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Literature DB >> 24367077

Designed amyloid fibers as materials for selective carbon dioxide capture.

Dan Li¹, Hiroyasu Furukawa, Hexiang Deng, Cong Liu, Omar M Yaghi, David S Eisenberg.

Abstract

New materials capable of binding carbon dioxide are essential for addressing climate change. Here, we demonstrate that amyloids, self-assembling protein fibers, are effective for selective carbon dioxide capture. Solid-state NMR proves that amyloid fibers containing alkylamine groups reversibly bind carbon dioxide via carbamate formation. Thermodynamic and kinetic capture-and-release tests show the carbamate formation rate is fast enough to capture carbon dioxide by dynamic separation, undiminished by the presence of water, in both a natural amyloid and designed amyloids having increased carbon dioxide capacity. Heating to 100 °C regenerates the material. These results demonstrate the potential of amyloid fibers for environmental carbon dioxide capture.

Entities: Chemical

Keywords: amyloid materials; chemisorption; designed fibers

Mesh：

Substances：

Year: 2013 PMID： 24367077 PMCID： PMC3890842 DOI： 10.1073/pnas.1321797111

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

27 in total

1. Conducting nanowires built by controlled self-assembly of amyloid fibers and selective metal deposition.

Authors: Thomas Scheibel; Raghuveer Parthasarathy; George Sawicki; Xiao-Min Lin; Heinrich Jaeger; Susan L Lindquist
Journal: Proc Natl Acad Sci U S A Date: 2003-04-02 Impact factor: 11.205

Review 2. Self-assembled peptide nanostructures: the design of molecular building blocks and their technological utilization.

Authors: Ehud Gazit
Journal: Chem Soc Rev Date: 2007-05-02 Impact factor: 54.564

3. Atomic structures of amyloid cross-beta spines reveal varied steric zippers.

Authors: Michael R Sawaya; Shilpa Sambashivan; Rebecca Nelson; Magdalena I Ivanova; Stuart A Sievers; Marcin I Apostol; Michael J Thompson; Melinda Balbirnie; Jed J W Wiltzius; Heather T McFarlane; Anders Ø Madsen; Christian Riekel; David Eisenberg
Journal: Nature Date: 2007-04-29 Impact factor: 49.962

4. Metal-organic frameworks with exceptionally high capacity for storage of carbon dioxide at room temperature.

Authors: Andrew R Millward; Omar M Yaghi
Journal: J Am Chem Soc Date: 2005-12-28 Impact factor: 15.419

5. Strong and reversible binding of carbon dioxide in a green metal-organic framework.

Authors: Jeremiah J Gassensmith; Hiroyasu Furukawa; Ronald A Smaldone; Ross S Forgan; Youssry Y Botros; Omar M Yaghi; J Fraser Stoddart
Journal: J Am Chem Soc Date: 2011-09-13 Impact factor: 15.419

6. Nanostructured films from hierarchical self-assembly of amyloidogenic proteins.

Authors: Tuomas P J Knowles; Tomas W Oppenheim; Alexander K Buell; Dimitri Y Chirgadze; Mark E Welland
Journal: Nat Nanotechnol Date: 2010-02-28 Impact factor: 39.213

7. Metastability of native proteins and the phenomenon of amyloid formation.

Authors: Andrew J Baldwin; Tuomas P J Knowles; Gian Gaetano Tartaglia; Anthony W Fitzpatrick; Glyn L Devlin; Sarah Lucy Shammas; Christopher A Waudby; Maria F Mossuto; Sarah Meehan; Sally L Gras; John Christodoulou; Spencer J Anthony-Cahill; Paul D Barker; Michele Vendruscolo; Christopher M Dobson
Journal: J Am Chem Soc Date: 2011-08-19 Impact factor: 15.419

8. Highly efficient separation of carbon dioxide by a metal-organic framework replete with open metal sites.

Authors: David Britt; Hiroyasu Furukawa; Bo Wang; T Grant Glover; Omar M Yaghi
Journal: Proc Natl Acad Sci U S A Date: 2009-11-30 Impact factor: 11.205

9. Role of intermolecular forces in defining material properties of protein nanofibrils.

Authors: Tuomas P Knowles; Anthony W Fitzpatrick; Sarah Meehan; Helen R Mott; Michele Vendruscolo; Christopher M Dobson; Mark E Welland
Journal: Science Date: 2007-12-21 Impact factor: 47.728

Review 10. The amyloid state of proteins in human diseases.

Authors: David Eisenberg; Mathias Jucker
Journal: Cell Date: 2012-03-16 Impact factor: 41.582

10 in total

1. Tunable assembly of amyloid-forming peptides into nanosheets as a retrovirus carrier.

Authors: Bin Dai; Dan Li; Wenhui Xi; Fang Luo; Xiang Zhang; Man Zou; Mi Cao; Jun Hu; Wenyuan Wang; Guanghong Wei; Yi Zhang; Cong Liu
Journal: Proc Natl Acad Sci U S A Date: 2015-02-23 Impact factor: 11.205

Review 2. Conformational strains of pathogenic amyloid proteins in neurodegenerative diseases.

Authors: Dan Li; Cong Liu
Journal: Nat Rev Neurosci Date: 2022-05-30 Impact factor: 38.755

Review 3. Self-assembling peptide and protein amyloids: from structure to tailored function in nanotechnology.

Authors: Gang Wei; Zhiqiang Su; Nicholas P Reynolds; Paolo Arosio; Ian W Hamley; Ehud Gazit; Raffaele Mezzenga
Journal: Chem Soc Rev Date: 2017-07-31 Impact factor: 54.564

Review 4. Half a century of amyloids: past, present and future.

Authors: Pu Chun Ke; Ruhong Zhou; Louise C Serpell; Roland Riek; Tuomas P J Knowles; Hilal A Lashuel; Ehud Gazit; Ian W Hamley; Thomas P Davis; Marcus Fändrich; Daniel Erik Otzen; Matthew R Chapman; Christopher M Dobson; David S Eisenberg; Raffaele Mezzenga
Journal: Chem Soc Rev Date: 2020-07-07 Impact factor: 54.564

Review 5. Microbial CO₂ fixation and biotechnology in reducing industrial CO₂ emissions.

Authors: Ritu Kumari; Gurpreet Kaur Nagi; Sachin Kajla
Journal: Arch Microbiol Date: 2022-01-21 Impact factor: 2.552

6. Effect of Relative Humidity on Adsorption Breakthrough of CO₂ on Activated Carbon Fibers.

Authors: Yu-Chun Chiang; Yu-Jen Chen; Cheng-Yen Wu
Journal: Materials (Basel) Date: 2017-11-11 Impact factor: 3.623

7. Structural Analysis of a Nitrogenase Iron Protein from Methanosarcina acetivorans: Implications for CO₂ Capture by a Surface-Exposed [Fe₄S₄] Cluster.

Authors: Lee A Rettberg; Wonchull Kang; Martin T Stiebritz; Caleb J Hiller; Chi Chung Lee; Jasper Liedtke; Markus W Ribbe; Yilin Hu
Journal: mBio Date: 2019-07-09 Impact factor: 7.867

Designed amyloid fibers as materials for selective carbon dioxide capture.

1. Conducting nanowires built by controlled self-assembly of amyloid fibers and selective metal deposition.

Review 2. Self-assembled peptide nanostructures: the design of molecular building blocks and their technological utilization.

3. Atomic structures of amyloid cross-beta spines reveal varied steric zippers.

4. Metal-organic frameworks with exceptionally high capacity for storage of carbon dioxide at room temperature.

5. Strong and reversible binding of carbon dioxide in a green metal-organic framework.

6. Nanostructured films from hierarchical self-assembly of amyloidogenic proteins.

7. Metastability of native proteins and the phenomenon of amyloid formation.

8. Highly efficient separation of carbon dioxide by a metal-organic framework replete with open metal sites.

9. Role of intermolecular forces in defining material properties of protein nanofibrils.

Review 10. The amyloid state of proteins in human diseases.

1. Tunable assembly of amyloid-forming peptides into nanosheets as a retrovirus carrier.

Review 2. Conformational strains of pathogenic amyloid proteins in neurodegenerative diseases.

Review 3. Self-assembling peptide and protein amyloids: from structure to tailored function in nanotechnology.

Review 4. Half a century of amyloids: past, present and future.

Review 5. Microbial CO₂ fixation and biotechnology in reducing industrial CO₂ emissions.

6. Effect of Relative Humidity on Adsorption Breakthrough of CO₂ on Activated Carbon Fibers.

7. Structural Analysis of a Nitrogenase Iron Protein from Methanosarcina acetivorans: Implications for CO₂ Capture by a Surface-Exposed [Fe₄S₄] Cluster.

8. Polymorphic Biological and Inorganic Functional Nanomaterials.

9. Metal-organic frameworks for precise inclusion of single-stranded DNA and transfection in immune cells.

10. A computational approach for designing D-proteins with non-canonical amino acid optimised binding affinity.

Review 2. Self-assembled peptide nanostructures: the design of molecular building blocks and their technological utilization.

Review 10. The amyloid state of proteins in human diseases.

Review 2. Conformational strains of pathogenic amyloid proteins in neurodegenerative diseases.

Review 3. Self-assembling peptide and protein amyloids: from structure to tailored function in nanotechnology.

Review 4. Half a century of amyloids: past, present and future.

Review 5. Microbial CO2 fixation and biotechnology in reducing industrial CO2 emissions.

Review 5. Microbial CO₂ fixation and biotechnology in reducing industrial CO₂ emissions.