The overall process for developing and manufacturing vaccines and cell and gene therapies (CGTs) is challenging and resource intensive because it involves complex and variable raw materials, demanding ...

A research team led by Prof. Xu Pingyong from the Institute of Biophysics of the Chinese Academy of Sciences has developed an innovative approach to visualize and rapidly screen small peptide knockins ...

Cell-to-cell communication through nanosized particles, working as messengers and carriers, can now be analyzed in a whole new way, thanks to a new method involving CRISPR gene-editing technology. The ...

A cell’s morphology comprises vast amounts of information on cell health and differentiation state and yields insight into cell phenotype. Biologists utilize this information on a daily basis to aid ...

Age is the single greatest risk factor for neurodegenerative disease, yet the cellular mechanisms that drive age-related protein accumulation in the brain remain incompletely understood. In this ...

Profiling the proteins that cells are making is a staple of studies in biology, neuroscience and related fields because the proteins a cell is expressing at a given moment can reflect the functions ...

Cells contain a wealth of information about health and disease, but extracting that data reliably from microscope images remains a major challenge. Many important differences between healthy and ...

The unit offers a wide range of applications due to its combination of high throughput, high-resolution imaging, and phenotypic screening, which are made possible by its proprietary Yokogawa ...

CRISPR gRNA is used to knock out specific genes in cells, which is barcoded into the sEVs they release. By analyzing the barcodes in the sEVs and cells, researchers can better understand the factors ...