Adjacent cationic–aromatic sequences yield strong electrostatic adhesion of hydrogels in seawater

Fan, Hailong; Wang, Jiahui; Tao, Zhen; Huang, Junchao; Ping, Rao; Kurokawa, Takayuki; Gong, Jian Ping

doi:10.1038/s41467-019-13171-9

Cited by 270 publications

(254 citation statements)

References 35 publications

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“…As indicated in a recent work about mussel-mimic peptide and the ones with Dopa replaced by Tyr and Phe ( 31 ), cation-π interaction occurs in all these three peptides: Lys and aromatic residues tend to form cation-π interactions in the peptides enriched with these two types of residues. Besides, a recent work on the adsorption behavior of copolymer also found that aromatic residues enhance electrostatic interaction of their adjacent cationic residues with the surface ( 67 ). In addition, as a small amount of Dopa or Tyr (~10%) is conjugated to poly-lysine, its adsorption ability is enhanced to a similar extent ( 28 , 68 ).…”

Section: Discussionmentioning

confidence: 99%

Structure and sequence features of mussel adhesive protein lead to its salt-tolerant adhesion ability

Xue

Lao

et al. 2020

Sci. Adv.

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Mussels can strongly adhere to hydrophilic minerals in sea habitats by secreting adhesive proteins. The adhesion ability of these proteins is often attributed to the presence of Dopa derived from posttranslational modification of Tyr, whereas the contribution of structural feature is overlooked. It remains largely unknown how adhesive proteins overcome the surface-bound water layer to establish underwater adhesion. Here, we use molecular dynamics simulations to probe the conformations of adhesive protein Pvfp-5β and its salt-tolerant underwater adhesion on superhydrophilic mica. Dopa and positively charged basic residues form pairs, in this intrinsically disordered protein, and these residue pairs can lead to firm surface binding. Our simulations further suggest that the unmodified Tyr shows similar functions on surface adhesion by forming pairing structure with a positively charged residue. We confirm the presence of these residue pairs and verify the strong binding ability of unmodified proteins using nuclear magnetic resonance spectroscopy and lap shear tests.

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Section: Discussionmentioning

confidence: 99%

Structure and sequence features of mussel adhesive protein lead to its salt-tolerant adhesion ability

Xue

Lao

et al. 2020

Sci. Adv.

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“…Because of a lower cross-linking ratio, current tough composite gels have many dangling chains on the surface and show sticky properties 28 – 30 . In a general hydrogel, in order to exhibit such properties, it is necessary to create an extremely low degree of crosslinking.…”

Section: Resultsmentioning

confidence: 99%

Particle packing into loose networks for tough and sticky composite gels

Asoh

Yamamoto

Uyama

2020

Sci Rep

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Hydrogel is an attractive material, but its application is limited due to its low mechanical strength. In this study, a tough composite gel could be prepared by synthesizing polymer particles within a polymer network having relatively loose cross-linking. Since the polymer network acts as a dispersion stabilizer during the synthesis of the hydrophobic polymer particles, a large amount of particles could be introduced into the gel without agglomeration. It was suggested that the high level of toughness was induced by the adsorption and desorption of the polymer chains on the surface of the finely packed particles. By using a stimuli-responsive polymer network, elasticity and plasticity of composite gels could be controlled in response to external stimuli, and adhesion on the gel surface could also be modulated.

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“…Due to their three-dimensional porous network, flexibility, and high water content, hydrogels are attractive biomaterial scaffolds for drug delivery, [ 1 , 2 , 3 ] tissue engineering, [ 4 ] vaccines, [ 5 , 6 ] and biosensors [ 7 ]. Several crosslinking strategies including chemical conjugations, [ 8 , 9 ] physical interactions, [ 10 , 11 ] and polymerizations [ 12 , 13 ] have been formulated for hydrogel synthesis. However, the fabrication of next-generation hydrogels with amended functional and structural recapitulations of damaged organs remains a challenge.…”

Section: Introductionmentioning

confidence: 99%

Covalently Functionalized Carbon Nano-Onions Integrated Gelatin Methacryloyl Nanocomposite Hydrogel Containing γ-Cyclodextrin as Drug Carrier for High-Performance pH-Triggered Drug Release

2021

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Herein, poly (n-(4-aminophenyl) methacrylamide)) carbon nano-onions (PAPMA-CNOs = f-CNOs) and γ-cyclodextrin/DOX-complex (CD) reinforced gelatin methacryloyl (GelMA)/f-CNOs/CD supramolecular hydrogel interfaces were fabricated using the photo-crosslinking technique. The physicochemical properties, morphology, biodegradation, and swelling properties of hydrogels were investigated. The composite hydrogels demonstrated enriched drug release under the acidic conditions (pH 4.5 = 99%, and pH 6.0 = 82%) over 18 days. Owing to the f-CNOs inclusion, GelMA/f-CNOs/CD supramolecular hydrogels presented augmented tensile strength (σult = 356.1 ± 3.4 MPa), toughness (K = 51.5 ± 0.24 Jg−1), and Young’s modulus (E = 41.8 ± 1.4 GPa). The strengthening of GelMA/f-CNOs/CD hydrogel systems indicates its good dispersion and the degree of polymer enveloping of f-CNOs within GelMA matrixes. Furthermore, the obtained hydrogels showed improved cell viability with human fibroblast cells. Nevertheless, the primed supramolecular hydrogels would pave the way for the controlled delivery systems for future drug delivery.

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Adjacent cationic–aromatic sequences yield strong electrostatic adhesion of hydrogels in seawater

Cited by 270 publications

References 35 publications

Structure and sequence features of mussel adhesive protein lead to its salt-tolerant adhesion ability

Structure and sequence features of mussel adhesive protein lead to its salt-tolerant adhesion ability

Particle packing into loose networks for tough and sticky composite gels

Covalently Functionalized Carbon Nano-Onions Integrated Gelatin Methacryloyl Nanocomposite Hydrogel Containing γ-Cyclodextrin as Drug Carrier for High-Performance pH-Triggered Drug Release

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