MicroRNAs interact with proteins from the Argonaute family to degrade messenger RNA, "but because there are no Argonaute proteins in this yeast species, something else is happening and the ...

RNA breaks destined for repair are inflicted by sequence-specific ... where a single multifunctional tRNA ligase enzyme (Trl1 in yeast; AtRNL in Arabidopsis) repairs the ends of the broken tRNA ...

Yeast RNA, in contrast, does not precipitate at either ionic strength, as shown in Figure 2. As practical applications will usually involve at least a modest ionic strength, the concentration of ...

Using single-cell RNA sequencing, we mapped thousands of expression quantitative trait loci in yeast, including a variant in GPA1 that influences gene expression, cell-cycle occupancy, and mating ...

Ribosomal translation is the process by which cells synthesize proteins based on the genetic instructions encoded in messenger RNA. It is essential ... known as Brewer's yeast—at near-atomic ...

but little is known about the fidelity of transcriptional initiation by RNA polymerase II in vivo. I suggest that ∼90% of Pol II initiation events in yeast represent transcriptional noise ...

Now, FMI researchers have made significant progress in uncovering how transcription factors—proteins that control gene expression—work in fission yeast, a key model organism for studying gene ...

RNA splicing is a cellular process that is critical ... is more complicated than it is in some model organisms like yeast, even though it's a very conserved molecular process.

Uracil forms hydrogen bonds with adenine in RNA, contributing to the molecule's structure and function. (Image: Public Domain) Uracil was first discovered in 1900 by the Italian chemist Alberto Ascoli ...

MicroRNAs interact with proteins from the Argonaute family to degrade messenger RNA, “but because there are no Argonaute proteins in this yeast species, something else is happening and the ...