Dr. Israelson's lab focuses
on cellular and molecular mechanisms that lead to the onset and progression of neurodegenerative diseases, such as Alzheimer's, Parkinson's and Huntington's diseases, with special emphasis on ALS.
The «Meet Our Scientists» video entitled «Our relative the fly» presents the research performed by Marco Millán
on the cellular and molecular mechanisms underlying the regulation of tissue growth during normal development, tissue homeostasis, and tumorigenesis.
His laboratory focuses
on the cellular and molecular mechanisms of cancer progression.
Research in our laboratory focuses
on the cellular and molecular mechanisms of action of substances of abuse and their interaction with neurotransmitter systems.
Not exact matches
Dr. Monteggia's lab focuses
on the
molecular and cellular bases of neural plasticity, the fundamental property of nerve cells to alter their communication, as they pertains to neuropsychiatric disorders, as well as understanding the
mechanisms underlying antidepressant efficacy.
The CPC maintains a focus
on experimental pneumology with the investigation of
cellular,
molecular and immunological
mechanisms involved in lung diseases.
Research programs of Immunopathology Unit aim to dissect the
cellular and molecular mechanisms responsible for immunopathological responses of the liver, with emphasis
on the responses that occur during infection with hepatitis B virus (HBV).
Our lab is interested in identifying the
cellular and molecular mechanisms involved in the organization
and maintenance of the synapse with a specific focus
on the control of neurotransmitter receptor expression
and localization.
The HFSP supports novel, innovative
and interdisciplinary basic research focused
on the complex
mechanisms of living organisms; topics range from
molecular and cellular approaches to systems
and cognitive neuroscience
and the interactions between organisms.
Contributions that use
cellular and molecular approaches to shed light
on mechanisms of physiological control at higher levels of organization also appear regularly.
In recent years, our laboratory has focused much effort
on understanding the
molecular and cellular mechanisms regulating muscle cell fusion.
Our ultimate goals in this activity include (1) a better understanding of the
molecular mechanisms governing
cellular processes
and especially those involved in certain kinds of diseases such as cancer
and (2) the development of computational tools that can be used for diagnostic / prognostic purposes based
on genomic data.
In particular, they are focused
on studying the functional role
and molecular mechanisms of
cellular senescence in both of these events,
and how a deregulation of normal epithelial stem cell proliferation is involved.
Topics such as the
mechanisms of cell injury in normal
and dystrophic muscle, compensatory muscle regeneration
and hypertrophy,
and the effects of various therapies or voluntary exercise
on muscle repair, satellite cell activation, muscle growth, bone density
and age - related atrophy are examined using a large variety of
cellular,
molecular and whole - animal in vivo assays of function.
Modern biophysics is a broad
and rapidly advancing field encompassing the study of biological structures with a focus
on mechanisms at the
molecular,
cellular,
and systems level using the concepts
and methods of physics, chemistry, mathematics, engineering,
and computational science.
Most of the discussion section at the end of the paper focuses
on the complexity of the
molecular and cellular mechanisms involved with vascular injury, especially in very advanced lesions.
The major two focuses of his Ph.D. study were to study the
cellular and molecular mechanisms of prostate cancer metastasis
and to study the effects of pomegranate derived natural products
on prostate
and breast cancer progression.
Our group focuses
on this question
and uses the cnidarian Nematostella vectensis as a model organism to study how such morphological plasticity
mechanisms are encoded at the
molecular and cellular level.
«Correct protein folding is critically important, which is why we are focusing
on the diverse set of complex
cellular mechanisms, including
molecular chaperones, that promote efficient folding and prevent toxicity,» says Dr. Adrian Israelson, who heads the Cellular and Molecular Neurodegeneration Lab in the BGU Department of Physiology and Cell
molecular chaperones, that promote efficient folding
and prevent toxicity,» says Dr. Adrian Israelson, who heads the
Cellular and Molecular Neurodegeneration Lab in the BGU Department of Physiology and Cell
Molecular Neurodegeneration Lab in the BGU Department of Physiology
and Cell Biology.
However, based
on the available data, the presence of autofluorescent material does not provide us with specific clues about the
cellular and molecular disease
mechanisms resulting in photoreceptor loss
and retinal degeneration.
London, England About Blog Exploring the
molecular mechanisms that underpin key biological processes, the Biochemical Journal is a leading bioscience journal publishing high - impact scientific research papers
and reviews
on the latest advances
and new mechanistic concepts in the fields of biochemistry,
cellular biosciences
and molecular biology.