Surface Water as a Mediator and Reporter of Adhesion at Aqueous Interfaces

Jarisz, Tasha A.; Roy, Sandra; Hore, Dennis K.

doi:10.1021/acs.accounts.8b00258

Cited by 13 publications

(8 citation statements)

References 47 publications

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“…Water has some unique or anomalous physiochemical properties [ 25 , 26 , 27 , 28 , 29 ]. The water molecule consists of a highly electronegative oxygen atom that is covalently bound to two weakly electropositive hydrogen atoms that form a 104.5° angle, giving the molecule a close-to-tetrahedral structure.…”

Section: The Anomalous Properties Of Watermentioning

confidence: 99%

Anomalous Properties of Cyclodextrins and Their Complexes in Aqueous Solutions

2023

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Cyclodextrins (CDs) are cyclic oligosaccharides that emerged as industrial excipients in the early 1970s and are currently found in at least 130 marketed pharmaceutical products, in addition to numerous other consumer products. Although CDs have been the subject of close to 100,000 publications since their discovery, and although their structure and properties appear to be trivial, CDs are constantly surprising investigators by their unique physicochemical properties. In aqueous solutions, CDs are solubilizing complexing agents of poorly soluble drugs while they can also act as organic cosolvents like ethanol. CDs and their complexes self-assemble in aqueous solutions to form both nano- and microparticles. The nanoparticles have diameters that are well below the wavelength of visible light; thus, the solutions appear to be clear. However, the nanoparticles can result in erroneous conclusions and misinterpretations of experimental results. CDs can act as penetration enhancers, increasing drug permeation through lipophilic membranes, but they do so without affecting the membrane barrier. This review is an account of some of the unexpected results the authors have encountered during their studies of CDs as pharmaceutical excipients.

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Section: The Anomalous Properties Of Watermentioning

confidence: 99%

Anomalous Properties of Cyclodextrins and Their Complexes in Aqueous Solutions

2023

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“…SFG spectra from interfacial peptides in different polarization combinations including ssp (s-polarized output SFG signal, s-polarized input visible beam, and p-polarized input IR beam) and ppp were collected using the near total internal reflection geometry (Figure c). The detected SFG intensity ( I SFG ) can be expressed as follows: − ,− where χ eff (2) is the effective second-order susceptibility, and χ NR (2) is the non-resonant contribution. A q , ω q , and Γ q are the SFG signal amplitude, the vibrational frequency (peak center), and the damping coefficient (peak width) of the vibrational mode q, respectively.…”

Section: Methodsmentioning

confidence: 99%

Conformation and Orientation of Antimicrobial Peptides MSI-594 and MSI-594A in a Lipid Membrane

2023

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There is significant interest in the development of antimicrobial compounds to overcome the increasing bacterial resistance to conventional antibiotics. Studies have shown that naturally occurring and de novo-designed antimicrobial peptides could be promising candidates. MSI-594 is a synthetic linear, cationic peptide that has been reported to exhibit a broad spectrum of antimicrobial activities. Investigation into how MSI-594 disrupts the cell membrane is important for better understanding the details of this antimicrobial peptide (AMP)’s action against bacterial cells. In this study, we used two different synthetic lipid bilayers: zwitterionic 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine (POPC) and anionic 7:3 POPC/1-palmitoyl-2-oleoyl-sn-glycero-3-phospho(1′-rac-glycerol) (POPG). Sum frequency generation (SFG) vibrational spectroscopy and attenuated total reflectance-Fourier transform infrared spectroscopy (ATR-FTIR) were used to determine the orientations of MSI-594 and its analogue MSI-594A associated with zwitterionic POPC and anionic 7:3 POPC/POPG lipid bilayers. The simulated ATR-FTIR and SFG spectra using nuclear magnetic resonance (NMR)-determined structures were compared with experimental spectra to optimize the bent angle between the N- (1–11) and C- (12–24) termini helices and the membrane orientations of the helices; since the NMR structure of the peptide was determined from lipopolysaccharide (LPS) micelles, the optimization was needed to find the most suitable conformation and orientation in lipid bilayers. The reported experimental results indicate that the optimized MSI-594 helical hairpin structure adopts a complete lipid bilayer surface-bound orientation (denoted “face-on”) in both POPC and 7:3 POPC/POPG lipid bilayers. The analogue peptide, MSI-584A, on the other hand, exhibited a larger bent angle between the N- (1–11) and C- (12–24) termini helices with the hydrophobic C-terminal helix inserted into the hydrophobic region of the bilayer (denoted “membrane-inserted”) when interacting with both POPC and 7:3 POPC/POPG lipid bilayers. These experimental findings on the membrane orientations suggest that both peptides are likely to disrupt the cell membrane through the carpet mechanism.

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“…This is often observed for biological surfaces such as protein films and lipid monolayers, and can be explained by the interaction and alignment of water molecules at the InaZ9R interface. 39 As the buffer temperature is decreased to 10°C, and subsequently to 5°C (close to the melting temperature of heavy water of ~4°C), the water signal is strongly increased. Fitting the data with Lorentzian functions for the resonant modes and a non-resonant background (see SI for details) shows that all water modes are affected by the temperature change, to slightly varying extents (see Figure 1C).…”

Section: Water Structure At the Inaz Interfacementioning

confidence: 99%

The Ice Nucleating Protein InaZ is Activated by Low Temperature

Roeters¹,

Golbek²,

Bregnhøj³

et al. 2020

Preprint

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Ice-nucleation active (INA) bacteria can promote the growth of ice more effectively than any other known material. Utilizing specialized ice-nucleating proteins (INPros), they obtain nutrients from plants by inducing frost damage and, when airborne in the atmosphere, they drive ice nucleation within clouds and may affect global precipitation patterns. Despite their evident environmental importance, the molecular mechanisms behind INProinduced freezing have remained largely elusive. In the present study, we investigated the folding and the structural basis for interactions between water and the ice-nucleating protein InaZ from the INA bacterium Pseudomonas syringae strain R10.79. Using vibrational sum-frequency generation and two-dimensional infrared spectroscopy, we demonstrate that the ice-active repeats of InaZ adopt a β-helical structure in solution and at water surfaces.In this configuration, hydrogen bonding between INPros and water molecules imposes structural ordering on the adjacent water network. The observed order of water increases as the interface is cooled to temperatures close to the melting point of water. Experimental SFG data combined with spectral calculations and molecular-dynamics simulations shows that the INPro reorients at lower temperatures. We suggest that the reorientation can enhance order-inducing water interactions and, thereby, the effectiveness of ice nucleation by InaZ.

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Surface Water as a Mediator and Reporter of Adhesion at Aqueous Interfaces

Cited by 13 publications

References 47 publications

Anomalous Properties of Cyclodextrins and Their Complexes in Aqueous Solutions

Anomalous Properties of Cyclodextrins and Their Complexes in Aqueous Solutions

Conformation and Orientation of Antimicrobial Peptides MSI-594 and MSI-594A in a Lipid Membrane

The Ice Nucleating Protein InaZ is Activated by Low Temperature

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