Fine-tuning cellular physiology in response to intracellular and environmental cues requires
precise temporal and spatial control of gene expression. High-resolution imaging …

The localization of mRNAs to subcellular compartments provides a mechanism for
regulating gene expression with exquisite temporal and spatial control. Recent studies …

Coupling of structure-specific in vivo chemical modification to next-generation sequencing is
transforming RNA secondary structure studies in living cells. The dominant strategy for …

RNA has a dual role as an informational molecule and a direct effector of biological tasks.
The latter function is enabled by RNA's ability to adopt complex secondary and tertiary folds …

The transport of mRNAs to distal subcellular compartments is an important component of
spatial gene expression control in neurons. However, the mechanisms that control mRNA …

The subcellular position of a protein is a key determinant of its function. Mounting evidence
indicates that RNA localization, where specific mRNAs are transported subcellularly and …

Abstract mRNA localization is a common mechanism for targeting proteins to regions of the
cell where they are required. It has an essential role in localizing cytoplasmic determinants …

Cytoplasmic messenger RNA localization is a key post-transcriptional mechanism of
establishing spatially restricted protein synthesis. The characterization of cis-acting signals …

BEL1-like transcription factors interact with Knotted1 types to regulate numerous
developmental processes. In potato (Solanum tuberosum), the BEL1 transcription factor St …

Localization of RNA is a widespread and efficient way to target gene products to a specific
region of a cell or embryo. This strategy of posttranscriptional gene regulation utilizes a …