Zobrazeno 1 - 5
of 5
pro vyhledávání: '"Celia Vandestadt"'
Autor:
Alon M. Douek, Jean K. Tang, Jan Kaslin, Benjamin W. Lindsey, Celia Vandestadt, Georgia E. Aitken, Mitra Khabooshan
Publikováno v:
Scientific Reports, Vol 9, Iss 1, Pp 1-20 (2019)
Scientific Reports
Scientific Reports
How diverse adult stem and progenitor populations regenerate tissue following damage to the brain is poorly understood. In highly regenerative vertebrates, such as zebrafish, radial-glia (RG) and neuro-epithelial-like (NE) stem/progenitor cells contr
Publikováno v:
Zebrafish. 16:37-46
Zebrafish larvae are suitable in vivo models for toxicological and pharmacological screens due to their transparency, small size, ex utero development, and genetic and physiological similarity to humans. Using modern imaging techniques, cells and tis
Autor:
Gilles Vanwalleghem, Madara Ratnadiwakara, Alon M. Douek, Mitra Khabooshan, Hozana A. Castillo, Ethan K. Scott, Sebastian Alexander Stamatis, Jan Kaslin, Emily K. Don, Celia Vandestadt, Minna-Liisa Änkö, Mei Li, Keith E. Schulze
Publikováno v:
Developmental Cell. 56:2364-2380.e8
Tissue regeneration and functional restoration after injury are considered as stem- and progenitor-cell-driven processes. In the central nervous system, stem cell-driven repair is slow and problematic because function needs to be restored rapidly for
Autor:
Hozana A. Castillo, Ethan K. Scott, Gilles Vanwalleghem, Mei Li, Emily K. Don, Jan Kaslin, Minna-Liisa Anko, Keith E. Schulze, Celia Vandestadt, Mitra Khabooshan
Zebrafish have a remarkable capacity to regenerate following spinal cord (SC) injury but the responsible cellular events are not well understood. We used in vivo imaging and genetics to pin-point specific cellular processes controlling SC regeneratio
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::8da7c81faeabf5729a1d8eacb790a0a6
Autor:
Benjamin W. Lindsey, Celia Vandestadt, Jan Kaslin, Mitra Khabooshan, Georgia E. Aitken, Jean K. Tang
How diverse adult stem and progenitor populations regenerate tissue following damage to the CNS remains unknown across most neurogenic domains. To understand the role of quiescent radial-glial (qRG) stem cells during regeneration, we tested the hypot
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::2e172812afe26389b6b5effe1014ea77