Search Results - dobrila+rudnicki

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HDL2 iPSCs

Invention Novelty: Generation of three lines of induced pluripotent stem cells derived from fibroblast cell lines developed from patients with Huntington's disease-like 2.Value Proposition: HDL2, discovered and genetically defined by the Margolis group, is a rare, autosomal dominant neurodegenerative disorder, clinically and neuropathologically...

Published: 3/13/2025 | Inventor(s): Russell Margolis, Christopher Ross, Dobrila Rudnicki, Hongjun Song, Sergey Akimov

Keywords(s): Cell Lines, Cell Model, CNS and Neurological Disorders, Discovery/Research Tools, Disease Indication, Human Cell Lines, Huntington's Disease, In Vitro Research Tool, Neurodegeneration, Stem Cells

Category(s): Clinical and Disease Specializations, Clinical and Disease Specializations > Neurology > Huntington's Disease, Clinical and Disease Specializations > Neurology > Neurodegeneration, Clinical and Disease Specializations > Rare Diseases, Technology Classifications > Research Tools > Cell Lines, Technology Classifications > Research Tools > Human Cell Lines, Technology Classifications > Research Tools > Stem Cells, Clinical and Disease Specializations > Neurology, Technology Classifications > Research Tools

Assay to Screen for Small Molecules that Suppress CUG RNA-induced Neurotoxicity

TITLE: Assay to Screen for Small Molecules that Suppress CUG RNA-induced NeurotoxicityCASE NUMBER: C14213INVENTION NOVELTYA neuronal-like cell model that may be used as a powerful tool to screen for small molecule compounds that can suppress JPH3 CUG RNA-mediated cytotoxicity. VALUE PROPOSITIONHuntington’s disease-like 2 (HDL2) is...

Published: 3/13/2025 | Inventor(s): Dobrila Rudnicki, Xin Sun

Keywords(s): Cell Lines, CNS and Neurological Disorders, Discovery/Research Tools, Disease Indication, Human Cell Lines, Huntington's Disease-Like 2, In Vitro Research Tool, Neurodegeneration, Translational Research Biomarker

Category(s): Clinical and Disease Specializations, Clinical and Disease Specializations > Neurology > Huntington's Disease-Like 2, Clinical and Disease Specializations > Neurology > Neurodegeneration, Clinical and Disease Specializations > Rare Diseases, Technology Classifications > Research Tools > Cell Lines, Technology Classifications > Research Tools > Human Cell Lines, Clinical and Disease Specializations > Neurology, Technology Classifications > Research Tools

Assays to Detect Small Molecules that Suppress Expression of the Mutant Huntington Disease Gene

ABSTRACTHuntington's disease (HD) is an autosomal dominant neurodegenerative disorder caused by a mutation in the huntingtin gene (HTT). JHU researchers approach to finding a treatment for HD is two-fold: 1) to find small molecules (that could be developed into clinically useful drugs) that can directly suppress expression of HTT by blocking activity...

Published: 3/13/2025 | Inventor(s): Russell Margolis, Dobrila Rudnicki, Wang Zheng, Pan Li, Xin Sun

Keywords(s): Assay, Clinical Diagnostics, CNS and Neurological Disorders, Disease Indication, Huntington's Disease, In Vitro Diagnostics, Neurodegeneration

Category(s): Clinical and Disease Specializations, Clinical and Disease Specializations > Neurology > Huntington's Disease, Clinical and Disease Specializations > Neurology > Neurodegeneration, Clinical and Disease Specializations > Rare Diseases, Technology Classifications > Diagnostics > In Vitro Diagnostics, Technology Classifications > Research Tools > Assays, Technology Classifications > Diagnostics, Clinical and Disease Specializations > Neurology, Technology Classifications > Research Tools

CUG Expressing tg Mice

C11471: Junctophilin 3 (JPH3) Transgenic Mice Expressing Consecutive CUG Triplets Value Proposition: These transgenic mouse models express a short untranslatable fragment of exon 2A of the gene junctophilin 3 (JPH3) containing either 10 or 100 consecutive CUG triplets in the brain. Relevant publication: Rudnicki et al. Huntington's disease-like...

Published: 3/13/2025 | Inventor(s): Lino Tessarollo, Russell Margolis, Christopher Ross, Dobrila Rudnicki

Keywords(s): Basic Research Biomarker, Discovery/Research Tools, In Vivo Research Tool, Knock In Mouse Model, Mouse Model

Category(s): Technology Classifications > Research Tools > Animal Models, Technology Classifications > Research Tools