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Biological techniques are methods or procedures that are used to study living things. They include experimental and computational methods, approaches, protocols and tools for biological research.
The replicational age of single cells provides a temporal reference for tracking cell fate transition trajectories. The computational framework EpiTrace measures cell age using single-cell ATAC-seq data, specifically by considering chromatin accessibility at clock-like genomic loci, enabling the reconstruction of the history of developmental and pathological processes.
The oscillating electromagnetic fields that carry light can cause electrons to tunnel back and forth through a potential energy barrier. Remarkably, this alternating current can coherently emit measurable light waves — an unexpected process that can be exploited to build an optical microscope that undercuts existing spatial and temporal limitations.
Stabilization of a branch structure would intuitively suggest a direct connection between trunk and bough, but in actin filament networks, cortactin clamps the branching Arp2/3 complex to the daughter filament. This has fundamental consequences for mechanistic understanding of actin branch turnover and cortactin biology.
This protocol describes toxin activation–inhibition conjugation (TAC–TIC), a reverse genetics screening approach that can be used to identify triggers or blockers of bacterial toxin–antitoxin or phage immunity systems.
The ubiquitous second messenger c-di-GMP regulates many biological processes in bacteria, including cell cycle, motility, virulence and biofilm formation. Here, Kaczmarczyk et al. develop a c-di-GMP biosensor that enables dynamic real-time tracking of c-di-GMP levels in individual living cells.
The replicational age of single cells provides a temporal reference for tracking cell fate transition trajectories. The computational framework EpiTrace measures cell age using single-cell ATAC-seq data, specifically by considering chromatin accessibility at clock-like genomic loci, enabling the reconstruction of the history of developmental and pathological processes.
The oscillating electromagnetic fields that carry light can cause electrons to tunnel back and forth through a potential energy barrier. Remarkably, this alternating current can coherently emit measurable light waves — an unexpected process that can be exploited to build an optical microscope that undercuts existing spatial and temporal limitations.
In this Tools of the Trade article, Victor Tieu describes the development of MEGA, a platform that exploits the RNA-targeting capability of CRISPR–Cas13d and demonstrates its use to improve the anti-tumour activity of CAR T cells.
Stabilization of a branch structure would intuitively suggest a direct connection between trunk and bough, but in actin filament networks, cortactin clamps the branching Arp2/3 complex to the daughter filament. This has fundamental consequences for mechanistic understanding of actin branch turnover and cortactin biology.