RNA Probes for Visualization of Sarcin/ricin Loop Depurination without Background Fluorescence.

Protein synthesis via ribosomes is a fundamental process in all known living organisms. However, it can be completely stalled by removing a single nucleobase (depurination) at the sarcin/ricin loop of the ribosomal RNA. In this work, we describe the preparation and optimization process of a fluorescent probe that can be used to visualize depurination.

Inactivation of Competitive Decay Channels Leads to Enhanced Coumarin Photochemistry.

In the development of photolabile protecting groups, it is of high interest to selectively modify photochemical properties with structural changes as simple as possible. In this work, knowledge of fluorophore optimization was adopted and used to design new coumarin- based photocages. Photolysis efficiency was selectively modulated by inactivating competitive decay channels, such as twisted intramolecular charge transfer (TICT) or hydrogen-bonding, and the photolytic release of the neurotransmitter serotonin was demonstrated.

Visible light-activatable Q-dye molecular beacons for long-term mRNA monitoring in neurons.

Herein, we present a new class of Q-dye molecular beacons (MBs) that can be locally activated with visible light in hippocampal neurons. Our novel architecture increases the available monitoring time for neuronal mRNA from several minutes to 14 hours, since a lower light-sampling rate is required for tracking.

Differential regulation of local mRNA dynamics and translation following long-term potentiation and depression.

Decades of work have demonstrated that messenger RNAs (mRNAs) are localized and translated within neuronal dendrites and axons to provide proteins for remodeling and maintaining growth cones or synapses. It remains unknown, however, whether specific forms of plasticity differentially regulate the dynamics and translation of individual mRNA species. To address this, we targeted three individual synaptically localized mRNAs, , , and used molecular beacons to track endogenous mRNA movements.

Photo-tethered molecular beacons for superior light-induction.

We developed a superior class of light-activatable molecular beacons with photo-tethered loop regions. Two simple modifications and probe cyclisation prevent the molecular beacon from hybridising with the target RNA before light-activation. Full activity of the molecular beacon is elicited upon illumination with 365 nm light.