroscience, Cell fate determination and Pioneer neuron. Yoshiki Hotta has included themes like Cell division, Neuron and Adult stem cell in his Cell biology study. His Anatomy study combines topics in areas such as Epithelium, Cytoplasm, Phenotype, Transcription factor and Asymmetric cell division.
His research in Neuroscience intersects with topics in Enhancer and Regulation of gene expression. Molecular biology is closely connected to Stem cell in his research, which is encompassed under the umbrella topic of Neurosphere. His Molecular biology study incorporates themes from In situ hybridization, Retrovirus, Gene, Astrocyte and Nervous system.
His primary areas of study are Cell biology, Anatomy, Cytoplasm, Growth cone and Axon. His Cell biology research is multidisciplinary, incorporating perspectives in Molecular biology and Neurosphere, Cellular differentiation, Adult stem cell. His Anatomy research includes elements of Mitosis, Asymmetric cell division, Cell division, Neuroblast and Cell type.
His Cytoplasm research is multidisciplinary, incorporating elements of Cell and Lineage. His Growth cone research includes themes of Netrin, Axon guidance, Receptor and Drosophilidae.
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Visualization of Cranial Motor Neurons in Live Transgenic Zebrafish Expressing Green Fluorescent Protein Under the Control of the Islet-1 Promoter/Enhancer
Shin-ichi Higashijima;Yoshiki Hotta;Hitoshi Okamoto.
The Journal of Neuroscience (2000)
Proliferation pattern of postembryonic neuroblasts in the brain of Drosophila melanogaster
Kei Ito;Yoshiki Hotta.
Developmental Biology (1992)
High-frequency generation of transgenic zebrafish which reliably express GFP in whole muscles or the whole body by using promoters of zebrafish origin
Shin-ichi Higashijima;Hitoshi Okamoto;Naoto Ueno;Yoshiki Hotta.
Developmental Biology (1997)
glial cells missing: a binary switch between neuronal and glial determination in Drosophila.
Toshihiko Hosoya;Kazunaga Takizawa;Koushi Nitta;Yoshiki Hotta.
Mapping of Behaviour in Drosophila Mosaics
Yoshiki Hotta;Yoshiki Hotta;Seymour Benzer.
Genetic Dissection of the Drosophila Nervous System by Means of Mosaics
Yoshiki Hotta;Seymour Benzer.
Proceedings of the National Academy of Sciences of the United States of America (1970)
Abnormal Electroretinograms in Visual Mutants of Drosophila
Yoshiki Hotta;Seymour Benzer.
Developmental regulation of islet-1 mRNA expression during neuronal differentiation in embryonic zebrafish.
Akihiro Inoue;Mika Takahashi;Kohei Hatta;Yoshiki Hotta;Yoshiki Hotta.
Developmental Dynamics (1994)
The gcm-motif: a novel DNA-binding motif conserved in Drosophila and mammals.
Yasuko Akiyama;Toshihiko Hosoya;Anthony M. Poole;Yoshiki Hotta.
Proceedings of the National Academy of Sciences of the United States of America (1996)
Tetrodotoxin and manganese ions: effects on electrical activity and tension in taenia coli of guinea pig
Y. Nonomura;Y. Hotta;H. Ohashi.
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