132 - character summary: PNNL - led
researchers coat protein - like molecules on solid surfaces in highly ordered manner, paving way for biomedical applications.
Not exact matches
Researchers from several institutions, including, UCLA, Boston University, Stanford University and the Institute for Aging Research at Hebrew SeniorLife, analyzed blood samples from nearly 10,000 people to find that genetic markers in the gene responsible for keeping telomeres (tips of chromosomes) youthfully longer, did not translate into a younger biologic age as measured by changes in
proteins coating the DNA.
While
researchers have known the atomic structures of the
protein that
coats the viral RNA, there are no data on
protein L's atomic structure.
In a next step the
researchers hid the virus under a novel
protein coat, which serves as camouflage for the virus and which protects it from the immune system.
So the
researchers turned to a machine made by Quanterix of Lexington, Massachusetts, that uses magnetic beads
coated by an antibody that binds selectively and extremely tightly to the
protein in the blood.
The
researchers have studied analyses of the genetic material of viruses found in newly infected people and, in particular, the gene env, which codes for the
protein envelope or «
coat» around the virus.
The
researchers have
coated DNA nanostructures with virus capsid
proteins in order to significantly improve their transport to human cells; this could find uses for example in enhanced drug delivery.
Researchers at
Protein Sciences Corporation, a small biotech in Meriden, Connecticut, genetically modified a virus that infects caterpillar cells to produces hemagglutinin, a coat protein of the influenza virus that triggers anti
Protein Sciences Corporation, a small biotech in Meriden, Connecticut, genetically modified a virus that infects caterpillar cells to produces hemagglutinin, a
coat protein of the influenza virus that triggers anti
protein of the influenza virus that triggers antibodies.
Researchers at Karolinska Institutet in Sweden have obtained the first 3D snapshots of a sperm
protein attached to a complementary egg
coat protein at the beginning of fertilisation.
To detect this sort of enzyme, the
researchers designed nanoparticles
coated with small
protein fragments called peptides that can be cleaved by particular proteases called MMPs.
1990 - 92 — Robert Rose and other Rochester
researchers build a
protein coat that mimics the shape of an HPV envelope without any viral DNA inside.
Instead of
coating the nanoparticles with polyethylene glycol, the
researchers covered them with a bacterial
protein called streptavidin.
In the study, funded by the Biotechnology & Biological Sciences Research Council and the Royal Society,
researchers worked out the structure of a
protein that helps assemble this sugar
coating using X-rays.
Using other
researchers» data on the 3D structure of a
protein coating from a closely related virus, they wrote a computer program to sharpen that image.
Already,
researchers have packaged cancer - fighting drugs into nanoparticles
coated with part of a rabies surface
protein that lets the virus slip into the central nervous system.
The
researchers observed that the loss of centriole
coating is triggered by the loss of an important centriole regulator, the polo kinase
protein.