What is he best known for?
The fields of study he is best known for:
- Gene
- Cellular differentiation
- Genetics
His main research concerns Cell biology, Cellular differentiation, Progenitor cell, Stem cell and Genetics.
In most of his Cell biology studies, his work intersects topics such as Anatomy.
His Cellular differentiation research is multidisciplinary, relying on both Cell culture, Ectopic expression and Regeneration.
His Stem cell study combines topics in areas such as Testicle, Epithelium, Caenorhabditis elegans and Spermatogenesis.
His work focuses on many connections between Spermatogenesis and other disciplines, such as Immunology, that overlap with his field of interest in Beta and Receptor.
The study of Stem cell theory of aging is intertwined with the study of Live cell imaging in a number of ways.
His most cited work include:
- A vasculature-associated niche for undifferentiated spermatogonia in the mouse testis (400 citations)
- The basic helix-loop-helix factor olig2 is essential for the development of motoneuron and oligodendrocyte lineages. (386 citations)
- Combinatorial Roles of Olig2 and Neurogenin2 in the Coordinated Induction of Pan-Neuronal and Subtype-Specific Properties of Motoneurons (386 citations)
What are the main themes of his work throughout his whole career to date?
Shosei Yoshida mainly investigates Cell biology, Stem cell, Cellular differentiation, Spermatogenesis and Progenitor cell.
His Cell biology research integrates issues from Live cell imaging, Cell division and Germ cell.
His Stem cell research incorporates themes from Germline, Immunology, Transplantation and Adult stem cell.
In his study, Clone is inextricably linked to Cell culture, which falls within the broad field of Immunology.
The various areas that Shosei Yoshida examines in his Cellular differentiation study include Endothelial stem cell, Embryonic stem cell, Cancer stem cell and Molecular biology.
Shosei Yoshida has included themes like Meiosis, Spermatocyte, Mutant and Stem cell niche in his Spermatogenesis study.
He most often published in these fields:
- Cell biology (124.75%)
- Stem cell (89.11%)
- Cellular differentiation (58.42%)
What were the highlights of his more recent work (between 2017-2021)?
- Cell biology (124.75%)
- Stem cell (89.11%)
- Spermatogenesis (40.59%)
In recent papers he was focusing on the following fields of study:
Shosei Yoshida focuses on Cell biology, Stem cell, Spermatogenesis, Niche and Spermatocyte.
His work on Progenitor cell is typically connected to Chemistry as part of general Cell biology study, connecting several disciplines of science.
His studies deal with areas such as DAZL and Morphogenesis as well as Progenitor cell.
His Stem cell research is multidisciplinary, incorporating perspectives in Transplantation, Active matter, Retinoic acid and Regeneration.
His Spermatogenesis study deals with Germ cell intersecting with Cell morphogenesis.
His work carried out in the field of Cellular differentiation brings together such families of science as Embryonic stem cell, Oscillation and Function.
Between 2017 and 2021, his most popular works were:
- Competition for Mitogens Regulates Spermatogenic Stem Cell Homeostasis in an Open Niche (50 citations)
- Competition for Mitogens Regulates Spermatogenic Stem Cell Homeostasis in an Open Niche (50 citations)
- Competition for Mitogens Regulates Spermatogenic Stem Cell Homeostasis in an Open Niche (50 citations)
In his most recent research, the most cited papers focused on:
- Gene
- Cellular differentiation
- Genetics
His primary scientific interests are in Cell biology, Mechanism, Stem cell, Niche and Wnt signaling pathway.
His Cell biology study combines topics from a wide range of disciplines, such as Oscillation, Fibroblast growth factor and Spinal cord.
The concepts of his Oscillation study are interwoven with issues in Tissue homeostasis, Cellular differentiation and Function.
Shosei Yoshida combines subjects such as Mitogen-activated protein kinase, Homeostasis and Regeneration with his study of Fibroblast growth factor.
His Spinal cord research is multidisciplinary, incorporating perspectives in Cell morphology, Morphogen, Conditional gene knockout and Neural stem cell.
His Cell signaling research incorporates Sperm and Retinoic acid.
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