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From Ecology to Brain Development: Bridging Separate Evolutionary Paradigms
  • Language: en
  • Pages: 133

From Ecology to Brain Development: Bridging Separate Evolutionary Paradigms

The nervous system is the product of biological evolution and is shaped by the interplay between extrinsic factors determining the ecology of animals, and by intrinsic processes that dictate the developmental rules that give rise to adult functional structures. This special topic is oriented to develop an integrative view from behavior and ecology to neurodevelopmental processes. We address questions such as how do sensory systems evolve according to ecological conditions? How do neural networks organize to generate adaptive behavior? How does cognition and brain connectivity evolve? What are the developmental mechanisms that give rise to functional adaptation? Accordingly, the book is divid...

The Fragile X Syndrome – Where Do We Go?
  • Language: en
  • Pages: 255

The Fragile X Syndrome – Where Do We Go?

description not available right now.

The Synaptic Basis of Neuropathology
  • Language: en
  • Pages: 218

The Synaptic Basis of Neuropathology

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Neuronal Mechanics and Transport
  • Language: en
  • Pages: 214

Neuronal Mechanics and Transport

Understanding the underlying mechanisms of how axons and dendrites develop is a fundamental problem in neuroscience and a main goal of research on nervous system development and regeneration. Previous studies have provided a tremendous amount of information on signaling and cytoskeletal proteins regulating axonal and dendritic growth and guidance. However, relatively little is known about the relative contribution and role of cytoskeletal dynamics, transport of organelles and cytoskeletal components, and force generation to axonal elongation. Advancing the knowledge of these biomechanical processes is critical to better understand the development of the nervous system, the pathological progr...

Insights in Synaptic Neuroscience 2022
  • Language: en
  • Pages: 172

Insights in Synaptic Neuroscience 2022

We are now entering the third decade of the 21st Century, and, especially in the last years, the achievements made by scientists have been exceptional, leading to major advancements in the fast-growing field of Neuroscience. Frontiers has organized a series of Research Topics to highlight the latest advancements in science in order to be at the forefront of science in different fields of research. This editorial initiative of particular relevance, led by Professors Jesper Sjöström, Karri P Lamsa, Alfredo Kirkwood, and supported by the Editorial Board of Frontiers in Synaptic Neuroscience is focused on new insights, novel developments, current challenges, latest discoveries, recent advances, and future perspectives in the field of synaptic neuroscience.

Brain Hypoxia and Ischemia: New Insights Into Neurodegeneration and Neuroprotection
  • Language: en
  • Pages: 162

Brain Hypoxia and Ischemia: New Insights Into Neurodegeneration and Neuroprotection

This eBook is a collection of articles from a Frontiers Research Topic. Frontiers Research Topics are very popular trademarks of the Frontiers Journals Series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author by contacting the Frontiers Editorial Office: frontiersin.org/about/contact.

P2X7 as Common Therapeutic Target in Brain Diseases
  • Language: en
  • Pages: 157

P2X7 as Common Therapeutic Target in Brain Diseases

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Biology of Brain Disorders
  • Language: en
  • Pages: 586

Biology of Brain Disorders

Brain disorders, including neurological and neuropsychiatric conditions, represent a challenge for public health systems and society at large. The limited knowledge of their biology hampers the development of diagnostic tools and effective therapeutics. A clear understanding of the mechanisms that underlie the onset and progression of brain disorders is required in order to identify new avenues for therapeutic intervention. Overlapping genetic risk factors across different brain disorders suggest common linkages and pathophysiological mechanisms that underlie brain disorders. Methodological and technological advances are leading to new insights that go beyond traditional hypotheses. Taking a...

Redox Regulation of Differentiation and De-differentiation
  • Language: en
  • Pages: 544

Redox Regulation of Differentiation and De-differentiation

  • Type: Book
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  • Published: 2021-08-26
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  • Publisher: CRC Press

Cell differentiation and the development of multicellular organisms are processes of self-assembly, controlled and driven by signaling molecules and cascades including redox regulation. These reactions may have provided the energy for the first metabolic steps in the evolution of life. Today, redox modifications are established as important regulatory events in cellular functions including differentiation and development. Redox modifications of single cysteines regulate differentiation of stem cells, formation of functioning organs, and de-differentiation such as formation of cancer cells. Current cancer therapy is based on redox events as well and regeneration often reactivates developmenta...

Unraveling Neuroprotective and Neurodegenerative Signals in Neurodegeneration
  • Language: en
  • Pages: 133

Unraveling Neuroprotective and Neurodegenerative Signals in Neurodegeneration

Proteinopathy is a collective term used to classified neurodegenerative diseases associated with the progressive accumulation of toxic protein molecules in specific brain regions. Alzheimer’s disease (AD) is a well-known proteinopathy characterize by the accumulation of A peptides and tau proteins. The accumulation of these toxic molecules in the brain starts many years before any clinical presentation, being the onset in the range of 65 to 72 years of age. Therefore, age is considered a risk factor due, in part, to the loss of molecular competence to clear the brain from these toxic protein molecules. This fact, supported by years of research, demonstrates that brain cells activate a neur...