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Adsorption Mechanism Of Mussel-derived Adhesive Proteins Onto Various Self-assembled Monolayers

Shizhe Huang, Q. Hou, Donghong Guo, Hui Yang, T. Chen, Fanghui Liu, Guangxin Hu, M. Zhang, J. Zhang, J. Wang
Published 2017 · Chemistry

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Mussel adhesion to a variety of surfaces has received considerable attention due to its ability to bind strongly to many surfaces under water. Understanding the interactions between mussel-derived adhesive proteins and surfaces with different chemical and physical properties is of great theoretical and practical interest. Here, we explored the adsorption behavior of mussel foot protein-1 (Mfp-1) onto self-assembled monolayers (SAMs) with varying wettability and chemistry, through quartz crystal microbalance with dissipation measurements, ellipsometry, X-ray photoelectron spectroscopy, and atomic force microscopy. The results showed significant differences in the structural conformations of protein adsorbed layers for the series of surfaces. Two mechanisms were found in all the systems; in the case of hydrophobic surfaces, the first regime corresponded to the initial adsorption of protein molecules onto the surfaces, and the second kinetic process was related to conformational changes, resulting in a relatively rigid and dense protein layer; while for hydrophilic surfaces, a loose and soft adsorbed protein film was generated. It was found that the adsorbed mass of Mfp-1 at the hydroxyl terminated SAM surface was the smallest among all the modified surfaces, because of the formation of hydration layers reducing protein adhesion effectively. Furthermore, the interaction mechanisms of protein molecules with solid surfaces were suggested, providing a new way of designing and developing underwater adhesive or anti-fouling materials.
This paper references
Cation-π interaction in DOPA deficient mussel adhesive protein mfp-1
김상식 (2014)
Mussel protein adhesion depends on thiol-mediated redox modulation
J. Yu (2011)
Adaptive hydrophobic and hydrophilic interactions of mussel foot proteins with organic thin films
J. Yu (2013)
Adhesion of mussel foot protein-3 to TiO2 surfaces: the effect of pH.
J. Yu (2013)
Three intrinsically unstructured mussel adhesive proteins, mfp‐1, mfp‐2, and mfp‐3: Analysis by circular dichroism
D. Hwang (2012)
125 I - radiolabeling , surface plasmon resonance , and quartz crystal microbalance with dissipation : three tools to compare protein adsorption on surfaces of di ff erent wettability
D. Li Luan (2014)
Adsorption of a small protein to a methyl-terminated hydrophobic surfaces: effect of protein-folding thermodynamics and kinetics
D. Otzen (2003)
Painting blood vessels and atherosclerotic plaques with an adhesive drug depot
C. Kastrup (2012)
Strong resistance of phosphorylcholine self-assembled monolayers to protein adsorption: insights into nonfouling properties of zwitterionic materials.
S. Chen (2005)
Stiff coatings on compliant biofibers: the cuticle of Mytilus californianus byssal threads.
N. Holten-Andersen (2009)
SurfacePlasmon Resonance Permits in-Situ Measurement of Protein Adsorption on Self-Assembled Monolayers of Alkanethiolates on
M. Mrksich (1995)
125I-radiolabeling, surface plasmon resonance, and quartz crystal microbalance with dissipation: three tools to compare protein adsorption on surfaces of different wettability.
Yafei Luan (2014)
Cation-p interactions in chemistry and biology: a new view of benzene, Phe
D. A. Dougherty (1996)
Mussel foot protein-1 (mcfp-1) interaction with titania surfaces().
D. Hwang (2012)
The Guidance of Human Mesenchymal Stem Cell Differentiation in Vitro by Controlled Modications to the Cell Substrate, Biomaterials
J. M. Curran (2006)
Spectroscopic Ellipsometry: Principles and Applications
H. Fujiwara (2007)
Critical survey of formation constants of complexes of histidine, phenylalanine, tyrosine, L-DOPA and tryptophan
L. Pettit (1984)
The cation - p interaction
J. C. Ma (1996)
Some physicochemical data on monohydrate citric acid solutions in water: solubility, density, viscosity, diffusivity, pH of standard solution, and refractive index
C. Laguerie (1976)
The guidance of human mesenchymal stem cell differentiation in vitro by controlled modifications to the cell substrate.
J. Curran (2006)
Faculty Opinions recommendation of Mussel protein adhesion depends on interprotein thiol-mediated redox modulation.
M. Gruebele (2012)
Interfacial pH during mussel adhesive plaque formation
Nadine R. Martinez Rodriguez (2015)
Use of quartz vibration for weighing thin films on a microbalance
G. Sauerbrey (1959)
Structure and mucoadhesion of mussel glue protein in dilute solution.
M. Deacon (1998)
125Iradiolabeling, surface plasmon resonance, and quartz crystal microbalance with dissipation: three tools to compare protein adsorption on surfaces of different wettability, Langmuir
Y. Luan (2014)
Adhesion mechanism in a DOPA-deficient foot protein from green mussels().
D. Hwang (2012)
Complexation and coacervation of like-charged polyelectrolytes inspired by mussels
Sangsik Kim (2016)
The adhesive protein cDNA of Mytilus galloprovincialis encodes decapeptide repeats but no hexapeptide motif.
K. Inoue (1994)
Adhesion mechanisms of the mussel foot proteins mfp-1 and mfp-3.
Q. Lin (2007)
Surface force measurements and simulations of mussel-derived peptide adhesives on wet organic surfaces
Zachary A. Levine (2016)
Adhesion of mussel foot proteins to different substrate surfaces
Qingye Lu (2013)
Swelling enhancement of polyelectrolyte brushes induced by external ions.
X. Chu (2014)
Cation-π Interactions in Chemistry and Biology: A New View of Benzene, Phe, Tyr, and Trp
D. Dougherty (1996)
Adsorption of conditioning polymers on solid substrates with different charge density.
E. Guzmán (2011)
Microphase Behavior and Enhanced Wet-Cohesion of Synthetic Copolyampholytes Inspired by a Mussel Foot Protein.
Sungbaek Seo (2015)
Adhesion mechanisms of the mussel foot proteins mfp-1 and mfp-3
Q. Lin (2007)
Multilayers of charged polypeptides as studied by in situ ellipsometry and quartz crystal microbalance with dissipation.
T. Halthur (2004)
Self-Assembly Behavior of Ultrahighly Charged Amphiphilic Polyelectrolyte on Solid Surfaces.
Hui Yang (2016)
Proteins: Structures and Molecular Properties
Thomas E. Creighton (1986)
Supramolecular Chemistry at Surfaces
D. Amabilino (2016)
Proteins: structures and molecular properties, Macmillan
T. E. Creighton (1993)
Surface Plasmon Resonance Permits in Situ Measurement of Protein Adsorption on Self-Assembled Monolayers of Alkanethiolates on Gold
M. Mrksich (1995)
Polyphenolic Substance of Mytilus edulis: Novel Adhesive Containing L-Dopa and Hydroxyproline.
J. Waite (1981)
Diverse Strategies of Protein Sclerotization in Marine Invertebrates: Structure–Property Relationships in Natural Biomaterials
D. J. Rubin (2010)
Zwitterion formation upon deprotonation in L-3, 4-dihydroxyphenylalanine and other phenolic amines.
Martin Rb (1971)
Mussel-inspired encapsulation and functionalization of individual yeast cells.
S. Yang (2011)
A Computational Study of Cation−π Interactions vs Salt Bridges in Aqueous Media: Implications for Protein Engineering
J. P. Gallivan (2000)
Variations in coupled water, viscoelastic properties, and film thickness of a Mefp-1 protein film during adsorption and cross-linking: a quartz crystal microbalance with dissipation monitoring, ellipsometry, and surface plasmon resonance study.
F. Höök (2001)
Zwitterion formation upon deprotonation in L-3, 4-dihydroxyphenylalanine and other phenolic amines.
R. Martin (1971)
Adhesive Interactions of Mussel Foot Proteins
J. Yu (2014)
Adsorption of cationic gemini surfactants at solid surfaces studied by QCM-D and SPR: effect of the rigidity of the spacer.
Leila Mivehi (2011)
Verwendung von Schwingquarzen zur Wägung dünner Schichten und zur Mikrowägung
G. Sauerbrey (1959)
Mussel glue protein has an open conformation.
T. Williams (1989)
Effects of interfacial redox in mussel adhesive protein films on mica.
J. Yu (2011)
Biocompatibility of adhesive complex coacervates modeled after the sandcastle glue of Phragmatopoma californica for craniofacial reconstruction.
Brent Winslow (2010)
Cation-π interaction in DOPA-deficient mussel adhesive protein mfp-1.
Sangsik Kim (2015)
The Cationminus signpi Interaction.
J. C. Ma (1997)

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