A new study led by Colorado State University Distinguished Professor Eugene Chen outlines a path to creating advanced, ...

This macromolecule has key factors that are crucial in fighting viruses. First, it’s able to attract viruses towards itself using electrostatic charges. Once the virus is close, ...

These patterns of macromolecule production timing during the cell cycle are relevant contributions, said Nicolas Buchler, a biophysicist at the North Carolina State University who was not involved in ...

The macromolecule is a polymer engineered to be anti-viral Velcro and it deals with a virus in three ways. One, it attracts viruses to it directly, by bonding with them.

If you are on the brink of a crystallization nervous breakdown (or if you want to avoid such a state), visit the Biological Macromolecule Crystallization Database. This is your one-stop shop for ...

Star-shaped macromolecule grabs large anions Date: June 16, 2013 Source: Indiana University Summary: Chemists have created a symmetrical, five-sided macrocycle that is easy to synthesize and has ...

The macromolecule works by essentially hitching itself to the enzymes that bacteria modify when they are treated using antibiotics, but not completely eliminated.

Interaction with macromolecules affects the environmental availability of a micropollutant. With solid-phase microextraction of radiolabeled micropollutants, the partition coefficient can be ...

The macromolecule was tested on a range of viruses, including Ebola, influenza, Marburg and Enterovirus 71. In early results, the viruses have shown no sign of developing resistance.

Back in 1999, Arndt and his colleagues published a study that demonstrated wave-particle duality in fullerene molecules (C60), which is a macromolecule with a atomic mass of 721. This time, the ...