Rapid folding of nascent RNA regulates eukaryotic RNA biogenesis.

An RNA's catalytic, regulatory, or coding potential depends on RNA structure formation. Because base pairing occurs during transcription, early structural states can govern RNA processing events and dictate the formation of functional conformations. These co-transcriptional states remain unknown.

Identification of coilin interactors reveals coordinated control of Cajal body number and structure.

The cell nucleus contains distinct biomolecular condensates that form at specific genetic loci, organize chromosomes in 3D space, and regulate RNA processing. Among these, Cajal bodies (CBs) require key "scaffolding" proteins for their assembly, which is not fully understood. Here, we employ proximity biotinylation, mass spectrometry, and functional screening to comprehensively identify and test the functions of CB components.

Longitudinal analyses of infants' microbiome and metabolome reveal microbes and metabolites with seemingly coordinated dynamics.

Population studies have shown that the infant's microbiome and metabolome undergo significant changes in early childhood. However, no previous study has investigated how diverse these changes are across subjects and whether the subject-specific dynamics of some microbes correlate with the over-time dynamics of specific metabolites. Using mixed-effects models, and data from the ABC study, we investigated the early childhood dynamics of fecal microbiome and metabolome and identified 83 amplicon sequence variants (ASVs) and 753 metabolites with seemingly coordinated trajectories.

Steering research on mRNA splicing in cancer towards clinical translation.

Splicing factors are affected by recurrent somatic mutations and copy number variations in several types of haematologic and solid malignancies, which is often seen as prima facie evidence that splicing aberrations can drive cancer initiation and progression. However, numerous spliceosome components also 'moonlight' in DNA repair and other cellular processes, making their precise role in cancer difficult to pinpoint. Still, few would deny that dysregulated mRNA splicing is a pervasive feature of most cancers.

Emerging and re-emerging themes in co-transcriptional pre-mRNA splicing.

Proper gene expression requires the collaborative effort of multiple macromolecular machines to produce functional messenger RNA. As RNA polymerase II (RNA Pol II) transcribes DNA, the nascent pre-messenger RNA is heavily modified by other complexes such as 5' capping enzymes, the spliceosome, the cleavage, and polyadenylation machinery as well as RNA-modifying/editing enzymes. Recent evidence has demonstrated that pre-mRNA splicing and 3' end cleavage can occur on similar timescales as transcription and significantly cross-regulate.