Proteomics, Multi-Omics and Systems Biology in Optic Nerve Regeneration
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Proteomics, Multi-Omics and Systems Biology in Optic Nerve Regeneration
Bhattacharya, Sanjoy K.
Elsevier Science Publishing Co Inc
01/2025
300
Mole
Inglês
9780443155802
Pré-lançamento - envio 15 a 20 dias após a sua edição
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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
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
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Functional MRI; Age-related macular degeneration; Artificial intelligence; Axon growth; Axon guidance molecules; Axon guidance; Axon injury; Axon regeneration; Axon target selection; Axon targeting; Axon transport; Axon; Axonal growth; Axonal regeneration; Axonal tracing; Axotomy; Binocular vision; Bioinformatics; Brain injury; Brain; Bromodeoxyuridine; Calcium imaging; Carbocyanines; Cell signaling; Cellular neuroscience; Central nervous system; Cholera toxin subunit B; CNS axonal injury; CNTF; Danio rerio; Degeneration; Dendrite injury; Dendrites; Diagnostic imaging; Diffusion MRI; Diffusion tensor imaging; Dorsal root ganglion; Drug approval process; Drug discovery; Drug treatment; Electric fields; Electrical stimulation; Electrostimulation; Energy metabolism; Ex vivo models; Fibrotic scar; Flat mount dissection; Flat mount immunofluorescence; Fluorescence in situ hybridization (FISH)GAP43Immunohistochemistry; Fluorescent microscopy; Food and drug administration; Functional recovery; Gadolinium; GAP-43In vivo assays for axon regeneration; Gene expression profiling; Gene expression; Gene therapy; Genomics; GEO dataset; Glaucoma in mice; Glaucoma; Glial scar; Growth cone; HESI; High-content screening (HCS)Retinal ganglion cells (RGCs)RGC markers; HILIC chromatography; Hydrophilic interaction liquid chromatography; Imaging techniques; In vitro models; Inherited retinal dystrophies; Injury; Intraocular pressure; Intrinsically disordered proteins; Invertebrate; LC-MS/MS; Macrophage; Magnetic resonance imaging; Magnetic resonance spectroscopy; Manganese; Mass spectrometry; Medical imaging; Metabolites; Metabolomis analysis; Microarray; Microglia; Midline crossing; Molecular biology; Molecular neuroscience; Molecular therapy; Monogenists; Mouse; Muller glia; Multiomics; Myelin; Nerve regeneration; Nervous system; Neural repair; Neurite; Neurodegeneration; Neurogenesis; Neuroimaging; Neuroinflammation; Neuronal circuit formation; Neuroplasticity; Neuroprotection; Neuroregeneration; Ocular hypertension; Ocular therapeutics; Omics; ONC; Oncomodulin; Ophthalmic devices; Ophthalmology; Optic chiasm; Optic nerve crush; Optic nerve injury; Optic nerve regeneration; Optic nerve; Optic neuropathy; Optogenetics; Patterning; Peripheral nerve regeneration; Peripheral nervous system; Phosphoproteomics; Phosphorylation; Physical disector; Polygenists; Proteome; Proteomics; Protocol; Quantification of regeneration; Quantitative evaluation; Radiomics; Regeneration; Regeneration-capable species; Regenerative medicine; Regulatory oversight; Retina; Retinal degeneration; Retinal ganglion cell; Retinal ganglion cells; Retinofugal pathway; Reversed-phase chromatography; RGC subtypes; RGC types; RGC; RNA sequencing; RNA transcriptome; RNA-Seq; Sciatic nerve injury; scRNA-Seq; scRNA-seq; Single-cell omics; Single-cell RNA-seq; Single-cell; Spatial omics; Spectroscopy; Spinal cord injury; Spinal cord; Standardization; Stereology; Stimulation parameters; Subtypes; Surgical technique; Survival; Thy1.1, Thy1.2Two-step immunopanning protocol; Tissue dissection; Tissue-specific gene expression; Transcription factors; Transcriptome; Transportomics; Traumatic brain injury; Ultra-high-performance liquid chromatography; Unbiased sensory neuron counting; Untargeted metabolomics; Viral vectors; Wallerian degeneration; Xenopus laevis; Xenopus; Zebrafish; Zinc
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
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
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Functional MRI; Age-related macular degeneration; Artificial intelligence; Axon growth; Axon guidance molecules; Axon guidance; Axon injury; Axon regeneration; Axon target selection; Axon targeting; Axon transport; Axon; Axonal growth; Axonal regeneration; Axonal tracing; Axotomy; Binocular vision; Bioinformatics; Brain injury; Brain; Bromodeoxyuridine; Calcium imaging; Carbocyanines; Cell signaling; Cellular neuroscience; Central nervous system; Cholera toxin subunit B; CNS axonal injury; CNTF; Danio rerio; Degeneration; Dendrite injury; Dendrites; Diagnostic imaging; Diffusion MRI; Diffusion tensor imaging; Dorsal root ganglion; Drug approval process; Drug discovery; Drug treatment; Electric fields; Electrical stimulation; Electrostimulation; Energy metabolism; Ex vivo models; Fibrotic scar; Flat mount dissection; Flat mount immunofluorescence; Fluorescence in situ hybridization (FISH)GAP43Immunohistochemistry; Fluorescent microscopy; Food and drug administration; Functional recovery; Gadolinium; GAP-43In vivo assays for axon regeneration; Gene expression profiling; Gene expression; Gene therapy; Genomics; GEO dataset; Glaucoma in mice; Glaucoma; Glial scar; Growth cone; HESI; High-content screening (HCS)Retinal ganglion cells (RGCs)RGC markers; HILIC chromatography; Hydrophilic interaction liquid chromatography; Imaging techniques; In vitro models; Inherited retinal dystrophies; Injury; Intraocular pressure; Intrinsically disordered proteins; Invertebrate; LC-MS/MS; Macrophage; Magnetic resonance imaging; Magnetic resonance spectroscopy; Manganese; Mass spectrometry; Medical imaging; Metabolites; Metabolomis analysis; Microarray; Microglia; Midline crossing; Molecular biology; Molecular neuroscience; Molecular therapy; Monogenists; Mouse; Muller glia; Multiomics; Myelin; Nerve regeneration; Nervous system; Neural repair; Neurite; Neurodegeneration; Neurogenesis; Neuroimaging; Neuroinflammation; Neuronal circuit formation; Neuroplasticity; Neuroprotection; Neuroregeneration; Ocular hypertension; Ocular therapeutics; Omics; ONC; Oncomodulin; Ophthalmic devices; Ophthalmology; Optic chiasm; Optic nerve crush; Optic nerve injury; Optic nerve regeneration; Optic nerve; Optic neuropathy; Optogenetics; Patterning; Peripheral nerve regeneration; Peripheral nervous system; Phosphoproteomics; Phosphorylation; Physical disector; Polygenists; Proteome; Proteomics; Protocol; Quantification of regeneration; Quantitative evaluation; Radiomics; Regeneration; Regeneration-capable species; Regenerative medicine; Regulatory oversight; Retina; Retinal degeneration; Retinal ganglion cell; Retinal ganglion cells; Retinofugal pathway; Reversed-phase chromatography; RGC subtypes; RGC types; RGC; RNA sequencing; RNA transcriptome; RNA-Seq; Sciatic nerve injury; scRNA-Seq; scRNA-seq; Single-cell omics; Single-cell RNA-seq; Single-cell; Spatial omics; Spectroscopy; Spinal cord injury; Spinal cord; Standardization; Stereology; Stimulation parameters; Subtypes; Surgical technique; Survival; Thy1.1, Thy1.2Two-step immunopanning protocol; Tissue dissection; Tissue-specific gene expression; Transcription factors; Transcriptome; Transportomics; Traumatic brain injury; Ultra-high-performance liquid chromatography; Unbiased sensory neuron counting; Untargeted metabolomics; Viral vectors; Wallerian degeneration; Xenopus laevis; Xenopus; Zebrafish; Zinc
