Gallium in liquid state shows nuclease-mimicking activity
Gallium in liquid state shows nuclease-mimicking activity
Replicating biological systems using non-living materials, from the foundational molecular level to complex tissue structures, is central to abiotic mimicry. Enzymes play a vital role in these systems; however, replicating their enzymatic power with minimal components remains a key challenge. Here we show that gallium in the liquid state exhibits nuclease-like activity with preferred cleaving sites. The mechanism involves nucleotide-biased adsorption and hydroxyl radical-assisted phosphodiester hydrolysis. Compared with previously reported artificial metallonucleases, the liquid gallium uniquely integrates its oxide layer for substrate adsorption and its metallic core with electrons as a cleavage active center, forming a ligand- and cofactor-free artificial nuclease platform. Moreover, their activity is tunable through synthesis parameters and external stimuli, enabling programmable control with spatial or temporal precision. This work presents a minimalistic yet functional approach to enzyme mimicry, expanding the design space for abiotic enzymatic systems and offering potential opportunities in therapeutic applications, synthetic biology, and biomaterials.
Liu, Li
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Zheng, Jiewei
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Lu, Xi
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Sarowar, Chowdhury
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Wang, Yuqin
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Smith, Martin A
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Wang, Xin
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Deng, Fei
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Mohanty, Biswaranjan
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Nor-Azman, Nur-Adania
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Zhang, Fusheng
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Chiu, Shih-Hao
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Torrado, Mario
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Li, Yi
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Tang, Shi-Yang
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Tang, Jianbo
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Spencer, Michelle J S
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Kumar, Priyank V
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Kalantar-Zadeh, Kourosh
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Zhang, Chengchen
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Liu, Li
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Zheng, Jiewei
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Lu, Xi
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Sarowar, Chowdhury
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Wang, Yuqin
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Smith, Martin A
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Wang, Xin
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Deng, Fei
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Mohanty, Biswaranjan
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Nor-Azman, Nur-Adania
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Zhang, Fusheng
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Chiu, Shih-Hao
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Torrado, Mario
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Li, Yi
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Tang, Shi-Yang
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Tang, Jianbo
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Spencer, Michelle J S
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Kumar, Priyank V
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Kalantar-Zadeh, Kourosh
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Zhang, Chengchen
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Liu, Li, Zheng, Jiewei, Lu, Xi, Sarowar, Chowdhury, Wang, Yuqin, Smith, Martin A, Wang, Xin, Deng, Fei, Mohanty, Biswaranjan, Nor-Azman, Nur-Adania, Zhang, Fusheng, Chiu, Shih-Hao, Torrado, Mario, Li, Yi, Tang, Shi-Yang, Tang, Jianbo, Spencer, Michelle J S, Kumar, Priyank V, Kalantar-Zadeh, Kourosh and Zhang, Chengchen
(2026)
Gallium in liquid state shows nuclease-mimicking activity.
Nature Communications.
(doi:10.1038/s41467-026-71346-7).
Abstract
Replicating biological systems using non-living materials, from the foundational molecular level to complex tissue structures, is central to abiotic mimicry. Enzymes play a vital role in these systems; however, replicating their enzymatic power with minimal components remains a key challenge. Here we show that gallium in the liquid state exhibits nuclease-like activity with preferred cleaving sites. The mechanism involves nucleotide-biased adsorption and hydroxyl radical-assisted phosphodiester hydrolysis. Compared with previously reported artificial metallonucleases, the liquid gallium uniquely integrates its oxide layer for substrate adsorption and its metallic core with electrons as a cleavage active center, forming a ligand- and cofactor-free artificial nuclease platform. Moreover, their activity is tunable through synthesis parameters and external stimuli, enabling programmable control with spatial or temporal precision. This work presents a minimalistic yet functional approach to enzyme mimicry, expanding the design space for abiotic enzymatic systems and offering potential opportunities in therapeutic applications, synthetic biology, and biomaterials.
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s41467-026-71346-7_reference
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Accepted/In Press date: 20 March 2026
e-pub ahead of print date: 10 April 2026
Identifiers
Local EPrints ID: 511388
URI: http://eprints.soton.ac.uk/id/eprint/511388
ISSN: 2041-1723
PURE UUID: c22c70ec-4a06-46a9-ba63-f126c3fd4369
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Date deposited: 13 May 2026 16:49
Last modified: 14 May 2026 02:07
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Contributors
Author:
Li Liu
Author:
Jiewei Zheng
Author:
Xi Lu
Author:
Chowdhury Sarowar
Author:
Yuqin Wang
Author:
Martin A Smith
Author:
Xin Wang
Author:
Fei Deng
Author:
Biswaranjan Mohanty
Author:
Nur-Adania Nor-Azman
Author:
Fusheng Zhang
Author:
Shih-Hao Chiu
Author:
Mario Torrado
Author:
Yi Li
Author:
Shi-Yang Tang
Author:
Jianbo Tang
Author:
Michelle J S Spencer
Author:
Priyank V Kumar
Author:
Kourosh Kalantar-Zadeh
Author:
Chengchen Zhang
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