This study presents valuable findings by demonstrating that specific GPCR subtypes induce distinct extracellular vesicle miRNA signatures, highlighting a potential novel mechanism for intercellular ...

This study presents a valuable comparison of the efficiency and precision of two prime editing methods to introduce single-nucleotide variants and longer exogenous DNA sequences into the zebrafish ...

The efficiencies with which activated B lymphocytes proliferate and develop into antibody (Ab)- secreting plasma cells are critical determinants of adaptive humoral immunity and central to sustaining ...

The study presents valuable theoretical insights by attempting to classify pattern-forming gene subnetworks and exploring their potential mechanisms. However, the results are incomplete, as they rely ...

Time-resolved fluorescence resonance energy transfer reveals conformational energetics of a bacterial cyclic nucleotide-gated ion channel.

This study examines a valuable question regarding the developmental trajectory of neural mechanisms supporting facial expression processing. Leveraging a rare intracranial EEG (iEEG) dataset including ...

This important study provides evidence for dynamic coupling between translation initiation and elongation that can help maintain low ribosome density and translational homeostasis. The authors combine ...

This is a valuable computational study of odor responses in the early olfactory system of insects and vertebrates. The study addresses the question of how information about odor concentration is ...

Genetic studies reveal that polyunsaturated lipids do more than simply increase the fluidity of the cell membrane.

LMO2 is an intrinsically disordered transcription factor activated in T cell leukaemia that is difficult to target. It forms part of a multiprotein complex that has bipartite DNA binding through ...

A family of proteins (OSCA/TMEM63) that encode mechanosensitive ion channels has been characterized in plants, flies, and mammals.

Computational and experimental studies show that different migration modes of eukaryotic cells are the result of the interplay between signaling waves and cell mechanics.