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2023

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Christopher Maffeo, Lauren Quednau, James Wilson, and Aleksei Aksimentiev. "DNA double helix, a tiny electromotor." Nature Nanotechnology 18:238-242 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

Prabhat Tripathi, Behzad Mehrafrooz, Aleksei Aksimentiev, Sophie E. Jackson, Martin Gruebele, and Meni Wanunu. "A Marcus-Type Inverted Region in the Translocation Kinetics of a Knotted Protein." The Journal of Physical Chemistry Letters 14:10719-10726 (2023).

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