A protein engineered to bind uranyl selectively and with femtomolar affinity
Uranyl (UO 2 2+ ), the predominant aerobic form of uranium, is present in the ocean at a concentration of ~3.2 parts per 10 9 (13.7 nM); however, the successful enrichment of uranyl from this vast resource has been limited by the high concentrations of metal ions of similar size and charge, which ma...
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| Published in | Nature chemistry Vol. 6; no. 3; pp. 236 - 241 |
|---|---|
| Main Authors | , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Nature Publishing Group UK
01.03.2014
Nature Publishing Group |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1755-4330 1755-4349 1755-4349 |
| DOI | 10.1038/nchem.1856 |
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| Abstract | Uranyl (UO
2
2+
), the predominant aerobic form of uranium, is present in the ocean at a concentration of ~3.2 parts per 10
9
(13.7 nM); however, the successful enrichment of uranyl from this vast resource has been limited by the high concentrations of metal ions of similar size and charge, which makes it difficult to design a binding motif that is selective for uranyl. Here we report the design and rational development of a uranyl-binding protein using a computational screening process in the initial search for potential uranyl-binding sites. The engineered protein is thermally stable and offers very high affinity and selectivity for uranyl with a
K
d
of 7.4 femtomolar (fM) and >10,000-fold selectivity over other metal ions. We also demonstrated that the uranyl-binding protein can repeatedly sequester 30–60% of the uranyl in synthetic sea water. The chemical strategy employed here may be applied to engineer other selective metal-binding proteins for biotechnology and remediation applications.
The extraction of uranium from seawater is limited by the high concentrations of carbonate and competing metal ions. Now, a highly selective uranyl-binding protein with femtomolar affinity has been developed. This protein can extract up to 60% uranium from synthetic seawater when immobilized on bacterial cell surfaces or amylose resin. |
|---|---|
| AbstractList | Uranyl (UO
2
2+
), the predominant aerobic form of uranium, is present in the ocean at a concentration of ~3.2 parts per 10
9
(13.7 nM); however, the successful enrichment of uranyl from this vast resource has been limited by the high concentrations of metal ions of similar size and charge, which makes it difficult to design a binding motif that is selective for uranyl. Here we report the design and rational development of a uranyl-binding protein using a computational screening process in the initial search for potential uranyl-binding sites. The engineered protein is thermally stable and offers very high affinity and selectivity for uranyl with a
K
d
of 7.4 femtomolar (fM) and >10,000-fold selectivity over other metal ions. We also demonstrated that the uranyl-binding protein can repeatedly sequester 30–60% of the uranyl in synthetic sea water. The chemical strategy employed here may be applied to engineer other selective metal-binding proteins for biotechnology and remediation applications.
The extraction of uranium from seawater is limited by the high concentrations of carbonate and competing metal ions. Now, a highly selective uranyl-binding protein with femtomolar affinity has been developed. This protein can extract up to 60% uranium from synthetic seawater when immobilized on bacterial cell surfaces or amylose resin. Uranyl (UO2(2+)), the predominant aerobic form of uranium, is present in the ocean at a concentration of ~3.2 parts per 10(9) (13.7 nM); however, the successful enrichment of uranyl from this vast resource has been limited by the high concentrations of metal ions of similar size and charge, which makes it difficult to design a binding motif that is selective for uranyl. Here we report the design and rational development of a uranyl-binding protein using a computational screening process in the initial search for potential uranyl-binding sites. The engineered protein is thermally stable and offers very high affinity and selectivity for uranyl with a Kd of 7.4 femtomolar (fM) and >10,000-fold selectivity over other metal ions. We also demonstrated that the uranyl-binding protein can repeatedly sequester 30-60% of the uranyl in synthetic sea water. The chemical strategy employed here may be applied to engineer other selective metal-binding proteins for biotechnology and remediation applications. Uranyl (UO2(2+)), the predominant aerobic form of uranium, is present in the ocean at a concentration of ~3.2 parts per 10(9) (13.7 nM); however, the successful enrichment of uranyl from this vast resource has been limited by the high concentrations of metal ions of similar size and charge, which makes it difficult to design a binding motif that is selective for uranyl. Here we report the design and rational development of a uranyl-binding protein using a computational screening process in the initial search for potential uranyl-binding sites. The engineered protein is thermally stable and offers very high affinity and selectivity for uranyl with a Kd of 7.4 femtomolar (fM) and >10,000-fold selectivity over other metal ions. We also demonstrated that the uranyl-binding protein can repeatedly sequester 30-60% of the uranyl in synthetic sea water. The chemical strategy employed here may be applied to engineer other selective metal-binding proteins for biotechnology and remediation applications.Uranyl (UO2(2+)), the predominant aerobic form of uranium, is present in the ocean at a concentration of ~3.2 parts per 10(9) (13.7 nM); however, the successful enrichment of uranyl from this vast resource has been limited by the high concentrations of metal ions of similar size and charge, which makes it difficult to design a binding motif that is selective for uranyl. Here we report the design and rational development of a uranyl-binding protein using a computational screening process in the initial search for potential uranyl-binding sites. The engineered protein is thermally stable and offers very high affinity and selectivity for uranyl with a Kd of 7.4 femtomolar (fM) and >10,000-fold selectivity over other metal ions. We also demonstrated that the uranyl-binding protein can repeatedly sequester 30-60% of the uranyl in synthetic sea water. The chemical strategy employed here may be applied to engineer other selective metal-binding proteins for biotechnology and remediation applications. Uranyl (UO2(2+)), the predominant aerobic form of uranium, is present in the ocean at a concentration of ~3.2 parts per 10(9) (13.7 nM); however, the successful enrichment of uranyl from this vast resource has been limited by the high concentrations of metal ions of similar size and charge, which makes it difficult to design a binding motif that is selective for uranyl. Here we report the design and rational development of a uranyl-binding protein using a computational screening process in the initial search for potential uranyl-binding sites. The engineered protein is thermally stable and offers very high affinity and selectivity for uranyl with a Kd of 7.4 femtomolar (fM) and >10,000-fold selectivity over other metal ions. We also demonstrated that the uranyl-binding protein can repeatedly sequester 30-60% of the uranyl in synthetic sea water. The chemical strategy employed here may be applied to engineer other selective metal-binding proteins for biotechnology and remediation applications. |
| Author | Zhou, Lu Li, Charles J. Jensen, Mark P. Zhang, Liang Özçubukçu, Salih He, Chuan Lai, Luhua Zhang, Changsheng Bosscher, Mike Liu, Jianzhao Zhang, Wen |
| Author_xml | – sequence: 1 givenname: Lu surname: Zhou fullname: Zhou, Lu organization: Department of Chemistry and Institute for Biophysical Dynamics, The University of Chicago – sequence: 2 givenname: Mike surname: Bosscher fullname: Bosscher, Mike organization: Department of Chemistry and Institute for Biophysical Dynamics, The University of Chicago – sequence: 3 givenname: Changsheng surname: Zhang fullname: Zhang, Changsheng organization: BNLMS, State Key Laboratory for Structural Chemistry of Unstable and Stable Species, College of Chemistry and Molecular Engineering and Center for Quantitative Biology, Peking University, Center for Life Sciences, Peking University – sequence: 4 givenname: Salih surname: Özçubukçu fullname: Özçubukçu, Salih organization: Department of Chemistry and Institute for Biophysical Dynamics, The University of Chicago – sequence: 5 givenname: Liang surname: Zhang fullname: Zhang, Liang organization: Department of Chemistry and Institute for Biophysical Dynamics, The University of Chicago – sequence: 6 givenname: Wen surname: Zhang fullname: Zhang, Wen organization: Department of Chemistry and Institute for Biophysical Dynamics, The University of Chicago – sequence: 7 givenname: Charles J. surname: Li fullname: Li, Charles J. organization: Department of Chemistry and Institute for Biophysical Dynamics, The University of Chicago – sequence: 8 givenname: Jianzhao surname: Liu fullname: Liu, Jianzhao organization: Department of Chemistry and Institute for Biophysical Dynamics, The University of Chicago – sequence: 9 givenname: Mark P. surname: Jensen fullname: Jensen, Mark P. organization: Chemical Sciences and Engineering Division, Argonne National Laboratory – sequence: 10 givenname: Luhua surname: Lai fullname: Lai, Luhua email: lhlai@pku.edu.cn organization: BNLMS, State Key Laboratory for Structural Chemistry of Unstable and Stable Species, College of Chemistry and Molecular Engineering and Center for Quantitative Biology, Peking University, Center for Life Sciences, Peking University – sequence: 11 givenname: Chuan surname: He fullname: He, Chuan email: chuanhe@uchicago.edu organization: Department of Chemistry and Institute for Biophysical Dynamics, The University of Chicago |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/24557139$$D View this record in MEDLINE/PubMed |
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| ContentType | Journal Article |
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| Snippet | Uranyl (UO
2
2+
), the predominant aerobic form of uranium, is present in the ocean at a concentration of ~3.2 parts per 10
9
(13.7 nM); however, the... Uranyl (UO2(2+)), the predominant aerobic form of uranium, is present in the ocean at a concentration of ~3.2 parts per 10(9) (13.7 nM); however, the... Uranyl (UO2(2+)), the predominant aerobic form of uranium, is present in the ocean at a concentration of ~3.2 parts per 10(9) (13.7 nM); however, the... |
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| SubjectTerms | 119/118 639/638/45/49/1141 639/638/541/911 Algorithms Analytical Chemistry Binding Sites Biochemistry Biotechnology Chemistry Chemistry/Food Science Design Inorganic Chemistry Ligands Metal concentrations Metal ions Metal Nanoparticles - chemistry Metals Models, Molecular Organic Chemistry Physical Chemistry Protein Engineering Proteins Proteins - chemistry Proteins - metabolism Remediation Seawater Uranium Uranium - chemistry |
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| Title | A protein engineered to bind uranyl selectively and with femtomolar affinity |
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