Researchers introduce RhoFold+, a groundbreaking deep learning model that predicts RNA 3D structures with unprecedented accuracy and efficiency, addressing critical challenges in structural biology.

As RNA shapes in individual cells can vary and drive different functions, studying the collective RNA shapes in many cells may overlook the individual variability in both RNA structure and function.

Explore cytosine, a fundamental base in DNA and RNA, its critical role in gene regulation and epigenetics, and its significance in biotechnology and genetic diseases.

The understanding of how RNA structure affects RNA function and the ability to engineer plant genomes at the RNA cellular level, increases the possibility of designing crop types with more ...

Researchers at the Regensburg Center for Biochemistry (RCB) and the Regensburg Center for Ultrafast Nanoscopy (RUN) at the ...

RNA molecules perform essential cellular functions including gene regulation, protein synthesis, and genome defense. These diverse biochemical activities frequently depend on RNA secondary and ...

Atomic AI’s ATOM-1 large language model (LLM) demonstrates state-of-the-art accuracy for predicting RNA structure and function Technology can be exploited to evaluate and optimize key features ...

The potential of utilizing RNA helixes in a molecular lever system could be harnessed to develop innovative antibacterial medications.

A study from Würzburg reveals that pox viruses have developed a unique strategy to rapidly multiply after infecting a host ...

An organic sulfur compound known as a thioester spontaneously catalyzing the binding of RNA to amino acids may be where it ...