[click image to enlarge]
Image of bacteriophage Epsilon15 studied by Wen Jiang, an assistant professor of biological sciences at Purdue. The bacteriophage is shown at a resolution of 4.5 angstrom - the highest resolution achieved for a living organism of this size. (Graphic/Wen Jiang lab)
Image of bacteriophage Epsilon15 studied by Wen Jiang, an assistant professor of biological sciences at Purdue. The bacteriophage is shown at a resolution of 4.5 angstrom - the highest resolution achieved for a living organism of this size. (Graphic/Wen Jiang lab)
A three-dimensional image of a virus at a resolution of 4.5 angstroms
"This is one of the first projects to refine the technique to the point of near atomic-level resolution," said Jiang, who also is a member of Purdue's structural biology group. "This breaks a threshold and allows us to now see a whole new level of detail in the structure. This is the highest resolution ever achieved for a living organism of this size."
Details of the structure of a virus provide valuable information for development of disease treatments, he said.
"If we understand the system - how the virus particles assemble and how they infect a host cell - it will greatly improve our ability to design a treatment," Jiang said. "Structural biologists perform the basic science and provide information to help those working on the clinical aspects."
New technique takes a big step in examination of small structures
via: Microscopy Breakthrough: Scientists See Virus in Great Detail - Medgadget - www.medgadget.comrelated:
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