Publications by authors named "J J Shine"
Autosomal Dominant Polycystic Kidney Disease (ADPKD) results in progressive cysts that lead to kidney failure, and is caused by heterozygous germline variants in PKD1 or PKD2. Cyst pathogenesis is not definitively understood. Somatic second-hit mutations have been implicated in cyst pathogenesis, though technical sequencing challenges have limited investigation.
View Article and Find Full Text PDFOsteoarthritis affects millions worldwide, yet effective treatments remain elusive due to poorly understood molecular mechanisms. While genome-wide association studies (GWAS) have identified over 100 OA-associated loci, identifying the genes impacted at each locus remains challenging. Several studies have mapped expression quantitative trait loci (eQTL) in chondrocytes and colocalized them with OA GWAS variants to identify putative OA risk genes; however, the degree to which genetic variants influence OA risk via alternative splicing has not been explored.
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- Brain activity differs depending on the resolution of recordings, revealing unique patterns of neural coding.
- Researchers found that a complex, multiscale organization of neuronal activity in various species (like zebrafish and mice) supports these distinct patterns and improves information processing.
- Despite changes in how cells coordinate during behavior, this hierarchical organization remains consistent, suggesting a universal principle that connects behavior with neural activity across different scales while ensuring efficiency and resilience.
The brainstem is a fundamental component of the central nervous system, yet it is typically excluded from in vivo human brain mapping efforts, precluding a complete understanding of how the brainstem influences cortical function. In this study, we used high-resolution 7-Tesla functional magnetic resonance imaging to derive a functional connectome encompassing cortex and 58 brainstem nuclei spanning the midbrain, pons and medulla. We identified a compact set of integrative hubs in the brainstem with widespread connectivity with cerebral cortex.
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- Acetylcholine (ACh) is important for quick brain-state changes during wakefulness, but how it behaves spatially and temporally during these changes is not fully understood.
- Researchers used advanced imaging techniques to study the relationship between ACh release and behavior, finding a strong connection between ACh activity and movements like locomotion and pupil dilation.
- By analyzing ACh sensor data, the study showed that ACh levels drop with increased distance from axons and created a model to predict ACh changes based on pupil size and running speed, enhancing our understanding of ACh dynamics during rapid brain transitions.