Keyphrases
Induced Pluripotent Stem Cells (iPSCs)
100%
Schizophrenia
100%
Calcium Handling
100%
16p11.2 Duplication
100%
Excitatory Neurons
75%
Isogenic
37%
Network Synchronization
25%
Monoculture
25%
Neurodevelopmental
12%
Pathophysiology
12%
Psychiatric Disorders
12%
Patient-derived
12%
Molecular Markers
12%
Genetic Risk
12%
Promising Strategies
12%
Transcriptomics
12%
Glutamatergic
12%
Neuronal Firing
12%
Transcriptome Analysis
12%
Disease-related
12%
Duplication
12%
Copy number Variation
12%
Genetic Contribution
12%
Glutamatergic Synapse
12%
Patients with Schizophrenia
12%
Support Networks
12%
Calcium Dysregulation
12%
Early Brain Development
12%
Human-induced
12%
Pathogenic Process
12%
16p11.2
12%
Clustered Regularly Interspaced Short Palindromic repeats/Cas9
12%
High Genetic Risk
12%
Risk for Schizophrenia
12%
In Vitro Development
12%
Calcium Regulation
12%
Dendrite Outgrowth
12%
Dendrite Size
12%
Neuroarchitecture
12%
γ-aminobutyric
12%
Neuronal Synchrony
12%
Synapse Regulation
12%
Cellular Phenotyping
12%
Biochemistry, Genetics and Molecular Biology
Glutamatergic
100%
Coculture
100%
Genetic Risk
100%
Gene Expression Profiling
50%
Genetics
50%
Genetic Marker
50%
Induced Pluripotent Stem Cell
50%
Morphology
50%
Synapse
50%
Transcriptomics
50%
Nerve Cell Differentiation
50%
CRISPR
50%
Cas9
50%
Neuroscience
Dendrite
100%
Transcriptomics
100%
Synapse
50%
CRISPR
50%
In Vitro
50%
Stem Cell
50%
Nerve Cell Differentiation
50%
Medicine and Dentistry
Isotopes of Calcium
100%
Dendrite
33%
Genetic Risk
33%
Diseases
16%
In Vitro
16%
Nerve Cell Differentiation
16%
Pathophysiology
16%
Morphology
16%
Gene Expression Profiling
16%
Clustered Regularly Interspaced Short Palindromic Repeat
16%
Cas9
16%
Molecular Marker
16%
Transcriptomics
16%
Glutamatergic Synapse
16%
Induced Pluripotent Stem Cell
16%