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Proteomics, Multi-Omics and Systems Biology in Optic Nerve Regeneration -

Proteomics, Multi-Omics and Systems Biology in Optic Nerve Regeneration

Sanjoy K. Bhattacharya (Herausgeber)

Buch | Softcover
300 Seiten
2025
Academic Press Inc (Verlag)
978-0-443-15580-2 (ISBN)
CHF 219,95 inkl. MwSt
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Proteomics, Multi-Omics and Systems Biology in Optic Nerve Regeneration is a comprehensive reference that covers all vistas of standardization of axon regeneration, as well as all multi-omics and system level data and integration tools. By adopting a translational approach, the book bridges current research in the field to clinical applications, and readers can expect to learn standardization approaches for axon regeneration, multi-omics datasets, different databases, search engines, multiple dataset integrative tools, pathway convergence approaches and tools, outcome and outcome measures that unify bench research with clinical outcome. The axon regeneration from existing neurons in central nervous system (CNS) have become a potential possibility in the last decade. The potential possibility of long-distance axon growth has opened the possibility of re-connectivity of axons of retinal ganglion cell neurons within the lateral geniculate nucleus in the brain. The long-distance axon regeneration and re-connectivity is a promise to restore lost vision in the optic nerve. Further, long-distance regeneration and re-innervation is equally helpful for other fields such as spinal cord injuries.

Sanjoy Bhattacharya is a tenured full Professor at the Department of Ophthalmology, University of Miami. He earned his doctorate in Biochemical Engineering and Biotechnology. Following postdoctoral research in epigenetics, including the publication of a “full” article in Nature on February 18,1999, and another in PNAS, USA on May 25, 1999, Dr. Bhattacharya utilized mass spectrometry to investigate the underlying mechanisms of enzyme activity associated with epigenetic alterations. He pursued the field of structural biology, namely X-crystallography, and continued to utilize mass spectrometry to investigate the mechanisms of protein crystallization imperfections. Dr. Bhattacharya subsequently decided to embark on a career in vision research. In 2003, he initiated an independent research program in glaucoma and identified two protein molecules, Cochlin in the trabecular meshwork and Peptidyl arginine deiminase 2 in the optic nerve respectively. Sanjoy is one of the pioneering individuals who has brought power of unbiased proteomic, lipidomics and metabolomics isotopic ratio outlier analysis mass spectrometric approaches in in the field of ophthalmology and vision research. Currently, he is involved in characterizing the lipidome of tissues of the posterior eye and investigating the biological significance of lipid asymmetry in the cellular milieu. His laboratory, with its diverse expertise in engineering, computer programming, biology, and mass spectrometry, is dedicated to studying the complete set of molecules and biological systems involved in axon regeneration. He is collaborating with over 32 leading laboratories worldwide to comprehensively contribute multiomics data on axon regeneration in tissues (optic nerve and spinal cord), isolated neurons (retinal ganglion cells) and fractionated axons, mitochondria and tissue/cell secretome. His laboratory, which receives funding from federal agencies such as the National Institutes of Health and the Department of Defense, is seeking answers to fundamental questions as to what triggers expansion of biological membranes pertinent to axon regeneration. His group is also aiming to understand what biological roles the asymmetric lipid distribution plays for axon membrane expansion. He has helped create “axon regeneration” as a movement by students, trainees, physicians and scientists, aiming to expedite the delivery of novel therapeutics to patients within a decade. To support this endeavor, he helped create a non-profit organization Miami Metabolomics Research Support Group. He serves on the editorial board of several peer-reviewed journals including PLoS One as an academic editor, Experimental Eye Research as Special issues and Review editor, and Translational Metabolomics as the editor in chief. Sanjoy has held several leadership positions such as being chair of scientific advisory board of Malignancy Research Foundation, as a member of board of trustees of Association of Ocular Pharmacology and Therapeutics and as Chair of Miller School of Medicine Faculty Council. He is inaugural director of a trailblazing master’s program in Vision Science and Investigative Ophthalmology. He is also the founding director of Miami Integrative Metabolomics Research Center. His laboratory is well-reputed for mentorship of students. A significant number of his former postdoctoral fellows and graduate students currently occupy faculty professor positions or hold prominent senior scientist roles in industry.

1. Historic accounts of neuron regeneration
2. Reagents for neuron regeneration structural studies
3. Assessments for functional regeneration
4. In vitro methods
5. In vivo models and pharmacological reagents
6. Systems biology approaches
7. Application of machine learning and artificial intelligence
8. Standardization approaches
9. Re-connectivity and new approaches
10. Regeneration applicable to other fields
11. Food and drug administration outlook for new treatments in this area
12. Approval processes and clinically relevant aspects
13. Enterprise formation strategies
14. Protocols and miscellaneous topics

Erscheint lt. Verlag 27.1.2025
Verlagsort San Diego
Sprache englisch
Maße 191 x 235 mm
Gewicht 450 g
Themenwelt Medizin / Pharmazie Medizinische Fachgebiete Augenheilkunde
Naturwissenschaften Biologie
ISBN-10 0-443-15580-1 / 0443155801
ISBN-13 978-0-443-15580-2 / 9780443155802
Zustand Neuware
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