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We have successfully achieved selective and efficient functionalization of sheet edges in microcrystalline multilayer γ-graphyne through two methods: cross-coupling with residual bromide edge groups and copper-catalyzed azide-alkyne cycloaddition (CuAAC) with edge terminal alkyne groups. This modification significantly enhances the ease of mechanical exfoliation and dispersibility of the sheets of γ-graphyne. Specifically, C18-grafted γ-graphyne forms stable dispersions in compatible organic solvents, allowing for the imaging of atomically thin layers of γ-graphyne for the first time. Additionally, we have discovered that phenylacetylide edge groups alter the preferred stacking mode of γ-graphyne sheets. Few-layer flakes of Ph-edge γ-graphyne exhibit a preference for the R3m space group, contrasting with the aperiodic stacking of Br-edge γ-graphyne. These results open the door for scalable exfoliation of few-layer flakes of γ-graphyne with a high aspect ratio, enabling potential applications in carbon electronics.
RESUMEN
γ-Graphyne is the most symmetric sp2/sp1 allotrope of carbon, which can be viewed as graphene uniformly expanded through the insertion of two-carbon acetylenic units between all the aromatic rings. To date, synthesis of bulk γ-graphyne has remained a challenge. We here report the synthesis of multilayer γ-graphyne through crystallization-assisted irreversible cross-coupling polymerization. A comprehensive characterization of this new carbon phase is described, including synchrotron powder X-ray diffraction, electron diffraction, lateral force microscopy, Raman spectroscopy, infrared spectroscopy, and cyclic voltammetry. Experiments indicate that γ-graphyne is a 0.48 eV band gap semiconductor, with a hexagonal a-axis spacing of 6.88 Å and an interlayer spacing of 3.48 Å, which is consistent with theoretical predictions. The observed crystal structure has an aperiodic sheet stacking. The material is thermally stable up to 240 °C but undergoes transformation at higher temperatures. While conventional 2D polymerization and reticular chemistry rely on error correction through reversibility, we demonstrate that a periodic covalent lattice can be synthesized under purely kinetic control. The reported methodology is scalable and inspires extension to other allotropes of the graphyne family.
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The goal of this study was to develop an assay for the detection and differentiation of noroviruses using RT-PCR followed by electrospray ionization mass spectrometry (ESI-MS). Detection of hepatitis A virus was also considered. Thirteen primer pairs were designed for use in this assay and a reference database was created using GenBank sequences and reference norovirus samples. The assay was tested for inclusivity and exclusivity using 160 clinical norovirus samples, 3 samples of hepatitis A virus and 3 other closely related viral strains. Results showed that the assay was able to detect norovirus with a sensitivity of 92% and a specificity of 100%. Norovirus identification at the genogroup level was correct for 98% of samples detected by the assay and for 75% of a subset of samples (n = 32) compared at the genotype level. Identification of norovirus genotypes is expected to improve as more reference samples are added to the database. The assay was also capable of detecting and genotyping hepatitis A virus in all 3 samples tested. Overall, the assay developed here allows for detection and differentiation of noroviruses within one working day and may be used as a tool in surveillance efforts or outbreak investigations.
Asunto(s)
Contaminación de Alimentos/análisis , Norovirus/química , Norovirus/aislamiento & purificación , Reacción en Cadena de la Polimerasa de Transcriptasa Inversa/métodos , Espectrometría de Masa por Ionización de Electrospray/métodos , Cartilla de ADN/genética , Humanos , Norovirus/genética , Sensibilidad y EspecificidadRESUMEN
An assay to identify the common food-borne pathogens Salmonella, Escherichia coli, Shigella, and Listeria monocytogenes was developed in collaboration with Ibis Biosciences (a division of Abbott Molecular) for the Plex-ID biosensor system, a platform that uses electrospray ionization mass spectroscopy (ESI-MS) to detect the base composition of short PCR amplicons. The new food-borne pathogen (FBP) plate has been experimentally designed using four gene segments for a total of eight amplicon targets. Initial work built a DNA base count database that contains more than 140 Salmonella enterica, 139 E. coli, 11 Shigella, and 36 Listeria patterns and 18 other Enterobacteriaceae organisms. This assay was tested to determine the scope of the assay's ability to detect and differentiate the enteric pathogens and to improve the reference database associated with the assay. More than 800 bacterial isolates of S. enterica, E. coli, and Shigella species were analyzed. Overall, 100% of S. enterica, 99% of E. coli, and 73% of Shigella spp. were detected using this assay. The assay was also able to identify 30% of the S. enterica serovars to the serovar level. To further characterize the assay, spiked food matrices and food samples collected during regulatory field work were also studied. While analysis of preenrichment media was inconsistent, identification of S. enterica from selective enrichment media resulted in serovar-level identifications for 8 of 10 regulatory samples. The results of this study suggest that this high-throughput method may be useful in clinical and regulatory laboratories testing for these pathogens.
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Técnicas Bacteriológicas/métodos , Escherichia coli/clasificación , Microbiología de Alimentos , Reacción en Cadena de la Polimerasa/métodos , Salmonella enterica/clasificación , Shigella/clasificación , Espectrometría de Masa por Ionización de Electrospray/métodos , ADN Bacteriano/química , ADN Bacteriano/genética , Escherichia coli/química , Escherichia coli/genética , Escherichia coli/aislamiento & purificación , Ensayos Analíticos de Alto Rendimiento , Salmonella enterica/química , Salmonella enterica/genética , Salmonella enterica/aislamiento & purificación , Shigella/química , Shigella/genética , Shigella/aislamiento & purificaciónRESUMEN
The synthesis of a fully degradable, bio-based, sustained release, pro-antimicrobial polymer network comprised of degradable acetals (PANDA) is reported. The active antimicrobial agent - p-anisaldehyde (pA) (an extract from star anise) - was converted into a UV curable acetal containing pro-antimicrobial monomer and subsequently photopolymerized into a homogenous thiol-ene network. Under neutral to acidic conditions (pHâ¯<â¯8), the PANDAs undergo surface erosion and exhibit sustained release of pA over 38â¯days. The release of pA from PANDAs was shown to be effective against both bacterial and fungal pathogens. From a combination of confocal microscopy and transmission electron microscopy, we observed that the released pA disrupts the cell membrane. Additionally, we demonstrated that PANDAs have minimal cytotoxicity towards both epithelial cells and macrophages. Although a model platform, these results point to promising pathways for the design of fully degradable sustained-release antimicrobial systems with potential applications in agriculture, pharmaceuticals, cosmetics, household/personal care, and food industries. STATEMENT OF SIGNIFICANCE: With the increasing number of patients prescribed immunosuppressants coupled with the rise in antibiotic resistance - life-threatening microbial infections are a looming global threat. With limited success within the antibiotic pipeline, nature-based essential oils (EOs) are being investigated for their multimodal effectiveness against microbes. Despite the promising potential of EOs, difficulties in their encapsulation, limited water solubility, and high volatility limit their use. Various studies have shown that covalent attachment of these EO derivatives to polymers can mitigate these limitations. The current study presents the synthesis of a fully-degradable, sustained release, cytocompatible, pro-antimicrobial acetal network derived from p-anisaldehyde. This polymer network design provides a pathway toward application-specific EO releasing materials with quantitative encapsulation efficiencies, sustained release, and broad-spectrum antimicrobial activity.
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Acetales/síntesis química , Antiinfecciosos/síntesis química , Materiales Biocompatibles/síntesis química , Polímeros/síntesis química , Acetales/química , Animales , Antiinfecciosos/química , Antiinfecciosos/farmacología , Antifúngicos/farmacología , Bacterias/efectos de los fármacos , Materiales Biocompatibles/química , Materiales Biocompatibles/farmacología , Muerte Celular/efectos de los fármacos , Membrana Celular/efectos de los fármacos , Membrana Celular/metabolismo , Chlorocebus aethiops , Hongos/efectos de los fármacos , Cinética , Ratones , Pruebas de Sensibilidad Microbiana , Polímeros/química , Células RAW 264.7 , Células VeroRESUMEN
We describe the synthesis of pro-antimicrobial networks via degradable acetals (PANDAs) as a new paradigm for sequestration and triggered release of volatile, bioactive aldehydes. PANDAs derived from diallyl p-chlorobenzaldehyde acetal degrade and release p-chlorobenzaldehyde as an antibacterial and antifungal agent under mild conditions (pH 7.4/high humidity). We show that PANDAs enable facile access to materials with tunable release profiles, potent antimicrobial activity without triggering antimicrobial resistance, and minimal cytotoxicity.
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The use of 16S rRNA gene sequencing within the regulatory workflow may help to reduce the time and labor involved in the identification and differentiation of Salmonella enterica isolates. However, a comprehensive, standardized reference library is needed in order to use this method with regulatory samples. The goal of this project was to acquire 16S rRNA partial and full gene sequences for a variety of S. enterica isolates and to use these sequences to build a custom 16S rRNA reference library. A total of 535 S. enterica isolates representing over 100 serotypes and 5 subspecies were selected for 16S rRNA partial gene sequencing (~500 bp) and 66 isolates representing 32 serotypes and 2 subspecies were selected for 16S rRNA full gene sequencing (~1500 bp). PCR, sequencing, and automated sequence assembly and editing were carried out using the MicroSEQ ID Microbial Identification System (Applied Biosystems). High quality sequences were obtained for 94.4% and 95.5% of the isolates sequenced over the partial and full genes, respectively. These sequences did not show sufficient divergence to reliably differentiate serotypes; however, they could be differentiated using 16S rRNA sequence typing based on intragenomic heterogeneity. A total of 83 unique 16S sequence types were obtained for use in the partial gene library and 58 unique 16S sequence types were obtained for entry into the full gene library. Preliminary sequencing results with one isolate analyzed in replicate were promising, with consistent matches to a specific 16S type in the custom library. The result of this study is a custom S. enterica 16S rRNA type library for potential use in the identification of isolates at the species, subspecies, and molecular subtype level. Further work will include validating the method for parameters such as exclusivity, sensitivity, and reproducibility.
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Técnicas de Tipificación Bacteriana/métodos , Reacción en Cadena de la Polimerasa/métodos , ARN Ribosómico 16S/genética , Salmonella enterica/genética , Salmonella enterica/aislamiento & purificación , Alimentación Animal/microbiología , ADN Bacteriano/genética , ADN Ribosómico/genética , Microbiología Ambiental , Microbiología de Alimentos , Biblioteca de Genes , Datos de Secuencia Molecular , Filogenia , Salmonella enterica/clasificaciónRESUMEN
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