Development of a Rapid Visual Detection Assay for Duck Tembusu Virus Using RT-LAMP-CRISPR/Cas12a.

Duck Tembusu virus (DTMUV) is an emerging flavivirus that has inflicted significant economic losses on China's poultry industry. Rapid and accurate detection of DTMUV is crucial for effective prevention and control measures. In this study, we developed a novel, rapid visual detection assay that combines reverse transcriptase loop-mediated isothermal amplification (RT-LAMP) with the CRISPR/Cas12a system for on-site detection of DTMUV.

SYISL Knockout Promotes Embryonic Muscle Development of Offspring by Modulating Maternal Gut Microbiota and Fetal Myogenic Cell Dynamics.

Embryonic muscle fiber formation determines post-birth muscle fiber totals. The previous research shows SYISL knockout significantly increases muscle fiber numbers and mass in mice, but the mechanism remains unclear. This study confirms that the SYISL gene, maternal gut microbiota, and their interaction significantly affect the number of muscle fibers in mouse embryos through distinct mechanisms, as SYISL knockout alters maternal gut microbiota composition and boosts butyrate levels in embryonic serum.

The hexose transporters CsHT3 and CsHT16 regulate postphloem transport and fruit development in cucumber.

Hexoses are essential for plant growth and fruit development. However, the precise roles of hexose/H+ symporters in postphloem sugar transport and cellular sugar homeostasis in rapidly growing fruits remain elusive. To elucidate the functions of hexose/H+ symporters in cucumber (Cucumis sativus L.

Transcriptional responses of three slc39a/zip members (zip4, zip5 and zip9) and their roles in Zn metabolism in grass carp (Ctenopharyngodon idella).

In order to explore the regulatory mechanism of zip4, zip5 and zip9 in zinc metabolism of grass carp (Ctenopharyngodon idella), the effects of zinc (Zn) on the mRNA expression of zip4, zip5 and zip9 were investigated. Compared to the control, the mRNA levels of zip4 and zip9 were significantly reduced under low and high zinc in L8824 cells; the mRNA expression level of zip5 was significantly increased under low and high zinc incubation. Then, their promoter sequences were cloned, which were 2361 bp, 2004 bp and 2186 bp sequences for zip4, zip5 and zip9 promoters, respectively.

The role of the hypothalamus-gut microbiota in the pathogenesis of periparturient fatty liver disease in dairy cows.

During the periparturient period, dairy cows experience negative energy balance due to reduced feed intake, leading to adipose tissue breakdown, liver damage, and fat accumulation. This study examined the gut-liver-brain axis to explore the link between fatty liver disease, changes in hypothalamic appetite-related neurons, and microbiome shifts in dairy cows. Thirty cows were monitored, with daily DMI recordings and blood sampling.

Soybean nodulation shapes the rhizosphere microbiome to increase rapeseed yield.

Introduction: Crop rotation, a crucial agricultural practice that enhances soil health and crop productivity, is widely used in agriculture worldwide. Soybeans play a crucial role in crop rotation owing to their nitrogen-fixing ability, which is facilitated by symbiotic bacteria in their root systems. The soybean-rapeseed rotation is an effective agricultural practice in the Yangtze River Basin of China.

Preparation and characterization of natural microcapsules EYG (egg yolk granules) with OPO(1,3-dioleic acid-2-palmitic acid triglyceride): Unique application of EYG riches in low/high-density lipoproteins on OPO stability.

Glycerol 1,3-dioleic acid, 2-palmitate (OPO) structural lipids are one of the important types of breast milk replacement lipids. Due to the presence of polyunsaturated fatty acids (PUFA) in the OPO structure, causing it to be extremely unstable. This study aimed to embed OPO through homogenization and spray drying based on egg yolk granules (EYG, riches in low/high-density lipoproteins) to prepare OPO natural microcap1sules.

Boosting transcriptional activities by employing repeated activation domains in transcription factors.

Enhancing the transcriptional activation activity of transcription factors (TFs) has multiple applications in organism improvement, metabolic engineering, and other aspects of plant science, but the approaches remain unclear. Here, we used gene activation assays and genetic transformation to investigate the transcriptional activities of two MYB TFs, PRODUCTION OF ANTHOCYANIN PIGMENT 1 (AtPAP1) from Arabidopsis (Arabidopsis thaliana) and EsMYBA1 from Epimedium (Epimedium sagittatum), and their synthetic variants in a range of plant species from several families. Using anthocyanin biosynthesis as a convenient readout, we discovered that homologous naturally occurring TFs showed differences in the transcriptional activation ability and that similar TFs induced large changes in the genetic program when heterologously expressed in different species.

The transcription factor TGA2 orchestrates salicylic acid signal to regulate cold-induced proline accumulation in Citrus.

Plants subjected to cold stress have been observed to accumulate proline, but the underlying regulatory mechanism remains to be elucidated. In this study, we identified a pyrroline-5-carboxylate synthetase (P5CS)-encoding gene (CtrP5CS1) from trifoliate orange (Citrus trifoliata L.), a cold-hardy citrus species, as a critical gene for cold-induced proline accumulation.

Integration of DNA Methylation, MicroRNAome, Degradome, and Transcriptome Provides Insights into Petunia Anther Development.

Petunia hybrida is an annual herb flower that is prevalently cultivated both in public landscaping and home gardening. Anthers are vital reproductive organs for plants, but the molecular mechanism controlling petunia anther development remains elusive. In this work, we combined DNA methylation, microRNAome, degradome, and transcriptome data to generate a comprehensive resource focused on exploring the complex molecular mechanism of petunia anther development.

Kiwifruit spatiotemporal multiomics networks uncover key tissue-specific regulatory processes throughout the life cycle.

Kiwifruit (Actinidia chinensis), a recently commercialized horticultural crop, is rich in various nutrient compounds. However, the regulatory networks controlling the dynamic changes in key metabolites among different tissues remain largely unknown. Here, high-resolution spatiotemporal datasets obtained by ultraperformance liquid chromatography-tandem mass spectrometry methodology and RNA-seq were employed to investigate the dynamic changes in the metabolic and transcriptional landscape of major kiwifruit tissues across different developmental stages, including from fruit skin, outer pericarp, inner pericarp, and fruit core.

Ralstonia solanacearum infection induces tobacco root to secrete chemoattractants to recruit antagonistic bacteria and defensive compounds to inhibit pathogen.

Background: Plant root exudates play crucial roles in maintaining the structure and function of the whole belowground ecosystem and regulating the interactions between roots and soil microorganisms. Ralstonia solanacearum causes bacterial wilt disease in many plants, while root exudate-mediated inhibition of pathogen infection is poorly understood. Here, we characterize the chemical divergence between root exudates of healthy and diseased tobacco plants and the effects of that variability on the rhizosphere microbial community and the occurrence of bacterial wilt.

AKH/AKHR signalling system induced antioxidant response mediated by entomopathogenic fungi in Nilaparvata lugens (Stål).

The brown planthopper Nilaparvata lugens is one of the most economically important rice crop pests in Asia. Entomopathogenic fungi (EPF) have been developed as a biological control of N. lugens.

Administration time modify the anxiolytic and antidepressant effects of inulin via gut-brain axis.

An imbalance in the microbiota-gut-brain axis exerts an essential effect on the pathophysiology of depressive and anxiety disorders. Our previous research revealed that the timing of inulin administration altered its effects on chronic unpredictable mild stress (CUMS)-induced anxiety and depression. However, it is still unclear if the gut-brain axis is primarily responsible for these effects.

Fenugreek gum improves the rheological properties of konjac glucomannan in dynamic simulated digestion system and delays its gastric emptying.

The physicochemical properties of konjac glucomannan (KGM) are impaired in the harsh gastrointestinal tract, which may reduce its effectiveness in physiological functions. In this paper, fenugreek gum (FG) with high water holding capacity and stability was used as a gastric protectant for KGM, and the effects of the KGM-FG complexes with different composite ratios on gastric emptying were researched by in vitro dynamic simulated gastric digestion system. The results showed that FG significantly enhanced the delayed gastric emptying properties of KGM.

Construction of a recombinant African swine fever virus with firefly luciferase and eGFP reporter genes and its application in high-throughput antiviral drug screening.

African Swine Fever (ASF) is a highly lethal and contagious disease in pigs caused by African Swine Fever Virus (ASFV), which primarily infects domestic pigs and wild boars, with a mortality rate of up to 100%. Currently, there are no commercially available vaccines or drugs that are both safe and effective against ASFV. The ASFV 0428C strain was continuously passaged in Vero cells, and the adapted ASFV demonstrated efficient replication in Vero cells.

Insights into Recent Advancements in Human and Animal Rotavirus Vaccines: Exploring New Frontiers.

Rotavirus infections cause severe gastroenteritis and dehydration in young children and animals worldwide, leading to high rates of morbidity and mortality, predominantly in low- and middle-income countries. In the past decade, substantial progress has been made in the development and implementation of rotavirus vaccines, which have been essential in alleviating the global burden of this disease, not only in human being but also in livestock species like calves and piglets, where these infections can cause significant economic losses. By synthesizing the latest research and real-world evidence, this review article is designated to provide deep insights into the current state of rotavirus vaccine technology and its global implementation as well as the application of rotavirus vaccines in veterinary settings and their importance in controlling zoonotic transmission and maintaining food security.

Interaction mechanism, fabrication strategies, and advanced applications of konjac glucomannan-based mixed polysaccharide systems.

Due to its high viscoelasticity and positive health benefits, konjac glucomannan (KGM)-based mixed polysaccharide systems are widely applied in food processing and pharmaceuticals. However, a knowledge gap exists between the relationship between KGM interactions with different polysaccharides and the resulting food processing properties and health benefits. This review elaborately aims to address this research gap by analyzing the literature on the updated KGM-based binary thermodynamic compatibility systems, classified and discussed according to the basic gel models.

Protocol to profile snATAC-seq datasets and motif enrichment analysis during zebrafish early embryogenesis.

The scarcity of zebrafish-specific motif databases presents a challenge to the analysis of transcription factor (TF) motif within zebrafish single-cell assay for transposase-accessible chromatin using sequencing (scATAC-seq) data, thus hindering the identification of regulatory elements throughout zebrafish embryonic development. Here, we provide a protocol to analyze single-nucleus chromatin accessibility dataset during zebrafish early embryogenesis. We describe steps for fragment file retrieval, sample integration, quality control, Latent Semantic Indexing (LSI) clustering, and peak calling via ArchR.

FSTL1 and TLR4 interact with PEDV structural proteins to promote virus adsorption to host cells.

Infection with porcine epidemic diarrhea virus (PEDV) results in enormous economic damage to the global swine industry. PEDV starts its life cycle by binding to the receptors of host cells and adsorbing onto the cellular surfaces. However, it is still unknown how PEDV adsorbs onto the surface of host cells and the mechanism beneath the interplay of host cell transmembrane protein with PEDV proteins.