Adhesive properties of adsorbed layers of two recombinant mussel foot proteins with different levels of DOPA and tyrosine
Using a surface forces apparatus and an atomic force microscope, we characterized the adhesive properties of adsorbed layers of two recombinant variants of Perna viridis foot protein 5 (PVFP-5), the main surface-binding protein in the adhesive plaque of the Asian green mussel. In one variant, all ty...
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sg-ntu-dr.10356-1518732021-07-06T03:00:54Z Adhesive properties of adsorbed layers of two recombinant mussel foot proteins with different levels of DOPA and tyrosine Bilotto, Pierluigi Labate, Cristina De Santo, Maria P. Deepankumar, Kanagavel Miserez, Ali Zappone, Bruno School of Materials Science and Engineering School of Biological Sciences Biological & Biomimetic Material Laboratory @ NTU Center for Biomimetic Sensor Science Engineering::Materials Peptides and Proteins Monomers Using a surface forces apparatus and an atomic force microscope, we characterized the adhesive properties of adsorbed layers of two recombinant variants of Perna viridis foot protein 5 (PVFP-5), the main surface-binding protein in the adhesive plaque of the Asian green mussel. In one variant, all tyrosine residues were modified into 3,4-dihydroxy-l-phenylalanine (DOPA) during expression using a residue-specific incorporation strategy. DOPA is a key molecular moiety underlying underwater mussel adhesion. In the other variant, all tyrosine residues were preserved. The layer was adsorbed on a mica substrate and pressed against an uncoated surface. While DOPA produced a stronger adhesion than tyrosine in contact with the nanoscopic Si3N4 probe of the atomic force microscope, the two variants produced comparable adhesion on the curved macroscopic mica surfaces of the surface forces apparatus. These findings show that the presence of DOPA is not a sufficient condition to generate strong underwater adhesion. Surface chemistry and contact geometry affect the strength and abundance of protein-surface bonds created during adsorption and surface contact. Importantly, the adsorbed protein layer has a random and dynamic polymer-network structure that should be optimized to transmit the tensile stress generated during surface separation to DOPA surface bonds rather than other weaker bonds. National Research Foundation (NRF) We acknowledge financial support from the Marine Science Research and Development Program (MSRDP) of the Singapore National Research Foundation (NRF), Grant No. MSRDP-P29. 2021-07-06T03:00:54Z 2021-07-06T03:00:54Z 2019 Journal Article Bilotto, P., Labate, C., De Santo, M. P., Deepankumar, K., Miserez, A. & Zappone, B. (2019). Adhesive properties of adsorbed layers of two recombinant mussel foot proteins with different levels of DOPA and tyrosine. Langmuir, 35(48), 15481-15490. https://dx.doi.org/10.1021/acs.langmuir.9b01730 0743-7463 0000-0001-6531-8528 0000-0003-0864-8170 0000-0003-3002-4022 https://hdl.handle.net/10356/151873 10.1021/acs.langmuir.9b01730 31465231 2-s2.0-85075961958 48 35 15481 15490 en MSRDP-P29 Langmuir © 2019 American Chemical Society. All rights reserved. |
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Engineering::Materials Peptides and Proteins Monomers Bilotto, Pierluigi Labate, Cristina De Santo, Maria P. Deepankumar, Kanagavel Miserez, Ali Zappone, Bruno Adhesive properties of adsorbed layers of two recombinant mussel foot proteins with different levels of DOPA and tyrosine |
| description |
Using a surface forces apparatus and an atomic force microscope, we characterized the adhesive properties of adsorbed layers of two recombinant variants of Perna viridis foot protein 5 (PVFP-5), the main surface-binding protein in the adhesive plaque of the Asian green mussel. In one variant, all tyrosine residues were modified into 3,4-dihydroxy-l-phenylalanine (DOPA) during expression using a residue-specific incorporation strategy. DOPA is a key molecular moiety underlying underwater mussel adhesion. In the other variant, all tyrosine residues were preserved. The layer was adsorbed on a mica substrate and pressed against an uncoated surface. While DOPA produced a stronger adhesion than tyrosine in contact with the nanoscopic Si3N4 probe of the atomic force microscope, the two variants produced comparable adhesion on the curved macroscopic mica surfaces of the surface forces apparatus. These findings show that the presence of DOPA is not a sufficient condition to generate strong underwater adhesion. Surface chemistry and contact geometry affect the strength and abundance of protein-surface bonds created during adsorption and surface contact. Importantly, the adsorbed protein layer has a random and dynamic polymer-network structure that should be optimized to transmit the tensile stress generated during surface separation to DOPA surface bonds rather than other weaker bonds. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Bilotto, Pierluigi Labate, Cristina De Santo, Maria P. Deepankumar, Kanagavel Miserez, Ali Zappone, Bruno |
| format |
Article |
| author |
Bilotto, Pierluigi Labate, Cristina De Santo, Maria P. Deepankumar, Kanagavel Miserez, Ali Zappone, Bruno |
| author_sort |
Bilotto, Pierluigi |
| title |
Adhesive properties of adsorbed layers of two recombinant mussel foot proteins with different levels of DOPA and tyrosine |
| title_short |
Adhesive properties of adsorbed layers of two recombinant mussel foot proteins with different levels of DOPA and tyrosine |
| title_full |
Adhesive properties of adsorbed layers of two recombinant mussel foot proteins with different levels of DOPA and tyrosine |
| title_fullStr |
Adhesive properties of adsorbed layers of two recombinant mussel foot proteins with different levels of DOPA and tyrosine |
| title_full_unstemmed |
Adhesive properties of adsorbed layers of two recombinant mussel foot proteins with different levels of DOPA and tyrosine |
| title_sort |
adhesive properties of adsorbed layers of two recombinant mussel foot proteins with different levels of dopa and tyrosine |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151873 |
| _version_ |
1705151345646895104 |