Research Keyword: crystallography

Exploring the potential of a bioassembler for protein crystallization in space

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Scientists successfully grew high-quality protein crystals in space using an innovative magnetic bioassembler device. By taking advantage of the weightless environment aboard the International Space Station, they were able to grow protein crystals with excellent structural quality that matched or exceeded Earth-based methods. This breakthrough demonstrates that space-based protein crystallization could help scientists better understand protein structures and potentially accelerate drug development.

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Norpsilocin: freebase and fumarate salt

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Researchers determined the crystal structures of norpsilocin, a naturally occurring compound found in magic mushrooms that is chemically similar to psilocin. This work is important because norpsilocin appears to be as potent as psilocin at serotonin receptors and may contribute to the therapeutic effects of magic mushroom extracts. By obtaining pure crystalline forms and understanding the compound’s structure, scientists can better study its properties and potential medical applications for treating conditions like depression and anxiety.

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If you cannot see it, is it still there? – Ensemble refinement of invisible protein segments

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Scientists studying protein structures using X-ray crystallography often face a problem: flexible parts of proteins don’t show up clearly in their images and get left out of molecular models. This paper demonstrates a new technique called ensemble refinement that can visualize these ‘invisible’ flexible regions by creating multiple model versions simultaneously. Using a mushroom enzyme that produces psilocybin as an example, researchers show that this approach reveals how protein parts actually move and change shape, providing better understanding of how proteins function.

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