Browse our Research Articles

Exosome-associated THSD7A is identified as a key trigger of filopodia formation in cancer cells and neurons, revealing a novel pathway with implications for metastasis, neuronal connectivity, and other filopodia-dependent processes.

Bioinformatics, RNA-protein interactions, and HuR-based functional studies demonstrated that the rs13900T allele modulates CCL2 transcript levels, providing a functional link between the CCL2 rs1024611G-rs13900T haplotype and disease susceptibility/progression.

Prefoldin 5 stabilises neuronal microtubules and suppresses Tau-mediated neurotoxicity, offering a potential therapeutic target for tauopathies.

A new CRISPR-based approach for tuning gene expression up and down allowed identification of how other genes' expression responds to changes of transcription factors.

CDK2-mediated TBK1 degradation via Dtx4 represents a previously unrecognized regulatory mechanism that modulates antiviral immunity in fish.

Multiomics and biochemical studies reveal that excess ATP levels, and not ROS, is the dominant driver for antibiotic cidality in Mycobacterium smegmatis.

Transcriptomic and genomic mutations reveal the mechanistic basis of timing seasonal life history transitions.

A large-scale investigation of carnivoran brain diversity, providing a unified description of folding patterns, their relationship to behaviour and ecology, and the foundation for future investigations of carnivoran neuroecology.

Estrogens produced in the teleost brain increase neural sensitivity to testicular androgens by directly stimulating androgen receptor transcription, thereby eliciting male-typical behaviors.

Synthetic ribbon-type active zones are reconstituted in cultured cells using a minimal set of proteins that partially mimic structural and functional features of cochlear inner hair cell active zones.