Inner ear formation during the early larval development of Xenopus laevis.Probing the Xenopus laevis inner ear transcriptome for biological function.Optimization of gene delivery methods in Xenopus laevis kidney (A6) and Chinese hamster ovary (CHO) cell lines for heterologous expression of Xenopus inner ear genesDevelopment of the Xenopus laevis VIIIth cranial nerve: increase in number and area of axons of the saccular and papillar branches.Red light stimulates an electrogenic proton pump in Vicia guard cell protoplasts.Hydrogel scaffolds promote neural gene expression and structural reorganization in human astrocyte cultures.Hydrogel Environment Supports Cell Culture Expansion of a Grade IV Astrocytoma.Post-Translational Tubulin Modifications in Human Astrocyte Cultures.RNA isolation from Xenopus inner ear sensory endorgans for transcriptional profiling and molecular cloning.Flow cytometric analysis of mammalian glial cultures treated with methotrexate.Effects of chronic phenobarbital exposure on cultured mouse spinal cord neurons.Diversity of the transient outward potassium current in somata of identified molluscan neurons.Sensory transduction and electrical signaling in guard cells.Detection of transcripts for delayed rectifier potassium channels in the Xenopus laevis inner ear.Morphometric analysis of a triple negative breast cancer cell line in hydrogel and monolayer culture environments.Cell proliferation during the early compartmentalization of the Xenopus laevis inner ear.Tissue and species differences in the application of quantum dots as probes for biomolecular targets in the inner ear and kidney.IMPLEMENTING WEB DIGITAL ANNOTATION FOR GLOBAL STEM EDUCATION AND COLLABORATIONQuantity, bundle types, and distribution of hair cells in the sacculus of Xenopus laevis during developmentExpression analysis of RNA sequencing data from human neural and glial cell lines depends on technical replication and normalization methodsNeuroethics Guiding Principles for the NIH BRAIN InitiativeTotal RNA Isolation from Separately Established Monolayer and Hydrogel Cultures of Human Glioblastoma Cell LineThe NIH BRAIN Initiative: Integrating Neuroethics and Neuroscience
P50
Q30493388-7A0225F2-3CC6-4BC2-A6E2-604A66638142Q30530777-38CD3BED-E080-416F-B323-9E2DC3FF4DD6Q33684977-9B0D1C66-8C40-4740-8B9D-532664124621Q36891778-2BB91E61-7CDC-4B64-B104-9C0C2E338729Q37482642-D59787A3-D8B0-4331-8B66-B241E916B0D0Q37585330-DC93CF3A-6C18-457D-9F60-9609ADE3F47EQ38700987-F47851CD-9AB4-45D8-BE83-E540B4E99A09Q38703248-B49B950A-7EED-4A13-A86E-E77D11DA27ABQ39931866-5D4DC4B8-3F52-4EB3-AB39-2E23FD2F3415Q41198491-F80A6998-55A1-49D0-9914-52A6AAD27358Q44182661-6372F36F-54B2-469E-B5CD-FD8B645FE7E2Q45946843-D6C036ED-3C59-47A9-B9D8-43496FD04B70Q46605826-F12C28CE-C669-4EF4-B0DE-F799DC3F6F93Q47925399-209182ED-3F8B-4A06-A917-DBC18D1AB686Q50268380-B460D1C5-AC02-469B-A183-A9464ABE9D69Q50457640-769A8BA8-C166-4B6C-A70C-AF5E74A303FEQ50710975-553B8466-6C71-4849-9763-B4D66BD4284AQ57554535-7DF03C87-7C64-4794-B702-8E6EAFA7A11FQ57554548-FA6B9B49-3EBD-42B6-838F-089968886DD0Q59336757-D06D7078-F623-4BEE-BDDF-42C947512493Q60302989-F80A408F-7103-446B-B07C-01CF43C75F58Q90138348-44F93F25-3FA8-47A3-9A79-ACD139DD8C4CQ91399291-C6E98FDE-5A2F-440D-8BA5-310E8F64E94E
P50
description
Professor of Neuroscience
@en
wetenschapper
@nl
հետազոտող
@hy
name
Elba Serrano
@ast
Elba Serrano
@en
Elba Serrano
@es
Elba Serrano
@nl
Elba Serrano
@sl
type
label
Elba Serrano
@ast
Elba Serrano
@en
Elba Serrano
@es
Elba Serrano
@nl
Elba Serrano
@sl
prefLabel
Elba Serrano
@ast
Elba Serrano
@en
Elba Serrano
@es
Elba Serrano
@nl
Elba Serrano
@sl
P106
P166
P21
P31
P496
0000-0001-7804-4212
P569
2000-01-01T00:00:00Z