User profiles for A. Rodrigo Albors

Aida Rodrigo Albors

Centre for Regenerative Medicine, The University of Edinburgh
Verified email at ed.ac.uk
Cited by 244

Planar cell polarity-mediated induction of neural stem cell expansion during axolotl spinal cord regeneration

A Rodrigo Albors, A Tazaki, F Rost, S Nowoshilow… - Elife, 2015 - elifesciences.org
10.7554/eLife.10230.001 Axolotls are uniquely able to mobilize neural stem cells to
regenerate all missing regions of the spinal cord. How a neural stem cell under homeostasis …

Lineage tracing of axial progenitors using Nkx1-2CreERT2 mice defines their trunk and tail contributions

A Rodrigo Albors, PA Halley, KG Storey - Development, 2018 - journals.biologists.com
The vertebrate body forms by continuous generation of new tissue from progenitors at the
posterior end of the embryo. The study of these axial progenitors has proved to be challenging …

Spatiotemporal control of cell cycle acceleration during axolotl spinal cord regeneration

E Cura Costa, L Otsuki, A Rodrigo Albors, EM Tanaka… - Elife, 2021 - elifesciences.org
Axolotls are uniquely able to resolve spinal cord injuries, but little is known about the mechanisms
underlying spinal cord regeneration. We previously found that tail amputation leads to …

Accelerated cell divisions drive the outgrowth of the regenerating spinal cord in axolotls

F Rost, A Rodrigo Albors, V Mazurov, L Brusch… - Elife, 2016 - elifesciences.org
10.7554/eLife.20357.001 Axolotls are unique in their ability to regenerate the spinal cord.
However, the mechanisms that underlie this phenomenon remain poorly understood. …

[PDF][PDF] An ependymal cell census identifies heterogeneous and ongoing cell maturation in the adult mouse spinal cord that changes dynamically on injury

AR Albors, GA Singer, E Llorens-Bobadilla, J Frisen… - Developmental cell, 2023 - cell.com
The adult spinal cord stem cell potential resides within the ependymal cell population and
declines with age. Ependymal cells are, however, heterogeneous, and the biological diversity …

Multiple steps characterise ventricular layer attrition to form the ependymal cell lining of the adult mouse spinal cord central canal

MA Canizares, AR Albors, G Singer, N Suttie… - Journal of …, 2020 - Wiley Online Library
The ventricular layer of the spinal cord is remodelled during embryonic development and
ultimately forms the ependymal cell lining of the adult central canal, which retains neural stem …

[HTML][HTML] Mapping body-building potential

A Rodrigo Albors, KG Storey - Elife, 2016 - elifesciences.org
… Aida Rodrigo Albors … Image credit: Rodrigo Albors and Storey. … Aida Rodrigo Albors

High-efficiency electroporation of the spinal cord in larval axolotl

AR Albors, EM Tanaka - Salamanders in Regeneration Research …, 2015 - Springer
Axolotls are well known for their remarkable ability to regenerate complex body parts and
structures throughout life, including the entire limb and tail. Particularly fascinating is their …

Ependymal cell maturation is heterogeneous and ongoing in the mouse spinal cord and dynamically regulated in response to injury

A Rodrigo Albors, GA Singer, AP May, CP Ponting… - bioRxiv, 2022 - biorxiv.org
The spinal cord neural stem cell potential resides within the ependymal cells lining the central
canal. These cells are, however, heterogeneous, and we know little about the biological …

Fate mapping caudal lateral epiblast reveals continuous contribution to neural and mesodermal lineages and the origin of secondary neural tube

AR Albors, PA Halley, KG Storey - bioRxiv, 2016 - biorxiv.org
The ability to monitor and manipulate epiblast cells in and around the primitive streak of the
mouse embryo is important for investigating how cells maintain potency and how distinct cell …