25 results for “Gene Regulatory Networks”. Showing 25 of 39,449.
SCRN: Single-Cell Gene Regulatory Network Identification in Alzheimer's Disease.
networks and can identify reliable gene regulatory networks using locally
Single-cell multiomic human brain atlas reveals regulatory drivers of cortical regionality
gene regulatory networks and transcription factors that govern cell-type
Single-cell multiomic human brain atlas reveals regulatory drivers of cortical regionality.
gene regulatory networks and transcription factors that govern cell-type
MOCHA’s advanced statistical modeling of scATAC-seq data enables functional genomic inference in large human cohorts
gene regulatory networks from longitudinal data. These advances, in addition
Comparative gene regulatory networks modulating APOE expression in microglia and astrocytes.
gene regulatory networks (GRNs) for resting and activated cell states
Discovering common pathogenetic processes between periodontitis and Alzheimer's disease by bioinformatics and system biology approach.
networks, microRNAs (miRNAs)-gene regulatory networks, and gene-disease association
Altered sphingolipid function in Alzheimer's disease; a gene regulatory network approach.
gene regulatory network-based analysis identified 3 candidate genes, that
Identification of critical genes and drug repurposing targets in entorhinal cortex of Alzheimer's disease.
network (PPIN) and gene regulatory network (GRN) from differentially expressed
The autism-associated chromatin modifier CHD8 regulates other autism risk genes during human neurodevelopment.
regulatory networks during neurodevelopment. To elucidate such networks, we identify genes
Human microglial state dynamics in Alzheimer's disease progression.
gene-regulatory networks, enhancer-gene links, and transcription-factor-driven
Multi-omics analysis and experimental validation reveal the IRF7-CXCL10 axis as a master regulator of microglial PCD in ischemic stroke.
network analysis (WGCNA), and gene regulatory network inference (SCENIC), was used
Alz-QNet: A quantum regression network for studying Alzheimer's gene interactions.
Gene Regulatory Networks (QGRNs) to unravel the gene interactions involved
Clarifying off-target effects for torcetrapib using network pharmacology and reverse docking approach.
network. Subsequently, three conspicuous gene regulatory networks (GRNs) modules were
Alzheimer's disease-specific transcriptomic and epigenomic changes in the tryptophan catabolic pathway.
gene regulatory network (GRN) and network perturbational analysis. DNA methylation
Integrating single-nucleus sequence profiling to reveal the transcriptional dynamics of Alzheimer's disease, Parkinson's disease, and multiple sclerosis.
gene regulatory network analysis identified several hub genes regulated in AD, PD, and MS, in which
Integrating single-nucleus sequence profiling to reveal the transcriptional dynamics of Alzheimer's disease, Parkinson's disease, and multiple sclerosis.
gene regulatory network analysis identified several hub genes regulated in AD, PD, and MS, in which
Spatial patterning of transcriptional and regulatory programs in the primate subcortex
distinct gene regulatory networks impinge on the same downstream genes.
Decoding Non-Neuronal Mechanisms and Therapeutic Targets in Huntington's Disease Through Integrative Transcriptomics and Machine Learning.
gene regulatory network (GRN) construction highlighted several key genes, including
Continuous cell-type diversification in mouse visual cortex development
gene regulatory networks that link transcription factors and downstream target
Molecular and genetic insights into human ovarian aging from single-nuclei multi-omics analyses.
gene regulatory networks across ovarian cell types. We nominate functional
Single-cell analysis of chromatin accessibility in the adult mouse brain
gene regulatory networks in over 260 subclasses of mouse brain
The cis-regulatory dynamics of embryonic development at single-cell resolution
gene regulatory networks control the progressive restriction of cell fates
Temporal transcriptomic changes in the THY-Tau22 mouse model of tauopathy display cell type- and sex-specific differences.
gene regulatory networks, we identified sex-specific, sex-dimorphic, and sex-neutral
miRNA-associated gene networks reveal potential candidate markers for Alzheimer's disease.
gene regulatory networks as candidate AD biomarkers. METHODS: We recruited
Exploring bioactive natural products for treating neurodegenerative diseases: a computational network medicine approach targeting the estrogen signaling pathway in amyotrophic lateral sclerosis and Parkinson's disease.
regulatory genes and bioactive plant-derived compounds that modulate estrogen signaling without interfering with standard therapies offers a promising neuroprotective strategy. A network