The autism-associated MET receptor tyrosine kinase engages early neuronal growth mechanism and controls glutamatergic circuits development in the forebrain

Keyphrases

• Autism 100%
• Growth Mechanism 100%
• Growth Control 100%
• Forebrain 100%
• Glutamatergic 100%
• Circuit Development 100%
• Receptor Tyrosine Kinase 100%
• Neuronal Growth 100%
• MET Signaling 100%
• Autism Spectrum Disorder 60%
• Glutamatergic Synapse 40%
• Functional Maturation 40%
• Brain Development 20%
• Genetic Ablation 20%
• Dysregulated 20%
• Structural Integrity 20%
• Small GTPase 20%
• Embryogenesis 20%
• Dendritic Spines 20%
• Circuit Function 20%
• Local Circuits 20%
• Neurological Symptoms 20%
• Cdc42 20%
• Pathological Changes 20%
• Neurodevelopmental 20%
• Cortical Circuits 20%
• Projection Neurons 20%
• Cellular Events 20%
• Early Developmental Stages 20%
• Functional Integrity 20%
• Dendritic Arborization 20%
• Neuronal Morphology 20%
• Developing Neurons 20%
• Axonal Growth Cone 20%
• Spine Formation 20%
• MET Protein Expression 20%
• Synapse Maturation 20%
• MET Gene 20%
• Dorsal Pallium 20%
• Circuit Connectivity 20%

Neuroscience

• Pervasive Developmental Disorder 100%
• Receptor Tyrosine Kinase 100%
• Scatter Factor Receptor 100%
• Synapse 50%
• In Vivo 25%
• Brain Development 25%
• Protein Expression 25%
• Growth Cone 25%
• GTPase 25%