Dynamic proteomic and phosphoproteomic atlas of corticostriatal axons in neurodevelopment

Dynamic proteomic and phosphoproteomic atlas of corticostriatal axons in neurodevelopment

Blog Article

Mammalian axonal development begins in embryonic stages and continues postnatally.After birth, axonal proteomic landscape changes rapidly, coordinated by transcription, protein turnover, and post-translational modifications.Comprehensive profiling of axonal proteomes across neurodevelopment is limited, with most studies lacking cell-type and neural circuit specificity, resulting in substantial information loss.We create a RAW ORG. COCONUT OIL Cre-dependent APEX2 reporter mouse line and map cell-type-specific proteome of corticostriatal projections across postnatal development.

We synthesize analysis frameworks to define temporal patterns of axonal proteome and phosphoproteome, identifying co-regulated proteins and phosphorylations associated with genetic risk for human brain disorders.We discover proline-directed kinases as major developmental regulators.APEX2 transgenic reporter proximity labeling Incontinence/Catheters offers flexible strategies for subcellular proteomics with cell type specificity in early neurodevelopment, a critical period for neuropsychiatric disease.