transcriptomic profiling
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At the nexus of genes, aging and environment: Understanding transcriptomic and epigenomic regulation in Parkinson's disease
Parkinson’s Disease (PD), the most common neurodegenerative movement disorder, is based on a complex interplay between genetic predispositions, aging processes, and environmental influences. In order to better understand the gene-environment axis in PD, we pursue a multi-omics approach to comprehensively interrogate genome-wide changes in histone modifications, DNA methylation, and hydroxymethylation, accompanied by transcriptomic profiling in cell and animal models of PD as well as large patient cohorts. Furthermore, we assess the plasticity of epigenomic modifications under influence of environmental factors using longitudinal cohorts of sporadic PD cases as well as mouse models exposed to specific environmental factors. Here, we present gene expression changes in PD mouse models in context of aging as well as environmental enrichment and high-fat diet.
Identifying candidate genes associated with hippocampal dysfunction in a hemiparkinsonian rat model by transcriptomic profiling
FENS Forum 2024
Integrating network activity with transcriptomic profiling in hiPSCs-derived neuronal networks to understand the molecular drivers of functional heterogeneity in the context of neurodevelopmental disorders
FENS Forum 2024
Single-nucleus and spatial transcriptomic profiling of human temporal cortex and associated white matter reveals novel AD trait associations
FENS Forum 2024
Understanding LZK-mediated reactive astrogliosis and neuronal repair using mouse molecular genetics and transcriptomic profiling
FENS Forum 2024
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