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Bacterial protein reveals a hidden rule for controlling calcium
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Bacterial protein reveals a hidden rule for controlling calcium

Researchers discovered that a bacterial membrane protein, BsYetJ, uses two distinct 'clasps' to regulate calcium flow based on acidity levels. Published in the Proceedings of the National Academy of Sciences, the study explains how protons alter the structure of these clasps, influencing both the frequency and efficiency of calcium passage through the protein. The findings highlight the role of electrostatic interactions in cellular signaling and could have implications for understanding calcium regulation in human cells. The research used artificial lipid membranes and targeted amino acid modifications to observe the protein's behavior under varying pH conditions.

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Phys.org logoPhys.orgNeodvisenSredinaDejstva 95Objektivnost 98pred 20 urami
Bacterial protein reveals a hidden rule for controlling calcium

Researchers discovered that a bacterial membrane protein, BsYetJ, uses two distinct 'clasps' to regulate calcium flow based on acidity levels. Published in the Proceedings of the National Academy of Sciences, the study explains how protons alter the structure of these clasps, influencing both the frequency and efficiency of calcium passage through the protein. The findings highlight the role of electrostatic interactions in cellular signaling and could have implications for understanding calcium regulation in human cells. The research used artificial lipid membranes and targeted amino acid modifications to observe the protein's behavior under varying pH conditions.

Ocena pristranskosti (Sredina): This article presents scientific research without political commentary or advocacy. The focus is on biological mechanisms and experimental methodology, making it apolitical in nature.

Zakaj te ocene (Dejstva 95 · Objektivnost 98): The article accurately summarizes the research findings from the Science X Dialog entry, correctly representing the role of protons and the BsYetJ protein in calcium regulation. It provides clear context about calcium's cellular functions and the significance of the TMBIM family. The language remain

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