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Washington University in St. Louis
Department of Developmental Biology
Miguel E. Domínguez-Romero

Miguel E. Domínguez-Romero
Bachelor of Science
PhD Student at Washington University in St. Louis

About

Publications

672

Reads

Citations

Skills and Expertise

Molecular Neuroscience

Metabolism

Regenerative Medicine

Spinal Cord Regeneration

Washington University in St. Louis

Department of Developmental Biology
St. Louis, United States

Current position

PhD Student

Mayssa H Mokalled's Lab

March 2017 - September 2021

Pontifical Catholic University of Chile

Field of study

Biochemistry

Publications

Mitochondria localize primarily to the NSPCs with an apical...

SCI drives changes in mitochondria number and localization on NSPCs....

Mitochondrial morphology and phenotype are altered after SCI. (A)...

Mitochondrial fission transcript levels are transitory elevated after...

Mitochondrial function and ATP production are maintained after SCI....

Xenopus laevis neural stem progenitor cells exhibit a transient metabolic shift toward glycolysis during spinal cord regeneration

Article

Full-text available

Jan 2025

Spinal cord injury (SCI) results in severe disruption of communication between the brain and body, causing motor, sensory, and autonomic dysfunctions. While SCI in mammals leads to permanent impairment due to limited regenerative capacity, certain non-mammalian species, such as Xenopus laevis larval stages, exhibit remarkable regenerative abilities...

Fetal daily rhythms develop during pregnancy and entrain to the maternal circadian system

Preprint

Full-text available

Jul 2023

Circadian rhythms in gene expression and hormones are ubiquitous across species and differentiated cell types. This study aimed to determine when daily rhythms begin in the fetus and synchronize to the mother. We developed methods to monitor the expression of fetal PERIOD2 (PER2), a core circadian clock protein, in mice longitudinally from embryoni...

Mechanisms leading to cell death. A Schematic representation of...

Immune cell response and regulation after SCI. A Schematic...

Axonal response after SCI. A, B Schematic representation of axon damage...

Neurogenesis and neural stem progenitor cells regulation. A, B...

Regenerative and non-regenerative response to SCI. A Schematic...

Mitochondrial function in spinal cord injury and regeneration

Article

Full-text available

Apr 2022

Many people around the world suffer from some form of paralysis caused by spinal cord injury (SCI), which has an impact on quality and life expectancy. The spinal cord is part of the central nervous system (CNS), which in mammals is unable to regenerate, and to date, there is a lack of full functional recovery therapies for SCI. These injuries star...

The growth cone. (A). Schematic representation of the axonal growth...

Guidance cues are associated with the glial scar and glial bridge. (A)....

Differential expression of guidance cues after different SCI paradigms.

Differential expression of guidance cues after different PNS injury...

Unraveling Axon Guidance during Axotomy and Regeneration

Article

Full-text available

Aug 2021

During neuronal development and regeneration axons extend a cytoskeletal-rich structure known as the growth cone, which detects and integrates signals to reach its final destination. The guidance cues “signals” bind their receptors, activating signaling cascades that result in the regulation of the growth cone cytoskeleton, defining growth cone adv...