Understanding how cells transform into specialized types during human development is a central challenge in biology. This complex process, known as cell differentiation, holds the key to understanding ...

Exploring the differentiation of iPSC to trunk tenocytes and how the single-cell RNA sequencing and pathway analysis can assist in making it more specific.

Programmable recombinases let one cell produce multiple fates in preset ratios, enabling controlled division of labor, tunable traits, and engineered multicellular systems. (Nanowerk News) Cellular ...

Experiments and mathematical modelling show cell fate in Dictyostelium discoideum partly depends on cell-cycle phase, but also on stochastic gene-expression variability which enhances robustness of ...

Stem cells are the original cell type from which all other cells and tissues in the body develop through a very tightly regulated process. However, how stem cells differentiate in addition to ...

MIAMI, FLORIDA (AUG. 7, 2025) – Researchers at Sylvester Comprehensive Cancer Center, part of the University of Miami Miller School of Medicine, have documented their use of a new RNA sequencing ...

The sugar glucose, which is the main source of energy in almost every living cell, has been revealed in a Stanford Medicine study to also be a master regulator of tissue differentiation - the process ...

The research team led by Professor Zhongyu Xie from Sun Yat-sen University revealed a new mechanism by which Pim1 regulated ...

New analysis suite helps cell engineering teams benchmark target identity, detect off-target states, and prioritize protocol improvements ...

Glucose is life's main energy source. But a new study reveals a surprising role as a master manipulator of tissue maturation, hinting at its importance in diabetes and cancer. The sugar glucose, which ...