Researchers recently developed a bone marrow model to study how the body generates cells. Interestingly, this model is the first of its kind to be developed entirely from human cells. Not only can ...

An international team of researchers led by Max Delbrück Center Scientific Director Professor Maike Sander, MD, has for the first time developed an organoid model of human pluripotent stem ...

aProximate TM is an advanced in vitro model of kidney proximal tubule cells (PTCs) that closely mimics physiological conditions. Derived from fresh human kidney tissue, aProximate TM PTCs are cultured ...

Single-cell RNA sequencing has transformed biology by showing which genes are active in individual cells. However, this approach requires cells to be removed from their natural environment, erasing ...

In a recent study, Associate Professor Makoto Ikeya (Department of Clinical Application) and his team of researchers successfully established a method to generate jawbone-like organoids (mini-organs) ...

A vascularized organoid model of hormone-secreting cells in the pancreas has been developed, with potential to improve diabetes research and cell-based therapies. “Our results highlight the importance ...

Identifying and delineating cell structures in microscopy images is crucial for understanding the complex processes of life. This task is called "segmentation" and it enables a range of applications, ...

Studying the cell is a difficult and time-consuming process, but scientists have pinpointed generative AI as a potential way to make it easier. The idea is to develop an AI virtual cell that would ...

When a cell divides, it performs a feat of microscopic choreography—duplicating its DNA and depositing it into two new cells.