Scientists at Tokyo Tech have developed a new cell-free protein crystallization (CFPC) method that is expected to advance research in structural biology. The technique will enable the analysis of ...
The new cell-free protein crystallization (CFPC) method developed by Tokyo Tech includes direct protein crystallization and is a major headway in the field of structural biology. This technique will ...
For more than two decades, the International Space Station has provided a platform for growing and studying protein crystals. In the early days of microgravity research, scientists discovered that ...
For most proteins, structure is function. The complex three-dimensional shapes that proteins adopt create folds and pockets that can accomplish the remarkably improbable: driving chemical reactions ...
An unusual protein structure known as a “rippled beta sheet,” first predicted in 1953, has now been created in the laboratory and characterized in detail using x-ray crystallography. The new findings, ...
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Protein problem: Researchers challenge fundamental assumption in evolutionary biochemistry
How did life originate? Ancient proteins may hold important clues. Every organism on Earth is made up of proteins. Although all organisms—even single-celled ones—have complex protein structures now, ...
The new cell-free protein crystallization (CFPC) method developed by Tokyo Tech includes direct protein crystallization and is a major headway in the field of structural biology. This technique will ...
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