For decades, researchers have used that green fluorescent protein and similar molecules to light up the field of biology, tracking what’s happening inside cells. Now these ubiquitous tools are ...

Osaka University researchers develop methods to detect pH in vivo, and elucidate phenomena driving protein export in biological activities Osaka, Japan - Bacterial cellular membranes protrude to form ...

First-in-human study of ABBV-011, a seizure-related homolog protein 6 (SEZ6)–targeting antibody-drug conjugate, in patients with small cell lung cancer. This is an ASCO Meeting Abstract from the 2023 ...

Biotech researchers First author Gabriel Abrahams and senior author Harrison Steel are part of a team at the University of Oxford developing magneto-sensitive fluorescent proteins. (Courtesy: Olivia ...

The illustration is a summary map of the organellar pH measured with a single pH-sensitive probe, SITE-pHorin, which possesses an ultra-pH sensitivity enhanced by the quantum entanglement effect. As ...

For decades, fluorescent proteins have been among the most powerful tools in biology. They glow when illuminated, allowing scientists to see where molecules are inside cells and how they move. From ...

It has been over 60 years since Osamu Shimomura et al. discovered Green Fluorescent Protein (GFP) 1. Since then, the color palette for fluorescent proteins has been extended to span blue through to ...

Biomedical and genetic engineers at Duke University and the Albert Einstein College of Medicine have designed a small fluorescent protein that emits and absorbs light that penetrates deep into ...

This article is based on a poster originally authored by Linlin Ma, Di Shi, Tianfu Zhang, Zhicheng Dong, Spencer Chiang and Yuehchun Hsieh. Monitoring ADC internalization requires highly sensitive and ...

A fluorescent tag, commonly referred to as a label or probe, is a fluorophore that may be used to determine the distribution and quantity of a particular target biomolecule both in vitro and in vivo, ...