Every great discovery starts small — sometimes as small as a microRNA.
🧬 This review explores how these tiny regulators could reshape the future of Alzheimer’s, Parkinson’s, and other neurodegenerative diseases.
#Neuroscience #miRNA #Innovation @springernature.com @springer.springernature.com

🧠 In #ParkinsonsDisease, altered #microRNAs — including miR-107, miR-153, miR-205 & miR-34 — regulate key genes (SNCA, LRRK2, PINK1, PARK2) that control oxidative stress, mitochondrial health & apoptosis.
Their presence in biofluids offers hope for early, non-invasive #biomarkers
#miRNA#Neuroscience

When #miRNA regulation falters, the balance of #neurogenesis, #synaptic plasticity, and neuronal differentiation is disrupted.
These early molecular changes set off cascades that drive #neurodegeneration long before symptoms appear.
🧬 Visual summary 👇
#Neurodegeneration #miRNA #Neuroscience

MicroRNAs in neurodegenerative diseases: from molecular mechanisms to clinical biomarkers, detection methods, and therapeutic strategies 🔗 doi.org/10.1007/s100...
#Neuroscience#miRNA #Neurodegeneration #Biomarkers#MolecularBiology #TranslationalMedicine #Alzheimers#Parkinsons#ALS @springernature.com

Join our lab! 😃 We're a nice bunch. 🧠🧑‍💻🧬 #Bioinformatics #computationalbiology #systemsbiology #genomics #transcriptomics #miRNA #Alzheimers #ENDALZ #postdocjobs #sciencejobs #ScienceResearch #neuroscience

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