Phase Behavior Modulation of a Unary DNA Origami System through Allosteric Stimuli.

A unary system is the most conceptually concise design for conducting self-assembly. However, in most DNA-guided self-assembly schemes, a unary system has rarely been adopted because of the inherent challenge of strictly decoupling the monomer synthesis process from the assembly process, which may directly lead to the inaccurate control over assembly. Herein, we provide a multi-stimulus-triggered assembly strategy based on the DNA origami structure, which allows the unary system to realize controllable crystallization and phase transition by exerting allosteric stimuli.

Layer-Controllable "2.5D" DNA Origami Crystals Synthesized by a Hierarchical Assembly Strategy.

The finite periodic arrangement of functional nanomaterials on the two-dimensional scale enables the integration and enhancement of individual properties, making them an important research topic in the field of tuneable nanodevices. Although layer-controllable lattices such as graphene have been successfully synthesized, achieving similar control over colloidal nanoparticles remains a challenge. DNA origami technology has achieved remarkable breakthroughs in programmed nanoparticle assembly.

A Comprehensive Review on Combinatorial Film via High-Throughput Techniques.

Numerous technological advancements in the 21st century depend on the creation of novel materials possessing enhanced properties; there is a growing reliance on materials that can be optimized to serve multiple functions. To efficiently save time and meet the requirements of diverse applications, high-throughput and combinatorial approaches are increasingly employed to explore and design superior materials. Among them, gradient thin-film deposition is one of the most mature and widely used technologies for high-throughput preparation of material libraries.

Serum Vaspin Levels in Gestational Diabetes Mellitus: A Meta-Analysis.

The objective of this study was to evaluate the potential relationship between serum vaspin levels and gestational diabetes mellitus (GDM). The PubMed, EBSCO, Web of Science, the Cochrane Library, and the China National Knowledge Infrastructure (CNKI) database were searched for articles published before December 2022. The publication language was restricted to English and Chinese.

An efficient transformation method for tannin-containing sorghum.

Background: Tannins are the main bottlenecks restricting the transformation efficiency of plants. Hongyingzi is a special tannin-containing sorghum cultivar used in brewing.

Methods: In this study, a highly efficient microprojectile transformation system for tannin-containing sorghum was successfully exploited using immature embryos (IEs) of Hongyingzi as explants.

Dynamically Reconfigurable DNA Origami Crystals Driven by a Designated Path Diagram.

Constructing adaptable and switchable crystal structures renders it possible to dynamically control the properties and functions of adaptive materials, thereby expanding the potential application of these structures in fields such as optics, biology, and catalysis. Recently, researchers have developed various dynamic crystals possessing phase transition abilities. However, manufacturing switchable crystals with multiple-phase-transition ability by integrating various responsive behaviors into different dimensions of a single lattice remains considerably challenging.

Effects of arginine vasopressin on the transcriptome of prefrontal cortex in autistic rat model.

Our previous studies have also demonstrated that AVP can significantly improve social interaction disorders and stereotypical behaviours in rats with VPA-induced autism model. To further explore the mechanisms of action of AVP, we compared the PFC transcriptome changes before and after AVP treatment in VPA-induced autism rat model. The autism model was induced by intraperitoneally injected with VPA at embryonic day 12.

pH-Induced Symmetry Conversion of DNA Origami Lattices.

DNA nanotechnology has provided credible approaches for assembly of three-dimensional (3D) lattices with complex patterns. However, the symmetries are strictly dependent on their initial configurations and difficult to alter via non-thermal treatments. While switchable nucleic acid structures have been employed to construct deformable DNA motifs, it remains challenging to arrange them anisotropically in 3D lattices to trigger directed collective shape transition and dynamic symmetry conversion.

DNA-Mediated Assembly of Carbon Nanomaterials.

Carbon nanomaterials (CNMs) have attracted extensive attentions on account of their superior electrical, mechanical, optical, and biological properties. However, the dimensional limit and irregular arrangement have hampered their further application. It is necessary to find an easy, efficient and controllable way to assemble CNMs into well-ordered array.

The Changes of Amygdala Transcriptome in Autism Rat Model After Arginine Vasopressin Treatment.

Background: Some studies have shown that arginine vasopressin (AVP) can significantly improve the social interaction disorder of autism, but the mechanism remains unclear.

Methods: Female Wistar rats were intraperitoneally injected with VPA or normal saline at embryonic day 12.5 to establish an autism model or normal control in their offspring.

Low-entropy lattices engineered through bridged DNA origami frames.

The transformation from disorder to order in self-assembly is an autonomous entropy-decreasing process. The spatial organization of nanoscale anisotropic building blocks involves the intrinsic heterogeneity in three dimensions and requires sufficiently precise control to coordinate intricate interactions. Only a few approaches have been shown to achieve the anisotropic extension from components to assemblies.

Assessment of Exenatide loaded Biotinylated Trimethylated Chitosan/HP- 55 Nanoparticles.

Background: Exenatide(EXE) is an anti-hyperglycemic agent approved for treating type 2 diabetes by the Food and Drug Administration(FDA). However, twice-daily injection of exenatide is inconvenient for most of the patients.

Objective: In this study, biotinylated trimethylated chitosan(Bio-TMC) based nanoparticles were proposed to promote oral absorption of exenatide.

Bottom-Up Self-Assembly Based on DNA Nanotechnology.

Manipulating materials at the atomic scale is one of the goals of the development of chemistry and materials science, as it provides the possibility to customize material properties; however, it still remains a huge challenge. Using DNA self-assembly, materials can be controlled at the nano scale to achieve atomic- or nano-scaled fabrication. The programmability and addressability of DNA molecules can be applied to realize the self-assembly of materials from the bottom-up, which is called DNA nanotechnology.

Analysing the phenotype development of soybean plants using low-cost 3D reconstruction.

With the development of digital agriculture, 3D reconstruction technology has been widely used to analyse crop phenotypes. To date, most research on 3D reconstruction of field crops has been limited to analysis of population characteristics. Therefore, in this study, we propose a method based on low-cost 3D reconstruction technology to analyse the phenotype development during the whole growth period.

Effects of Nitrogen Content on the Structure and Mechanical Properties of (AlCrFeNiTi)N High-Entropy Films by Reactive Sputtering.

In this study, (AlCrFeNiTi)N high-entropy films are prepared by a reactive direct current (DC) magnetron sputtering at different N flow rates on silicon wafers. It is found that the structure of (AlCrFeNiTi)N high-entropy films is amorphous, with x = 0. It transforms from amorphous to a face-centered-cubic (FCC) structure with the increase of nitrogen content, while the bulk AlCrFeNiTi counterpart prepared by casting features a body-centered-cubic (BCC) phase structure.

[Expressions of HSP 70 and NF-kappaB in the peripheral blood lymphocyte of chronic gastritis patients of different syndrome patterns].

Objective: To study the expressions of heat shock protein 70 (HSP 70) and nuclear factor-kappa B (NF-kappaB) in the peripheral blood lymphocyte of chronic gastritis (CG) patients of Pi-Wei hygropyrexia syndrome (PWHS) and Pi-qi deficiency syndrome (PQDS), and to explore their correlation with Helicobacter pylori (Hp) infection.

Methods: Recruited were totally 86 CG patients who visited at the clinics of gastroenterology, First Affiliated Hospital of Guangzhou University of Traditional Chinese Medicine, including 67 patients of PWHS (30 of predominant-dampness, 30 of equal dampness and heat, and 30 of predominant-heat) and 19 patients of PQDS. Another 12 volunteers from healthy employees and students of Guangzhou University of Traditional Chinese Medicine were recruited as the control group.