Search Results (976)

The commercial significance of organic acids is extremely high. Due to their chemical properties, organic acids can be used both as building blocks and as individual compounds with enormous annual production. Traditionally, organic acids are obtained from fossil sources through chemical synthesis. However, the most promising approach is microbial synthesis, which yields a product characterized by high purity and a conformational composition similar to the natural substance. This review presents the latest publications (based on search results from 2020 to the present) on the production of organic acids by the yeast Yarrowia lipolytica. In recent years, the combined efforts of microbiologists, physiologists, biochemical engineers, and biotechnologists have led to increases in the titer, yield, and productivity of well-studied “old” acids (citric, succinic, α-ketoglutaric, etc.), as well as the discovery of “new” acids (adipic, 3-hydroxypropionic, L-malic) previously unexplored in Y. lipolytica. Furthermore, the possibility of using alternative substrates as carbon sources increases the attractiveness of producing organic acids by Y. lipolytica in accordance with the principles of a circular economy. The results described here may be useful to the scientific community and stimulate new research in the field of organic acid production in the near future. Full article

Alkyd resins (ARs) represent a significant development in synthetic polymers, being among the oldest ones and playing a crucial role in numerous applications, especially within the coating sector. The trend is moving towards replacing non-renewable resources in the production of ARs with bio-based alternatives, with the goal of creating more sustainable binder materials as part of the transition to a bioeconomy. 2,5-Furandicarboxylic acid (FDCA) serves as a promising biomass-derived “building block” to replace non-renewable petroleum-derived aromatic diacids and anhydrides in AR synthesis. Various vegetable oils, including sunflower seed (SFO) and linseed oils (LSO), were utilized along with pentaerythritol (P) and glycerol (G) as polyols. FTIR and ¹H NMR spectroscopies were conducted for the verification of alkyd structures. The synthesized ARs were assessed for their physico-chemical properties, including acid value, hydroxyl value, color, density, and viscosity. The performance of the resulting alkyd coatings, which are crucial for their commercial applications, was examined. Key factors such as drying time, hardness, adhesion, wettability, chemical and corrosion resistance, and UV stability were analyzed. All synthesized FDCA-based alkyd coatings demonstrate outstanding adhesion, good thermal stability up to 220 °C, and barrier properties for steel with |Z|_0.02Hz ~10⁶–10⁷ Ohm cm⁻², which render them suitable for the processing requirements of indoor coating applications. The higher temperature at 50% mass loss (T₅₀) for SFO-P (397 °C) and LSO-P (413 °C) as compared to SFO-G (380 °C) and LSO-G (394 °C) indicated greater resistance to thermal breakdown when pentaerythritol was used as a polyol. Replacing glycerol with pentaerythritol in FDCA-based ARs resulted in a viscosity increase of 1.2–2.4 times and an enhancement in hardness from 2H to 3H. FDCA-based ARs exhibited decreased tack-free time, enhanced thermomechanical properties, and similar hardness as compared to phthalic anhydride-based ARs, underscoring the potential of FDCA as a sustainable alternative to phthalic anhydride in the formulation of ARs, integrating a greater proportion of renewable components for wood coating applications. Full article

This study introduces an energy-aware hybrid security framework that safeguards embedded systems against code theft, closing a critical gap. The approach integrates bitstream encryption, dynamic key generation, and Dynamic Function eXchange (DFX)-based memory obfuscation, yielding a layered hardware–software countermeasure to Read-Only Memory (ROM) scraping, side-channel attacks, and Man-in-the-Middle (MITM) intrusions by eavesdropping on communications on pins, cables, or Printed Circuit Board (PCB) routes. Prototyped on a Xilinx Zynq-7020 System-on-Chip (SoC) and applicable to MicroBlaze-based designs, it derives a fresh Authenticated Encryption with Associated Data (AEAD) key for each record via an Ascon-eXtendable-Output Function (XOF)–based Key Derivation Function (KDF) bound to a device identifier and a rotating slice from a secret pool, while relocating both the pool and selected Block RAM (BRAM)-resident code pages via Dynamic Function eXchange (DFX). This moving-target strategy frustrates ROM scraping, probing, and communication-line eavesdropping, while cryptographic confidentiality and integrity are provided by a lightweight AEAD (Ascon). Hardware evaluation reports cycles/byte, end-to-end latency, and per-packet energy under identical conditions across lightweight AEAD baselines; the framework’s key-derivation and DFX layers are orthogonal to the chosen AEAD. The threat model, field layouts (Nonce/AAD), receiver-side acceptance checks, and quantitative bounds are specified to enable reproducibility. By avoiding online key exchange and keeping long-lived secrets off Programmable Logic (PL)-based external memories while continuously relocating their physical locus, the framework provides a deployable, energy-aware defense in depth against code-theft vectors in FPGA-based systems. Overall, the work provides an original and deployable solution for strengthening the security of commercial products against code theft in embedded environments. Full article

This study evaluated the performance and energy and nutrient utilization of broiler chickens fed corn-soybean meal-based diets supplemented with a naturally fermented enzyme complex containing xylanase and phytase. This was evaluated using 300 one-day-old male Cobb broiler chicks in a randomized complete block design with five dietary treatments replicated 10 times with 6 chicks per replicate. The treatments consisted of a positive control (PC) group containing commercially recommended energy and nutrient levels, a negative control (NC) group with reduced metabolizable energy, calcium, and available phosphorus, and three levels of exogenous enzyme supplementation to the NC diet at 150, 200, 250 mg/kg, respectively. At the end of the trial, ileal digesta and excreta were collected for nutrient and energy digestibility and utilization determination, while tibia bones were collected for bone ash determination. The data was analyzed using Proc GLM of SAS 9.4 v 4. Enzyme supplementation quadratically increased (p < 0.05) average daily gain, average daily feed intake (ADFI), and feed efficiency during days 9–21. There was also a linear increase (p < 0.01) between enzyme level and ADFI during days 0–21. Compared with birds fed the PC diet, chickens fed the NC diet had lower (p < 0.01) utilization of DM, N, Ca, P, and energy, as well as lower (p < 0.01) apparent ileal digestibility of essential and non-essential amino acids (AA). Enzyme supplementation level showed a quadratic relation (p < 0.01) with the utilization of DM, N, Ca, P, and AMEn, as well as with the apparent ileal digestibility of essential and non-essential AA. A quadratic relationship was also observed for apparent ileal digestibility of DM, N, P, and digestible energy, except for Ca, where the relationship was linear (p < 0.001). Bone breaking strength and bone ash quadratically correlated (p < 0.05) with the level of enzyme supplementation. The results from this study indicated that the supplementation of exogenous enzyme to a corn–soybean meal-based diet resulted in benefits to performance, nutrient digestibility and utilization, and bone mineralization of broiler chicks compared to birds on the NC diet. Full article

The objective of this work was to assess the association of ACC (1-aminocyclopropane-1-carboxylic acid), S-ABA (abscisic acid), and ethephon on color development and anthocyanin accumulation in berries, as well as on other quality attributes of ‘Benitaka’ and ‘Rubi’ table grapes grown in a subtropical region, in addition to postharvest conservation of clusters and vine regrowth. As a statistical model, a randomized block design consisting of nine treatments and four replications was used. The treatments included different associations of ACC, S-ABA, and ethephon, by using the commercial formulations Accede^®, ProTone^®, and Ethrel^® containing 400 g kg⁻¹ of ACC, 100 g L⁻¹ of S-ABA, and 720 g L⁻¹ of ethephon, respectively. The total anthocyanins, berry color index (CIRG), physicochemical characteristics, and cluster color coverage were assessed weekly, while berry firmness was assessed at harvest. After being harvested, the clusters were placed under cold storage at 1.0 ± 1.0 °C, and after 45 days, their postharvest attributes were assessed, as well as the vine regrowth in the following season. The exogenous and combined application of compounds at véraison was demonstrated to be a strategy to trigger the development of color in ‘Benitaka’ and ‘Rubi’ table grapes. For the ‘Benitaka’ table grape, the clusters treated with the different combinations of ACC and S-ABA, ethephon and S-ABA, or ethephon alone resulted in the highest concentration of total anthocyanins and the highest CIRG means (4.90; 4.86; 4.82; 4.81, 4.73, and 4.70 mg g⁻¹ for anthocyanins, and 6.12, 6.08, 5.97, 5.92, 5.85, and 5.74 for CIRG, respectively). For the ‘Rubi’ table grape, the combinations of ACC and S-ABA at 7 days after véraison (DAV), or ethephon and S-ABA at 7 and 14 days, resulted in higher means of anthocyanins and CIRG (3.86, 3.51, and 3.40 mg g⁻¹ for anthocyanins and 5.05, 4.68, 4.82, and 4.79 for CIRG, respectively). Furthermore, the firmness of the berries of both cultivars remained unchanged, and after 45 days of cold storage, no reduction in the quality of the evaluated postharvest attributes was found. It was concluded that a single application of ACC 0.20 g L⁻¹ + S-ABA 0.250 g L⁻¹ at 7 DAV was sufficient to promote the accumulation of anthocyanins and resulted in an intense and uniform color in the berries for both varieties assessed, with no adverse impacts on the postharvest conservation of the clusters or on the regrowth of the vines. The significance of this research was to demonstrate that table grapes with insufficient skin color can be improved through a combination of S-ABA and ACC at lower concentrations of active ingredients. Full article

Roughly 25% of abalone viscera generated during processing is currently discarded, resulting in substantial protein wastage and environmental contamination. In the present study, abalone viscera served as the raw material; four commercial proteases—papain, bromelain, neutral protease and trypsin—were comparatively evaluated. Among them, the neutral-protease hydrolysate of abalone viscera (AVZH) exhibited the strongest suppression of nitric oxide (NO) release from lipopolysaccharide (LPS)-stimulated RAW264.7 macrophages. Liquid chromatography with tandem mass spectrometry (LC-MS/MS) analysis ultimately led to the identification of 18 novel peptides. Integrating bioinformatic prediction with solid-phase synthesis, two sequences—GYSFTTTAER and IKKPPQDEWGTGL—were further screened and confirmed to possess excellent cytocompatibility and pronounced anti-inflammatory potency. Mechanistic investigations revealed that both peptides dose-dependently attenuated the secretion and mRNA expression of IL-1β, IL-6 and TNF-α and concurrently blocked mitogen-activated protein kinase (MAPK) signaling by down-regulating the phosphorylation of ERK, JNK and p38. These findings demonstrate that abalone viscera represent an abundant reservoir of anti-inflammatory peptides, offering both a theoretical framework and a technological roadmap for the valorisation of marine waste proteins and the development of next-generation natural anti-inflammatory agents. Full article

Undoubtedly, the use of a keyboard is rather common when using a PC, laptop, terminal, or server. Unfortunately, when using wired or unencrypted wireless keyboards, all keystrokes can be eavesdropped using a simple RF scanner. The research presented in this paper aims to tackle this problem, or better security “gap”, in order to secure the respective keyboard communication. Five solutions are presented for securing the keystrokes when using a wired USB keyboard with encryption, a fiber optic cable, and a wireless connection (either microwave or light). The proposed solutions are novel, aiming at securing the communication between the USB keyboard and the end PC/laptop/cloud, since the commercial keyboards either wired or wireless are an easy target for an eavesdropper, as stated in the relevant literature section. There are detailed diagrams illustrating the circuits and modules used, while the respective block diagrams and message details are also provided. In conclusion, challenges are studied and addressed, experiments are carried out, and suitable solutions are presented. Full article

Liquefied petroleum gas (LPG), composed mainly of propane and butane, is widely used as an energy source in residential, commercial, and industrial sectors; however, its high flammability poses a critical risk in the event of accidental leaks. In Peru, where LPG constitutes the main domestic energy source, leakage emergencies affect thousands of households each year. This pattern is replicated in developing countries with limited energy infrastructure. Early quantitative detection of propane, the predominant component of Peruvian LPG (~60%), is essential to prevent explosions, poisoning, and greenhouse gas emissions that hinder climate change mitigation strategies. This study presents PropNet-R, a convolutional neural network (CNN) designed to estimate propane concentrations (ppm) from thermal images. A dataset of 3574 thermal images synchronized with concentration measurements was collected under controlled conditions. PropNet-R, composed of four progressive convolutional blocks, was compared with SqueezeNet, VGG19, and ResNet50, all fine-tuned for regression tasks. On the test set, PropNet-R achieved MSE = 0.240, R² = 0.614, MAE = 0.333, and Pearson’s r = 0.786, outperforming SqueezeNet (MSE = 0.374, R² = 0.397), VGG19 (MSE = 0.447, R² = 0.280), and ResNet50 (MSE = 0.474, R² = 0.236). These findings provide empirical evidence that task-specific CNN architectures outperform generic transfer learning models in thermal image-based regression. By enabling continuous and quantitative monitoring of gas leaks, PropNet-R enhances safety in industrial and urban environments, complementing conventional chemical sensors. The proposed model contributes to the development of sustainable infrastructure by reducing gas-related risks, promoting energy security, and strengthening resilient, safe, and environmentally responsible urban systems. Full article

Recently, the state of the art of aerogels (AGs) has been reviewed, reporting first on their classification, based on the chemical origin of their precursors and the different methods existing to prepare them. Additionally, AGs of inorganic origin (IAGs) were contemplated, deeply discussing the properties, specific synthesis, and possible uses of silica and metal oxide-based AGs, since they are the most experimented and patented AGs already commercialized in several sectors. In this second part review, IAGs are examined again, but chalcogenide and metals AGs (CAGs and MAGs) are debated, since they are still too little studied, patented, and marketed, despite their nonpareil properties and vast range of possible applications. First, to give readers unaware of the previous work on AGs, a background about IAGs, all their main subclasses have been reported and their synthesis, including sol–gel, epoxide addition (EA), and dispersed inorganic (DIS) methods, as well as procedures involving the use of pre-synthesized nanoparticles as building blocks, have been discussed. Morphology and microstructure images of materials prepared by such synthetic method have been supplied. Conversely, the methods needed to prepare CAGs and MAGs, topics of this study, have been debated separately in the related sections, with illustrative SEM images. Their possible uses, properties, and some comparisons of their performance with that of other AGs and not AG materials traditionally tested for the same scopes, have also been disserted, reporting several case studies in reader-friendly tables. Full article

The lignin nanoparticle (LNP) was prepared by the self-assembly method and further blended with poly(butylene adipate-co-terephthalate) (PBAT) to obtain a PBAT/LNP composite using a solvent casting method. It was found that the nano-modification of lignin effectively improved the compatibility between the components, and the mechanical properties, gas barrier properties, UV resistance, degradation, and antibacterial properties of the PBAT/LNP composite. Compared with PBAT, the tensile strength, elongation at break, and elastic modulus of the PBAT/LNP composite with 8 wt% LNP (PBAT/LNP-8) increased by 37.36%, 47.30% and 50.70%, respectively. Moreover, the mechanical properties, UV-blocking performance, and gas barrier properties of PBAT/LNP-8 were better than those of the commercial degradable packing bag, and the composite derived from PBAT and lignin extracted from wheat straw also showed excellent properties. This work explored a way to expand the utilization of lignin from lignocellulosic biomass, which not only helped to solve the environmental pollution caused by the widespread use of non-degradable plastics, but also promoted the replacement of fossil resources. Full article

Biostimulants play a crucial role in producing high-quality products with increased yields while also positively impacting sustainable agriculture by reducing reliance on chemical fertilizers and promoting soil fertility. In this context, an experiment was developed to evaluate the influence of several commercial foliar fertilizers and biostimulants (Cropmax, FullGreen, Nutrigizer, and Rerum) on the yield and quality parameters of lettuce cultivated in a greenhouse system. The tested products have different formulations, with all containing macronutrients and microelements. Cropmax and Rerum also include amino acids, while Nutrigizer 60 2E contains humic acids. The experiment was arranged in a randomized block design and comprised five treatments, with a control and four biostimulants, Cropmax, FullGreen, Nutrigizer, and Rerum, each replicated five times. Foliar treatments were applied four times to the butterhead lettuce variety ‘Analena’, suitable for spring to autumn production. All foliar treatments resulted in an increase in leaf biomass compared to that for the control variant. Notably, foliar fertilization with Rerum increased the yield by 2.19 times compared to that in the control. Quality indices—dry matter, ascorbic acid, and sugar contents—also improved after treatments. The foliar treatments also significantly enhanced key quality indices, with the Rerum variant showing the most pronounced increases in dry matter (24.11%), ascorbic acid (69.75%), and sugar content (26.38%) compared to those for the control. These results demonstrate that foliar application of biostimulants, particularly Rerum, is an effective sustainable technology strategy for significantly enhancing both the yield and nutritional quality of greenhouse-grown lettuce. Full article

Atmospheric particulate matter (PM) pollution has escalated into a critical threat to urban public health and safety. Among urban functional zones, commercial districts—characterized by high human exposure—are simultaneously hotspots of pollutant accumulation. Consequently, PM mitigation in these areas has become an urgent challenge for sustainable urbanization. This study used Computational Fluid Dynamics (CFD) to simulate the diffusion process and vertical concentration distribution of particulate matter in commercial districts. The results showed that the concentration of PM2.5 decreased with increasing height, with the highest concentration in the respiratory zone (1.5 m) and basic diffusion above 50 m; There are significant differences in the concentration changes of pollutants under different combinations of architectural spaces. By establishing a 20 m block wind corridor, changing the relationship between the building and the street enclosure, and adjusting the form of the building podium and overhead design with building height multiples (6–12 m), strategies can effectively alleviate the accumulation of particulate matter in commercial blocks. These findings provide quantitative evidence for evidence-based retrofitting strategies aimed at reducing PM2.5 exposure in high-density commercial areas. Full article

Rapid, simple, and robust diagnostics are essential for effectively controlling the spread of plant viruses and mitigating their impact. Although recombinase polymerase amplification-lateral flow test (RPA-LFT) diagnostics currently offer high sensitivity and specificity, they rely on the Nfo endonuclease enzyme and require an expensive heat block. In this study, we present the development of a molecular diagnostic test for cucurbit leaf crumple virus (CuLCrV) using an RPA-LFT assay that employs an alternative endonuclease enzyme instead of Nfo. This alternative endonuclease demonstrates comparable functionality to Nfo and achieves a detection limit of 10 viral copies in plant samples and whiteflies. The assay can be performed using a battery-powered mini heat block, ensuring scalability and cost-effectiveness. Notably, the unavailability of commercially accessible Nfo endonuclease enzymes underscores the necessity for an alternative enzyme for RPA-LFT assay development. The RPA-LFT assay eliminates the need for nucleic acid purification and provides results within approximately 30 min from sample collection. The integration of this new endonuclease into the RPA-LFT assay represents an advancement towards on-site detection of plant viruses, enabling early-stage management of viral infections. Full article

Bone metastases from osteosarcoma occur in only 10% of patients, and related preclinical models are lacking. A patient diagnosed with pelvic osteosarcoma developed a metachronous scapular metastasis and was treated with multi-agent chemotherapy and surgery. Patient-derived tissue fragments (PDTFs) were obtained from leftover material after diagnosis and biobanking. PDTFs were grown on chick chorioallantoic membrane, establishing an in vivo-like predictive model. Additionally, we obtained a patient-derived cell culture, OS-MET-R-092, which has been maintained in vitro for nearly one year. OS-MET-R-092 cells were authenticated based on short tandem repeats and on their morphology when grown on commercial 3D scaffolds. Using U-2 OS and SaOS-2 as controls, we characterized growth, clonogenic potential, ability to form spheroids, migration, osteogenic differentiation, and expression of related genes. OS-MET-R-092 cells showed a low proliferation rate, impaired differentiation potential, and migratory abilities comparable to SaOS-2, while expressing higher levels of some MMPs and CD44. Functionally, OS-MET-R-092 cells demonstrated a resistant phenotype to doxorubicin, cisplatin, gemcitabine, and docetaxel, corroborated by higher expression of chemo-resistance-related genes. Collectively, OS-MET-R-092 represents a valuable tool for studying bone metastasis from osteosarcoma across various experimental settings and serves as the foundational building block for composite and translatable 3D models. Full article

Rootstock mother fields supply the cuttings used in the grafted grapevine propagation process, and their productivity is essential for the nursery production. In southern Europe, mother fields are usually managed with a ground-level pruning system, which provides high yields but increases sanitary and management risks. Dense canopies favour humid microclimates and large pruning wounds increase the incidence of trunk diseases. Trellis systems have been proposed as alternatives to mitigate these risks, but their productive performance remains unclear. The aim of this study was to evaluate the vegetative growth of three vertical trellis systems: elevated crown, alternate crown, and vertical axis, in two rootstock mother fields, and to compare their cutting productivity with that of the traditional ground-level system once the trellis vines were fully established. The trial was conducted from 2022 to 2024 in a commercial rootstock mother field in Soria, Spain, using two Vitis berlandieri × V. rupestris hybrids (110 Richter and 140 Ruggeri). The experimental design consisted of three trellis systems arranged in four replicates of 12 vines each, following a randomised block design. Pruning weight increased significantly with vine age but was unaffected by trellis system. Cutting yield differed between rootstocks, with 140 Ruggeri producing about twice as many cuttings as 110 Richter. The comparison between trellis and ground-level systems showed that the former increased labour requirements and reduced cutting yields. Although trellis systems challenge their adoption for commercial rootstock propagation under the dry-summer conditions of this study, their potential to reduce fungal disease incidence and improve canopy management may offer advantages in a transition towards a more sustainable nursery process. Full article