Harmful environmental DNA (eDNA) contamination in water poses significant health risks, yet traditional treatments fall short of achieving efficient removal. Here, we introduce 1MIA-Zr, a bioinspired infinite coordination polymer catalyst modeled after natural nucleases. 1MIA-Zr achieves a DNA hydrolysis rate approximately 40 times greater than that of UiO-66 REO, the previous best zirconium-based catalyst. It induced a V-shaped cavity similar to the binding domain of natural nucleases and reduced the transition-state energy barrier, enabling it to mimic the natural nucleases' two-step attack, addressing the limitations of prior catalysts. We demonstrate two practical applications of 1MIA-Zr for purifying eDNA-contaminated water: as a water treatment agent and in a portable filtration device. Both methods achieved exceptional removal efficiencies, exceeding 99% for antibiotic resistance genes and over 96% for diverse viral DNAs, including HBV, HPV, MERS-CoV, SARS-CoV-2, Ebola, and Zika. This study establishes 1MIA-Zr as a transformative solution for addressing harmful eDNA contamination, offering a sustainable pathway for the production of clean, healthy water.
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