A minimal length rigid helical peptide motif allows rational design of modular surfactants

Mondal, Sudipta; Varenik, Maxim; Bloch, Daniel Nir; Atsmon-Raz, Yoav; Jacoby, Guy; Adler‐Abramovich, Lihi; Shimon, Linda J. W.; Beck, Roy; Miller, Yifat; Regev, Oren; Gazit, Ehud

doi:10.1038/ncomms14018

Cited by 52 publications

(55 citation statements)

References 49 publications

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“…The significant shifto fa mide Ib and from 1653 cm À1 to 1660 cm À1 supportsaconformationalc hange from unordered structuret os upramolecular helical structure by peptidic segment during self-assembly in the gel matrix. [68] This characteristic observation is also corroborated with CD spectroscopy.C ircular dichroism( CD) was used to scrutinise the supramolecular-aggregation preferences of self-assembled compound 1. Hydrogel of compound 1 shows strong CD absorption bands in the range of 350-550 nm primarily with ab isignated Cotton effect (Figure 2c).…”

Section: Resultssupporting

confidence: 66%

“…The corresponding bands of compound 1 shifted to 1660 cm −1 , 1633 cm −1 and 1546 cm −1 in the hydrogel state. The significant shift of amide I band from 1653 cm −1 to 1660 cm −1 supports a conformational change from unordered structure to supramolecular helical structure by peptidic segment during self‐assembly in the gel matrix . This characteristic observation is also corroborated with CD spectroscopy.…”

Section: Resultssupporting

confidence: 63%

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Redox‐Active Peptide‐Functionalized Quinquethiophene‐Based Electrochromic π‐Gel

Konda

Maiti

Jadhav

et al. 2018

Chemistry An Asian Journal

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An electrochromic system based on a self-assembled dipeptide-appended redox-active quinquethiophene π-gel is reported. The designed peptide-quinquethiophene consists of a symmetric bolaamphiphile that has two segments: a redox-active π-conjugated quinquethiophene core for electrochromism, and peptide motif for the involvement of molecular self-assembly. Investigations reveal that self-assembly and electrochromic properties of the π-gel are strongly dependent on the relative orientation of peptidic and quinquethiophene scaffolds in the self-assembly system. The colors of the π-gel film are very stable with fast and controlled switching speed at room temperature.

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Section: Resultssupporting

confidence: 66%

Section: Resultssupporting

confidence: 63%

Redox‐Active Peptide‐Functionalized Quinquethiophene‐Based Electrochromic π‐Gel

Konda

Maiti

Jadhav

et al. 2018

Chemistry An Asian Journal

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“…The presence of a propargyl unit at the C‐terminus of 2 ‐ 4 allowed us to investigate for the first time formation of peptide‐based polyacetylene ( PAs ) and polydiacetylene ( PdAs ) organogels. According with the schematic representation reported in Figure , both PA and PdA backbones are able to template formation of parallelly oriented β‐sheet structures within their respective polymeric systems, thanks to the onset of geometrically perfect repetitions of highly conjugated double and double‐triple bonds, respectively . We are currently exploring the limits (dictated by the negative steric hindrance) and potentialities (governed by the positive template effect of well‐ordered networks) of the organogel‐forming peptide‐acetylene hybrid compounds for a further development of this fascinating opto‐electronic‐active, stimuli‐responsive, peptide‐based, polymer field …”

Section: Discussionmentioning

confidence: 99%

From self‐assembled peptide‐ynes to peptide polyacetylenes and polydiacetylenes

et al. 2018

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A set of four organogelators from an α‐amino acid derivative to a tetrapeptide, covalently linked to an acetylenic moiety, was studied in terms of polymerization efficiencies to afford peptide polyacetylenes and polydiacetylenes. Peptides were designed to improve the organogelator behavior via formation of intermolecular H‐bonding‐mediated β‐sheet networks as a function of their main‐chain length. The polymerization experiments were run under appropriate conditions for the various monomers with the aim at elucidating how the monomer self‐assembly process might influence polymer formation. Starting compounds and their corresponding polymers were characterized by a variety of spectroscopic and microscopic techniques.

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“…Commercial pesticides like emulsifiable concentrates (ECs) and microemulsions (MEs) normally contain substantial amounts of surfactants and organic solvents, which cause serious environmental damage . In recent years, Pickering emulsions, which are stabilized by nano‐ or microscale particles instead of small‐molecule surfactants, have attracted immense attention . The particles adsorbed at the interface between two phases endow the emulsion system with ultrastability, biocompatibility, and adjustable permeability .…”

Section: Introductionmentioning

confidence: 99%

“…[4,5] In recent years, Pickering emulsions,w hich are stabilized by nano-or microscale particles insteado fs mall-molecule surfactants, have attracted immense attention. [6][7][8] The particles adsorbed at the interface betweent wo phases endow the emulsion system with ultrastability,b iocompatibility,a nd adjustable permeability. [9,10] To date, the particlesu sed for Pickering emulsions have mainly included silica, alumina, titanium oxides, clay,polysaccharides, and bio-nanoparticles.…”

Section: Introductionmentioning

confidence: 99%

A Natural Triterpene Saponin‐Based Pickering Emulsion

Gao

Zhao

et al. 2018

Chemistry A European J

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The abuse of chemical surfactants in pesticide formulations is a potential threat to agricultural development and environmental safety. Thereby, developing an efficient eco-friendly pesticide formulation is of great significance. In this research, a biocompatible and ultrastable pesticide formulation has been developed in which merely 1 wt % natural glycyrrhizic acid (GA) was used to emulsify and stabilize 80 wt % agricultural oils. During the preparation process, amphiphilic GA molecules initially self-assembled into 1D nanofibers with a favorable surfactivity, and then afforded GA-based Pickering emulsions with fine droplets. Consequently, the Pickering emulsions transformed into gel-like Pickering emulsions as a result of the formation of a 3D network of nanofibers. On account of the unique chemical structure and admirable assembly behavior of GA, the gel-like Pickering emulsions exhibit ultrastability, thixotropy, and broad pH resistance. In addition, this formulation was investigated for its potential application to pesticides by using pure carbosulfan as the oil phase; up to 60 wt % carbosulfan could be coated, which is more than in the current commercial formulations. This work not only provides new insights into the application of natural biosurfactants to pesticides, but also proposes a biocompatible and eco-friendly pesticide formulation for use in ecological agriculture.

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A minimal length rigid helical peptide motif allows rational design of modular surfactants

Cited by 52 publications

References 49 publications

Redox‐Active Peptide‐Functionalized Quinquethiophene‐Based Electrochromic π‐Gel

Redox‐Active Peptide‐Functionalized Quinquethiophene‐Based Electrochromic π‐Gel

From self‐assembled peptide‐ynes to peptide polyacetylenes and polydiacetylenes

A Natural Triterpene Saponin‐Based Pickering Emulsion

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