Acoustically shaped DNA-programmable materials.

Recent advances in DNA nanotechnology allow for the assembly of nanocomponents with nanoscale precision, leading to the emergence of DNA-based material fabrication approaches. Yet, transferring these nano- and micron-scale structural arrangements to the macroscale morphologies remains a challenge, which limits the development of materials and devices based on DNA nanotechnology. Here, we demonstrate a materials fabrication approach that combines DNA-programmable assembly with actively driven processes controlled by acoustic fields.

A self-healing multispectral transparent adhesive peptide glass.

Despite its disordered liquid-like structure, glass exhibits solid-like mechanical properties. The formation of glassy material occurs by vitrification, preventing crystallization and promoting an amorphous structure. Glass is fundamental in diverse fields of materials science, owing to its unique optical, chemical and mechanical properties as well as durability, versatility and environmental sustainability.

Intrinsic fluorescence of nucleobase crystals.

Nucleobase crystals demonstrate unique intrinsic fluorescence properties in the visible spectral range. This is in contrast to their monomeric counterparts. Moreover, some nucleobases were found to exhibit red edge excitation shift.

Tunable Self-Assembled Peptide Hydrogel Sensor for Pharma Cold Supply Chain.

Defrost sensors are a crucial element for proper functioning of the pharmaceutical cold chain. In this paper, the self-assembled peptide-based hydrogels were used to construct a sensitive defrost sensor for the transportation and storage of medications and biomaterials. The turbidity of the peptide hydrogel was employed as a marker of the temperature regime.

Inhibitor-Mediated Structural Transition in a Minimal Amyloid Model.

Despite the fundamental clinical importance of amyloid fibril formation, its mechanism is still enigmatic. Crystallography of minimal amyloid models was a milestone in the understanding of the architecture and biological activities of amyloid fibers. However, the crystal structure of ultimate dipeptide-based amyloids is not yet reported.

Modification of a Single Atom Affects the Physical Properties of Double Fluorinated Fmoc-Phe Derivatives.

Supramolecular hydrogels formed by the self-assembly of amino-acid based gelators are receiving increasing attention from the fields of biomedicine and material science. Self-assembled systems exhibit well-ordered functional architectures and unique physicochemical properties. However, the control over the kinetics and mechanical properties of the end-products remains puzzling.

On-off transition and ultrafast decay of amino acid luminescence driven by modulation of supramolecular packing.

Luminescence of biomolecules in the visible range of the spectrum has been experimentally observed upon aggregation, contrary to their monomeric state. However, the physical basis for this phenomenon is still elusive. Here, we systematically examine all coded amino acids to provide non-biased empirical insights.

Patterns of patient reluctance to receive complementary-medicine treatments in a hospital setting: A cross-sectional study.

Objective: We aim to characterize the patient population that exhibits reluctance to undergo complementary medicine (CM) treatments in a hospital setting.

Methods: We conducted a cross-sectional prospective study among patients prior to hospitalization using structured questionnaires in a single center in Israel. Participants were asked to rate their degree of consent to receiving CM treatments during hospitalization.

Co-Assembly between Fmoc Diphenylalanine and Diphenylalanine within a 3D Fibrous Viscous Network Confers Atypical Curvature and Branching.

Supramolecular polymer co-assembly is a useful approach to modulate peptide nanostructures. However, the co-assembly scenario where one of the peptide building blocks simultaneously forms a hydrogel is yet to be studied. Herein, we investigate the co-assembly formation of diphenylalanine (FF), and Fmoc-diphenylalanine (FmocFF) within the 3D network of FmocFF hydrogel.

Nanomechanical Properties and Phase Behavior of Phenylalanine Amyloid Ribbon Assemblies and Amorphous Self-Healing Hydrogels.

Phenylalanine was the minimalistic and first of numerous nonproteinaceous building blocks to be demonstrated to form amyloid-like fibrils. This unexpected organization of such a simple building block into canonical architecture, which was previously observed only with proteins and peptides, has numerous implications for medicine and supramolecular chemistry. However, the morphology of phenylalanine fibrils and their mechanical properties was never characterized in solutions.

Reevaluating the Microbial Infection Link to Alzheimer's Disease.

Alzheimer's disease (AD) is the most common cause of dementia. Despite substantial investment in research, there are no current effective treatments to prevent or delay the onset and development of AD and the exact molecular mechanism of AD pathogenesis is still not fully understood. Researchers have long suspected that microbial infections may play a role in AD; however, this hypothesis has been greatly overlooked for decades, only recently gaining a traction and recognition within the broad scientific community due to new overwhelming evidence on the association of various pathogenic microbes and AD.

Rigid Tightly Packed Amino Acid Crystals as Functional Supramolecular Materials.

The formation of ordered nanostructures by metabolites is gaining increased interest due to the simplicity of the building blocks and their natural occurrence. Specifically, aromatic amino acids possess the ability to form ordered supramolecular interactions due to their limited solubility in aqueous solution. Unexpectedly, l-tyrosine (l-Tyr) is almost 2 orders of magnitude less soluble in water compared to l-phenylalanine (l-Phe).

Complementary and alternative medicine interventions for perioperative symptoms: A comparative effectiveness study.

Introduction: Perioperative symptoms such as pain, nausea and anxiety are often inadequately treated. We conducted a pragmatic trial to evaluate the impact of Complementary and Alternative Medicine (CAM) treatments on these symptoms, within the framework of a general surgery department that integrates CAM.

Methods: Patients ≥ 18 years referred to CAM treatments by surgical medical staff were allocated to standard of care with CAM treatment (CAM group) or without, according to patient preference and practitioner availability.

Oligosaccharides Self-Assemble and Show Intrinsic Optical Properties.

Self-assembling peptides and oligonucleotides have given rise to synthetic materials with several applications in nanotechnology. Aggregation of synthetic oligosaccharides into well-defined architectures has not been reported even though natural polysaccharides, such as cellulose and chitin, are key structural components of biomaterials. Here, we report that six synthetic oligosaccharides, ranging from dimers to hexamers, self-assemble into nanostructures of varying morphologies and emit within the visible spectrum in an excitation-dependent manner.

Microfluidics for real-time direct monitoring of self- and co-assembly biomolecular processes.

Molecular self-assembly is a major approach for the fabrication of functional supramolecular nanomaterials. This dynamic, straightforward, bottom-up procedure may result in the formation of various architectures at the nano-scale, with remarkable physical and chemical characteristics. Biological and bio-inspired building blocks are especially attractive due to their intrinsic tendency to assemble into well-organized structures, as well as their inherent biocompatibility.

Transition of Metastable Cross-α Crystals into Cross-β Fibrils by β-Turn Flipping.

The ensemble of native, folded state was once considered to represent the global energy minimum of a given protein sequence. More recently, the discovery of the cross-β amyloid state revealed that deeper energy minima exist, often associated with pathogenic, fibrillar deposits, when the concentration of proteins reaches a critical value. Fortunately, a sizable energy barrier impedes the conversion from native to pathogenic states.

Can complementary medicine enhance doctor-patient communication skills? Insights from an international medical student project.

Introduction: Communication is an essential component of patient care, and although medical schools provide training on this topic, patients and physicians alike express the need to improve their communication skills. An international medical student collaboration explored whether complementary medicine (CM) has the ability to further enhance patient-doctor communication.

Methods: Twenty-two medical students, nine mentors and two public representatives from Israel and Germany participated in this 18-month international group project.

Intrinsic Fluorescence of Metabolite Amyloids Allows Label-Free Monitoring of Their Formation and Dynamics in Live Cells.

The formation of apoptosis-inducing amyloidal structures by metabolites has significantly extended the "amyloid hypothesis" to include non-proteinaceous, single metabolite building blocks. However, detection of metabolite assemblies is restricted compared to their larger protein-based counterparts owing to the hindrance of external labelling and limited immunohistochemical detection tools. Herein, we present the detection of the formation, dynamics, and cellular distribution of metabolite amyloid-like structures and provide mechanistic insights into the generation of supramolecular chromophores.

Complementary medicine for laboring women: a qualitative study of the effects of reflexology.

Background Despite pharmacological interventions, labor pain and anxiety still remain a challenge, and can carry long-term psychological complications. The goal of this study was to assess the effect of reflexology on these symptoms and to explore the physical and psychological components of women's experience associated with this treatment. Methods This qualitative study was conducted in an Israeli university hospital that offers integrative medicine services.

Opal-like Multicolor Appearance of Self-Assembled Photonic Array.

Molecular self-assembly of short peptide building blocks leads to the formation of various material architectures that may possess unique physical properties. Recent studies had confirmed the key role of biaromaticity in peptide self-assembly, with the diphenylalanine (FF) structural family as an archetypal model. Another significant direction in the molecular engineering of peptide building blocks is the use of fluorenylmethoxycarbonyl (Fmoc) modification, which promotes the assembly process and may result in nanostructures with distinctive features and macroscopic hydrogel with supramolecular features and nanoscale order.

Nurses as boundary actors: Promoting integrative medicine in hospital wards.

Objective: The objective of the research was to explore attitudes of hospital nurses toward integrative medicine (IM).

Design: A special training program was developed in the Bnai-Zion medical center, a public hospital in Israel, where an innovative IM program was launched.

Methods: 65 nurses from 22 wards were asked at the beginning and the end of the program to complete an open-ended questionnaire concerning three major aspects: 1) their attitudes toward complementary medicine and its integration, 2) the importance and impact of the training program and 3) how they perceive their potential role in promoting IM in the wards.

First, keep it safe: Integration of a complementary medicine service within a hospital.

Objectives: This paper sought to explore risk/safety considerations associated with the integration of a complementary medicine (CM) service within a public academic medical centre in Israel.

Methods: We reviewed various sources pertaining to the CM service (interviews with CM staff, patients' electronic charts, service guidelines, correspondence with hospital administration) and conducted a thematic analysis to evaluate safety-related incidents during the 7 years of operation. In addition, we systematically assessed the charts for reports of treatment-associated adverse effects, which were documented in an obligatory field on treatment reports.