Design for Motor Controller in Hybrid Electric Vehicle Based on Vector Frequency Conversion Technology

Motor and its control technology are one of the main components of Hybrid Electric Vehicle (HEV). To meet HEV's fast torque response, vector control algorithm based on rotor flux-oriented and simulation model is concerned and modular designs for controller's hardware and software are presented in the paper in order to build a platform to achieve the vector control of asynchronous induction motor. Analyze the controller's electromagnetic compatibility, introduce the corresponding antijamming measures to assure the normal operation of the electromagnetic sensitive devices such as CAN bus; experiment proves that the measure is practical and feasible. On the basis of the control logic correct, such as improving CAN bus communication reliability, assuring power-on sequence and fault treatment, carry on the motor bench experiment, test its static properties, and adjust the controller parameters. The experimental results show that the designed driving system has the performance of low speed and high torque, a wide range of variable speed and high comprehensive efficiency

Synergistically activated dual-locked fluorescent probes to monitor H₂S-induced DNA damage

Naphthalimide-based fluorescent probes (NAN0-N3 and NAN6-N3) were developed with dual locked fluorescence. Here, ≥1.9 × 10−2 mM of H2S and ≥2.2 × 10−2 μg mL−1 of DNA could unlock a highly sensitive off-on fluorescence response through synergistic changes of the molecular structure and conformation. As such, the probes could monitor DNA damage induced by the overexpression of H2S, and were able to evaluate the degree of apoptosis of living cells mediated by H2S-induced mtDNA or nDNA damage.</p

mtDNA-Specific Ultrasensitive Near-Infrared Fluorescent Probe Enables the Differentiation of Healthy and Apoptotic Cells

Mitochondrial DNA (mtDNA) as a class of important genetic material is easily damaged, which can result in a series of metabolic diseases, hereditary disease, and so on. mtDNA is an ultrasensitive indicator for the health of living cells due to the extremely short physiological response time of mtDNA toward damage (ca. 5.0 min). Therefore, the development of specific ultrasensitive fluorescent probes that can in real-time monitor mtDNA in vivo are of great value. With this research, we developed a near-infrared twisted intramolecular charge transfer (TICT) fluorescent probe YON. YON is a thread-like molecule with an A-π-D-π-A structure, based on the dicyanoisophorone fluorophore. The molecular design of YON enabled the specific binding with dsDNA (binding constant (K) = 8.5 × 105 M-1) within 1.3 min. And the appropriate water-oil amphiphilicity makes YON significantly accumulate in the mitochondria, enabling the specific binding to mtDNA. The fluorescence intensity at 640 nm of YON enhanced linearly with increasing concentrations of mtDNA. Dicyanoisophorone as the strong electron-withdrawing group that was introduced into both ends of the molecule resulted in YON being a classic quadrupole, so it could ultrasensitively detect trace mtDNA. The minimum detection limit was 71 ng/mL. Moreover, the large Stokes shift (λex = 435 nm, λem = 640 nm) makes YON suitable for "interference-free"imaging of mtDNA. Therefore, YON was used to monitor trace changes of mtDNA in living cells; more importantly, it could be used to evaluate the health of cells by monitoring microchanges of mtDNA, enabling the ultrasensitive evaluation of apoptosis. </p

Changes of Spoilage Bacteria on the Surface of Broiler Carcasses during the Efficient Slaughtering Process of Yellow Feather Chicken

To analyze the changes of spoilage bacteria on the carcasses of broiler during the slaughtering of yellow feather broiler, the diversity of spoilage bacteria in the processing environment and on the carcass surface during the efficient slaughter of yellow feather broiler was determined by the plate pouring method and Illumina MiSeq high-throughput sequencing. The results showed that the main contamination procedure for the growth of bacteria of yellow feather broilers was eviscerating, pre-cooling and grading procedure, and the grading scale, in which the grading scale, workers' gloves from grading workshop, pre-cooling tank and workers' gloves from eviscerating manual gloves were contamination sources in the three processes aforementioned. Moreover, grading scale and workers' gloves in the decomposition workshop were the main source of contaminated flora of yellow feather broilers carcasses. The growth rate of total viable counts (TVC) and Pseudomonas on the surface of yellow feather broilers carcasses was as high as 24.13% and 41.27%, respectively. The TVC of yellow feather broilers increased to 4.63 lg(CFU/g) after grading scale and grading workshop worker's hands (P<0.05). Streptococcus, Escherichia and Aeromonas were the main dominant bacteria in yellow feather broilers carcasses after plucking (DM), evisceration (JH) and disinfection (CH). The abundance of Aeromonas increased substantially in yellow feather broilers after pre-cooling, followed by Streptococcus. After the grading scale, Acinetobacter was the dominant bacterium in the yellow feather broilers carcasses, followed by Macrococcus. As the abundance of Aeromonas and Streptococcus decreased significantly on the carcasses of yellow feather broilers treated with slightly acidic electrolyzed water (SAEW), it indicated that the disinfecting effect of SAEW was obvious. The results of the present investigation could provide data support and theoretical reference for environmental control, product quality maintenance and shelf-life extension in yellow feather broilers slaughterhouse by analyzing the microbial distribution during the slaughter of yellow feather broilers

Dual-factor Synergistically Activated ESIPT-based Probe:Differential Fluorescence Signals to Simultaneously Detect α-Naphthyl Acetate and Acid α-Naphthyl Acetate Esterase

[Image: see text] α-Naphthyl acetate esterase (α-NAE) and acid α-naphthyl acetate esterase (ANAE), a class of special esterases, are important for lymphocyte typing and immunocompetence-monitoring. As such, the simultaneous detection of α-NAE and ANAE has become a target to effectively improve the accuracy in lymphocyte typing. Therefore, we developed a dual-factor synergistically activated ESIPT-based probe (HBT-NA) to detect α-NAE and ANAE sensitively, rapidly, and simultaneously in a differential manner. HBT-NA exhibits differential fluorescence signal outputs toward small changes of α-NAE and ANAE activities. HBT-NA displays a weak fluorescence signal at 392 nm over a pH range from 6.0 to 7.4. However, when it interacts with α-NAE (0–25 U) at pH = 7.4, the fluorescence intensity at 392 nm enhanced linearly within 60 s (F(392 nm)/F0(392 nm) = 0.042 C(α-NAE) + 1.1, R(2) = 0.99). Furthermore, HBT-NA emits ratiometric fluorescence signals (F(505 nm)/F(392 nm)) for ANAE (0–25 U) at pH = 6.0 within 2.0 min, exhibiting a good linear relationship (F(505 nm)/F(392 nm) = 0.83C(ANAE) – 1.75, R(2) = 0.99). The differential fluorescence signals can be used to simultaneously detect the activities of α-NAE and ANAE in solutions and complex living organisms. More importantly, based on the differential fluorescence signals toward α-NAE and ANAE, T lymphocytes and B lymphocytes could be successfully typed and differentiated among nontyped lymphocytes, facilitating the real-time evaluation of their immune functions using flow cytometry. Hence, HBT-NA could be used for the ultrasensitive detection of the enzyme activities of α-NAE and ANAE, the real-time precise typing of lymphocytes, and the monitoring of immunocompetence

Metformin ameliorates the mitochondrial damage induced by C9ORF72 amyotrophic lateral sclerosis/frontotemporal dementia-related poly-GR

Objective·To investigate the effect of C9ORF72 amyotrophic lateral sclerosis/frontotemporal dementia (ALS/FTD)-related poly-glycine-arginine (poly-GR) on mitochondrial morphology and function, and analyze the rescue effect of metformin on mitochondrial damage induced by poly-GR and its underlying mechanism.Methods·SK-N-SH cells stably overexpressing 50 repeated glycine-arginine sequences [(GR)50] or green fluorescent protein (GFP) were constructed by lentivirus infection, which were respectively named as (GR)50-SK cell line and GFP CTRL-SK cell line. (GR)50 expression in (GR)50-SK cells was verified by Western blotting. GFP expression in GFP GTRL-SK cells was observed by fluorescence microscope. Propidium iodide (PI) staining was used to detect the apoptosis levels of (GR)50-SK and GFP CTRL-SK cells. Immunofluorescence (IF) staining was performed to determine the subcellular location of (GR)50. Reactive oxygen species (ROS) level of mitochondria was evaluated by staining cells with MitoSOX Red followed by observing the intensity of red fluorescence under fluorescence microscope. The mitochondrial morphology of (GR)50-SK and GFP CTRL-SK cells was observed by transmission electron microscopy. Western blotting was used to detect protein kinase B (PKB, also known as AKT) and its phosphorylation levels in (GR)50-SK and GFP CTRL-SK cells. SC79 was used to activate AKT in (GR)50-SK cells, and MitoSOX Red staining and PI staining were used to analyze mitochondrial ROS and apoptosis levels after phosphorylated AKT increased. Metformin was used to treat (GR)50-SK and GFP CTRL-SK cells, respectively, and the apoptosis levels, mitochondrial ROS levels, mitochondrial morphology, AKT and its phosphorylation levels, and ATP concentrations of the two cells were detected by the above methods and ATP detection kit, respectively.Results·Western blotting showed that the construction of (GR)50-SK cells was successful, and fluorescence microscopy showed that the construction of GFP CTRL-SK cells was also successful. PI staining results showed that the apoptosis level of (GR)50-SK cells was higher than that of the GFP CTRL-SK cells (P=0.016). IF staining results showed that there was partial co-localization of (GR)50 in the mitochondria of (GR)50-SK cells. Compared with GFP CTRL-SK cells, the mitochondrial morphology and structure of (GR)50-SK cells were significant abnormalities, with a significantly increased ROS levels. The AKT levels in (GR)50-SK cells were similar to those in the GFP CTRL-SK cells, but there was a significant decrease in phosphorylated AKT levels. After (GR)50-SK cells were treated with SC79, the AKT phosphorylation level was significantly upregulated, and ROS level and apoptosis level were significantly downregulated. Metformin could significantly up-regulate the phosphorylated AKT levels in (GR)50-SK cells, but had no effect on AKT levels; it could reshape the morphology and structure of some mitochondria, reduce ROS levels, increase ATP production (P=0.000), and down-regulate the level of cell apoptosis (P=0.000).Conclusion·(GR)50 can cause mitochondrial morphology and function abnormalities by down-regulating AKT phosphorylation, and promote cell apoptosis. Metformin can effectively reduce the occurrence of the above pathological events induced by (GR)50

Grain quality evaluations of hybrids between Triticum aestivum and Sorghum bicolor produced by pollen tube pathway method

Abstract Distant hybridization makes it possible to transfer the genome of one species to another, and the pollen tube pathway method has been widely used based on the hypothesis that such distant hybridization process provided the opportunity of the recombination of DNA segment. In this study, we carried out a distant hybridization between Triticum aestivum and Sorghum bicolor via pollen tube pathway method, and five new wheat lines including 9122 (S. bicolor 2D + T. aestivum L13), 9141 (S. bicolor 5D + T. aestivum L10), 9144 (S. bicolor 2D + T. aestivum G8), 9145 (S. bicolor 5D + T. aestivum G8) and 0154 (S. bicolor 10D + T. aestivum G8) were selected to determine the grain quality characteristics of these hybrids. Therefore, the properties of their flour mixogram and high molecular weight subunit of hybrids were analyzed. The variations of mixogram peak time, mixogram peak height, mixogram height in the seventh minute and sedimentation value in the five hybrids were observed, while mixogram width at the seventh minute of all the hybrids was improved. The mutation of high molecular weight subunits of glutenin happened including the composition pattern and content of HMW-GS. In hybrid 9144, the high molecular weight glutenin subunits 5+10 were presented instead of subunits 2+12 of its maternal parent G8. The results indicated that distant hybridization between T. aestivum and S. bicolor via pollen tube pathway method improved the wheat grain quality, which will provide more opportunities for the selection of new wheat cultivar with improving grain quality

The complete mitochondrial genome of Xizicus (Haploxizicus) maculatus revealed by Next-Generation Sequencing and phylogenetic implication (Orthoptera, Meconematinae)

Xizicus Gorochov, 1993, the quiet-calling katydid, is a diverse genus with 68 species in world, which includes more than 45 species in China, has undergone numerous taxonomic revisions with contradicting conclusions. In this study the complete mitochondrial genome of Xizicus (Haploxizicus) maculatus collected from Hainan for the first time was sequenced using the Next-Generation Sequencing (NGS) technology. The length of whole mitogenome is 16,358 bp and contains the typical gene arrangement, base composition, and codon usage found in other related species. The overall base composition of the mitochondrial genome is 37.0 % A, 32.2 % T, 20.2 % C, and 10.6 % G. All 13 protein-coding genes (PCGs) began with typical ATN initiation codon. Nine of the 13 PCGs have a complete termination codon, but the remaining four genes (COI, COIII, ND5, and ND4) terminate with an incomplete T. Phylogenetic analyses are carried out based on the concatenated dataset of 13 PCGs and two rRNAs of Tettigoniidae species available in GenBank. Both Bayesian inference and Maximum Likelihood analyses recovered each subfamily as a monophyletic group. Regardless of the position of Lipotactinae, the relationships among the subfamilies of Tettigoniidae were as follows: ((((Tettigoniinae, Bradyporinae) Meconematinae) Conocephalinae) Hexacentrinae). The topological structure of the phylogeny trees showed that the Xizicus (Haploxizicus) maculatus is closer to Xizicus (Xizicus) fascipes than Xizicus (Eoxizicus) howardi

Research progress of integrated stress response in pathogenesis of Alzheimer's disease

Integrated stress response (ISR) is a cellular adaptive response induced by stress, which is strictly regulated by multiple phosphokinases, phosphatases and other proteins to maintain protein homeostasis. Studies have shown that ISR is abnormally activated in Alzheimer's disease, and targeted regulation of different proteins in ISR pathway inhibits the abnormal activation of ISR, leading to restoration of protein homeostasis and alleviation of the neuropathological changes and memory impairment in Alzheimer's disease models. These lines of evidence suggest that ISR has the potential to be a therapeutic target in Alzheimer's disease treatment. This paper reviews the abnormal activation and regulation mechanism of ISR in Alzheimer's disease and discusses the application of ISR as therapeutic targets to Alzheimer's disease models

Siren's Song in the AI Ocean: A Survey on Hallucination in Large Language Models

While large language models (LLMs) have demonstrated remarkable capabilities across a range of downstream tasks, a significant concern revolves around their propensity to exhibit hallucinations: LLMs occasionally generate content that diverges from the user input, contradicts previously generated context, or misaligns with established world knowledge. This phenomenon poses a substantial challenge to the reliability of LLMs in real-world scenarios. In this paper, we survey recent efforts on the detection, explanation, and mitigation of hallucination, with an emphasis on the unique challenges posed by LLMs. We present taxonomies of the LLM hallucination phenomena and evaluation benchmarks, analyze existing approaches aiming at mitigating LLM hallucination, and discuss potential directions for future research.Comment: work in progress; 32 page