A combination of spatial proteomic and autophagic flux approaches was used to reveal the landscape of turnover of damaged lysosomes, demonstrating a key role for the autophagy receptor TAX1BP1 and its associated kinase TBK1 in both HeLa cells and iNeurons.
Functional analyses of in vitro fertilized, preimplanation human embryos reveal that the first lineage segregation depends on cell polarization signaling that is regulated by Phospholipase C (PLC) activity.
Maintenance of peripheral myonuclei patterning in skeletal myofibers is dependent on the regulation of microtubules dynamic and nuclei motion and is essential for proper neuromuscular junction integrity and mitochondria homeostasis.
Time-resolved transition metal ion fluorescence resonance energy transfer using a fluorescent, noncanonical amino acid donor and metal ion acceptor measures distances and distance distributions in proteins, allowing the equilibrium distributions among conformational states to be accurately determined.
Neuronal activity triggers the dispersal of the Golgi into dendritic Golgi satellites, leading to reshaping of the neuronal surface glycoproteome through processing of glycans to mature, sialic acid-containing forms.
RNAseq and ATACseq are utilized to identify transcription factors participating in striatal compartmentation into striosome and matrix, and roles for Stat1, Olig2, and Foxf2 are validated in vitro and in vivo.
Pembrolizumab activates innate immune metabolism and function in primary human non-small cell lung cancer, whereas Pembrolizumab and beta-glucan synergize in enhancing immune metabolism and tumoridical action in brain-metastasized lung cancer.