Johns Hopkins researchers identify energy-generating waves on cancer cell membranes, revealing potential targets for slowing ...

This new article publication from Acta Pharmaceutica Sinica B, discusses how ALKBH3-regulated m1A of ALDOA potentiates ...

Scientists at MIT have turbocharged one of nature’s most sluggish but essential enzymes—rubisco—by applying a cutting-edge ...

Leiden researchers have discovered an enzyme that helps bacteria feed on everyday plastics. This common enzyme could play a ...

University of Cincinnati Cancer Center researchers looked billions of years into the past to learn more about the potential ...

Model: Enrichment of glycolytic enzymes in self-organized glycolytic/F-actin waves enhance local glycolysis to provide energy for new wave formation, cell migration and other cellular processes.

"The increased presence of these glycolytic waves drives more ATP production from glycolysis in cancer cells, and that leads to enhanced reliance on glycolysis for energy," Zhan says.

Key findings: Energy-generating waves on the membranes of cancer cells may help to fuel disease progression. Disrupting the process could slow or halt cancer metastasis. Higher levels of the enzymatic ...

Light-harvesting 2 (LH2) antenna complexes augment the collection of solar energy in many phototrophic bacteria. Despite its frequent role as a model for such complexes, there has been no ...