Abstract: The CRISPR-Cas9 gene editing, based on a bacterial immune mechanism, offers precise DNA editing techniques for gene therapy, disease treatment, and improved agricultural crops. This paper ...

Bioinformatics is one of the most important and rapidly growing fields in life sciences. It combines biology, computer science, and data analysis to help scientists understand complex biological ...

Single-cell multi-omics technologies allow a profound system-level biology understanding of cells and tissues. However, an integrative and possibly systems-based analysis capturing the different ...

A computational method called scSurv, developed by researchers at Institute of Science Tokyo, links individual cells to patient outcomes using widely available bulk RNA sequencing data. The approach ...

The discovery of catalytic RNA transformed our understanding of life’s beginnings. Clare Sansom explores how the RNA world hypothesis bridges the gap between non-living chemistry and the first cells ...

In recent years, the volume of data in life sciences, drug discovery, and medical research has increased explosively. In particular, "omics data," such as next-generation sequencing (NGS) data, is no ...

Recent developments in medicine and biotechnology have revealed the transformative power of RNA design. To realize the full potential of RNA nanotechnology and RNA origami, user-friendly design tools ...

We are living in an era where biology has become synonymous with big data due to the ever-increasing amount of data being generated by technologies such as next-generation sequencing. Bioinformatics ...

Creative Commons (CC): This is a Creative Commons license. Attribution (BY): Credit must be given to the creator. Non-Commercial (NC): Only non-commercial uses of the work are permitted. RNA–protein ...

The field of bioinformatics has evolved rapidly over the past decade, fueled by the explosion of data generated from high-throughput technologies like next-generation sequencing (NGS). As the volume ...