Research from Umeå University paves the way for a quantitative data analysis method to study the cell division process in ...

Despite the significant advancements in cell culture technology, several challenges remain. One major challenge is the development of more physiologically relevant in vitro models that better ...

This article explores the transformative potential and challenges of single cell omics in advancing our understanding of ...

Cell line development plays a pivotal role in the manufacturing of therapeutic proteins, vaccines and other biologics.

Technical variability can have a significant impact on single-cell experiments, affecting the accuracy and reproducibility of ...

13 One key 3D cell culture application is disease modeling, which recreates complex disease phenotypes that cannot be accurately modeled using 2D cell culture techniques. For example, researchers can ...

Cell and tissue biology is currently in an exciting era. Techniques for analyzing cells, such as spatial biology, live-cell imaging and single-cell sequencing are advancing at a dramatic pace, ...

Here, we discuss what organoids are and how they have been developed over the years to become popular research tools. Cells in culture are vulnerable to contaminants derived from a large range of ...

Collectively, these aspects have led to research and development in the field of analytical techniques that can ... In recent times, the single-cell ICP-MS (scICP-MS) technique has been widely ...

To do this, they used a technique called single-cell RNA sequencing (scRNA-seq) to study how genes are expressed over time, ...

New AI model takes minutes rather than days to predict how a specific DNA sequence will arrange itself in the cell nucleus.