During parasitoid wasp infection, activated immune cells of Drosophila melanogaster larvae release adenosine to conserve nutrients for immune response. S-adenosylmethionine (SAM) is a methyl group ...
Measuring mitochondrial respiration in frozen tissue samples provides the first comprehensive atlas of how aging affects mitochondrial function in mice.
Laser-stimulated fluorescence (LSF) imaging of early pterosaurs uncovers new soft tissue data of tail vane that reveals sophisticated, dynamic tensioning usage and expands its evolutionary origins.
RNA-targeting compounds or small interfering RNAs (siRNAs) offer a potent means for controlling viral infections. An essential prerequisite to their design depends on identifying conserved and ...
Analysis of genome-wide spatial transcriptomics data reveals cell-type specific subcellular RNA localization, and a subset of genes show significantly high correlation between spatial patterning and 3 ...
This paper presents the important discovery that lipid metabolic imbalance caused by Snail, an EMT-related transcription factor, contributes to the acquisition of chemoresistance in cancer cells.
In this manuscript, Yao et al. present solid evidence to show that MnMYL3 may serve as a receptor for NNV via macropinocytosis. This manuscript is valuable for understanding the molecular mechanisms ...
RiboD-PETRI, a cost-effective, equipment-free plate-based scRNA-seq technique that integrates a unique bacterial rRNA depletion protocol, significantly enhancing mRNA detection rate and revealing ...
Titin’s regulated integration and mobility after cell fusion support syncytium formation in culture, while limited diffusion in vivo highlights a key challenge for developing effective cell-based ...
During clathrin-mediated endocytosis, a patch of flat plasma membrane is internalized to form a vesicle. In mammalian cells, how the clathrin coat deforms the membrane into a vesicle remains unclear ...
A mathematical model shows that mutations that recur even modestly among cancer patients are cancer driving nucleotides that can be exhaustively identified to serve as targets of cancer therapy.
Fully incorporating our current understanding of vestibular neurophysiology into prosthesis design and clinical application will be integral to the development of the next generation of vestibular ...