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28 g/L/h. The putrescine titer was much higher than that produced by most engineered strains obtained thus far.Acinetobacter baumannii is a nosocomial pathogen responsible for several serious infections, including pneumonia, sepsis, and meningitis. The propensity of this bacterium to rapidly acquire antibiotic resistance leads to the emergence and spread of multidrug-resistant A. baumannii strains. As a result, antibiotics are becoming less effective in treating infections caused by this pathogen. In recent years, increasing efforts have focused on developing therapeutic compounds that could reduce the ability of A. baumannii to establish infection by inhibiting the virulence factors and pathogenesis of this pathogen without interfering with the bacterial viability. These alternative therapeutic options may impose milder selective pressure, reducing the likelihood of anti-virulence resistance development. To develop novel anti-virulence therapies, an in-depth understanding of the bacterial virulence mechanisms is crucial to identifying potential drug targets. This review summarises the latest discoveries about the virpplication.Sunlight is pivotal for our survival, and daily UV exposure has impacted the evolutionary course of all forms of life, from microorganisms to humans. Deciphering the role of UVR in regulating the microbial dynamics of environmental and host-associated microbes is crucial. UVR may be responsible for affecting skin pathology by influencing the skin microbiome, both qualitatively and quantitatively, as evident in low-dose narrow-band UVB phototherapy. Some findings have suggested that the skin microbiome has immunomodulatory roles when exposed to UVR; however, its involvement in UV screening or protection has yet to be fully explored. Furthermore, numerous skin disorders are associated not only with an altered skin microbiome but also with an altered gut microbiome. Hence, the skin-gut axis needs to be in physiological homeostasis and immunological harmony. The purpose of this review is to examine the impact of natural UVR on human immunomodulatory mechanisms and the associated cutaneous microbiome, with an emphasis on interactions among UVR, skin homeostasis, vitamin D, and the related skin-gut axis. With the 'nature as an inspiration' approach, ongoing research is trying to decipher photoprotective secrets in several microbial-based natural compounds to be used as sunscreens or other topical formulations. In addition, various probiotics have also been shown to have significant antioxidant, antiwrinkle, and antiaging effects that ameliorate UV-induced cellular and molecular damage, as highlighted in the review. These cosmetics, nutricosmetics, and probiotaceuticals will undoubtedly be next-generation solutions against photoaging and maintaining skin health.Adaptability to ethologically relevant cues is fundamental for social interactions. As such, reproductive success relies on the ability of an animal to transition between parental and nonparental states. Though driven by genetically pre-programmed circuits, these instinctive repertoires are reshaped by internal state and experience, making parenting a robust model for the study of behavioural flexibility. As a functional wiring diagram for parenting emerges in mice, we are well placed to identify neural substrates and posit associated mechanisms underlying caregiving transitions. In this review, we discuss the importance of comprehensively characterising behaviour, highlight the role of shared circuit elements for behavioural malleability and explore plastic mechanisms that might guide switches between parental and nonparental repertoires.For decades, a central question in neuroscience has been How does the brain support navigation? Recent research on navigation has explored how brain regions support the capacity to adapt to changes in the environment and track the distance and direction to goal locations. Here, we provide a brief review of this literature and speculate how these neural systems may be involved in another, parallel behavior-hunting. Hunting shares many of the same challenges as navigation. Like navigation, hunting requires the hunter to orient towards a goal while minimizing their distance from it while traveling. see more Likewise, hunting may require the accommodation of detours to locate prey or the exploitation of shortcuts for a quicker capture. Recent research suggests that neurons in the periaqueductal gray, hypothalamus, and dorsal anterior cingulate play key roles in such hunting behavior. In this review, we speculate on how these regions may operate functionally with other key brain regions involved in navigation, such as the hippocampus, to support hunting. Additionally, we posit that hunting in a group presents an additional set of challenges, where success relies on multicentric tracking and prediction of prey position as well as the position of co-hunters.This paper is dedicated to solving the k-winners-take-all problem with large-scale input signals in a distributed manner. According to the decomposition of global input signals, a novel dynamical system consisting of multiple coordinated neural networks is proposed for finding the k largest inputs. In the system, each neural network is designed to tackle its available partial inputs only for a local objective ki (ki≤k). Simultaneously, a consensus-based approach is adopted to coordinate multiple neural networks for achieving the global objective k. In addition, an inertial term is introduced in each neural network for regulating its transient behavior, which has the potential of accelerating the convergence. By developing a cocoercive operator, we theoretically prove that the multiple neural networks with inertial terms converge asymptotically/exponentially to the k-winners-take-all solution exactly from arbitrary initial states for whatever decomposition of inputs and objective. Furthermore, some extensions to distributed constrained k-winners-take-all are also investigated. Finally, simulation results are presented to substantiate the effectiveness of the proposed system as well as its superior performance over existing distributed networks.An elegant quantum version of least-square support vector machine, which is exponentially faster than the classical counterpart, was given by Rebentrost et al. using the matrix inversion algorithm (HHL). However, the application of the HHL algorithm is restricted when the structure of the input matrix is not well. The iteration algorithms such as the Newton method are widespread in training the classical support vector machine. This paper demonstrates a quantum support vector machine based on the regularized Newton method (RN-QSVM), which achieves an exponential speed-up over classical algorithm. At first, the regularized quantum Newton algorithm is proposed to get rid of the constraint of input matrix. Then we train the RN-QSVM by using the regularized quantum Newton algorithm and classify a query sample by constructing the quantum state. Experiments demonstrate that RN-QSVM respectively provides advantages in terms of accuracy, robustness, and complexity compared to QSLS-SVM, LS-QSVM, and the classical method.
Dysregulation of microRNA (miRNA) is involved in the pathogenesis of a variety of diseases, including atherosclerosis (AS). However, the role of miRNA-4487 (miR-4487) in the development of AS is not fully clarified. This study is intended to investigate the regulatory effects of miR-4487 on the proliferation, migration and apoptosis of vascular smooth muscle cells (VSMCs) and the related mechanisms.
Oxidized low-density lipoprotein (ox-LDL) was employed to induce the dysfunction of VSMCs. Subsequently, miR-4487 expression was detected by quantitative real-time PCR. Afterward, the expression levels of RAS p21 protein activator 1 (RASA1) and apoptosis-related proteins (Bcl-2, Bax, Cleaved caspase 3, Cleaved caspase 9) were detected by Western blotting. The proliferation, migration and apoptosis of VSMCs were then detected by CCK-8, BrdU, Transwell and flow cytometry assays, respectively. Moreover, a dual-luciferase reporter gene assay was executed to verify the targeting between miR-4487 to the RASA1 3'-untranslated region (3'-UTR).
ox-LDL treatment increased miR-4487 expression and decreased RASA1 expression in VSMCs. Additionally, ox-LDL treatment promoted the proliferation and migration of VSMCs, but inhibited apoptosis. Besides, the effects of ox-LDL treatment on the proliferation, migration and apoptosis of VSMCs were attenuated by the transfection of miR-4487 inhibitors. Furthermore, miR-4487 directly targeted the 3'-UTR of RASA1 mRNA and repressed the expression level of RASA1. Also, RASA1 knockdown reversed the effects of miR-4487 inhibition on VSMCs.
MiR-4487 promotes VSMCs viability and migration and inhibits apoptosis by targeting RASA1 in VSMCs, by which it promotes the pathogenesis of AS.
MiR-4487 promotes VSMCs viability and migration and inhibits apoptosis by targeting RASA1 in VSMCs, by which it promotes the pathogenesis of AS.In order to explore the influences of low nitrogen (N) fertilizer on the growth performances of two broomcorn millet (Panicum miliaceum L.) cultivars with different N tolerances, the field experiment was carried out with a low-N-tolerant cultivar (BM 184) and a low-N-sensitive cultivar (BM 230) under three N levels (0, 75 and 150 kg N ha-1) in the Loess Plateau, China. 150 kg N ha-1 was conventional N application rate and considered as the control. Compared to typical N supply, low N fertilizer significantly weakened the photosynthetic capacity by increasing the light transmission ratio and decreasing leaf area index, resulting in reduced biomass accumulation. BM 184 held the longer duration of the biomass increase phase and larger relative growth rate than BM 230 as well as higher photosynthetic parameters (i.e., relative chlorophyll content, net photosynthetic rate, and transpiration rate) did under low N treatments. Such optimized physiological characteristics contributed to more effective N uptake and transportation from the stems, leaves, and sheaths to grains in the BM 184. Furthermore, compared with BM 230, BM 184 had higher rhizosphere soil fertility and soil enzyme activity under low N conditions; consequently, combined with the physiological characteristics for aboveground and soil nutrient status for belowground, higher productivity was obtained in BM 184 than that in BM 230 over the two years study. Overall, our results demonstrated that low-N-tolerant cultivar achieved reduced N fertilizer input with increased efficiency by optimizing growth performances in semi-arid cultivation areas.Open curettage with bone graft has been the traditionally suggested surgical treatment for the symptomatic simple (or unicameral as they used to be called) calcaneal bone cyst. Less invasive endoscopically assisted treatment with curettage and bone grafting with allograft have recently provided less postoperative morbidity. The aim of the present study is to present our experience with this method in young soccer athletes. Between April 2014 and May 2016 three consecutive young soccer players with symptomatic calcaneal bone cysts underwent endoscopic curettage, and percutaneous injection of demineralized bone matrix allograft. The mean age was 17.3 (16, 17 and 19 years old), and the mean follow-up was 32.1 (range 24-47) months. Both radiographic and functional follow-up, using the AOFAS score, showed good to excellent results. All lesions were radiographically healed. Preoperative AOFAS score (max. 100 pts) was 78.6 ± 4.7, improving to 98.0 ± 4.1. The patients returned to their initial level of sports activities within 18.