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β-Glucosidase is widely used in several industrial segments, among which we can highlight the pharmaceutical industry, beverages, biofuels, animal feed production, and the textile industry. The great applicability of this enzyme, associated with the high cost of its production, justifies the need to find ways to make its use economically viable on an industrial scale. Through enzyme immobilization, the biocatalyst can be reused more than once, without great impact on its catalytic activity, and higher operational and storage stabilities can be achieved as compared to the free form. Accordingly, this review brings information about different techniques and supports that have been studied in the immobilization of cellulases with a focus on β-glucosidase, as well as the application of these immobilized systems to supplement commercial mixtures.Post-stroke depression (PSD) is the most common and severe neuropsychiatric complication after stroke. However, the molecular mechanism of PSD is still unclear. Previous studies have identified peripheral blood and urine metabolites associated with PSD using metabolomics techniques. We searched and systematically summarized metabolites that may be involved in metabolic changes in peripheral blood and urine of patients with PSD from the Metabolite Network of Depression Database (MENDA) and other biomedical databases. MetaboAnalyst5.0 software was used for pathway analysis and enrichment analysis of differential metabolites, and subgroup analyses were performed according to tissue types and metabolomics techniques. We identified 47 metabolites that were differentially expressed between patients with and without PSD. Five differential metabolites were found in both plasma and urine, including L-glutamic acid, pyroglutamic acid, palmitic acid, L-phenylalanine, and L-tyrosine. We integrated these metabolites into metabolic pathways, and six pathways were significantly altered. These pathways could be roughly divided into three modules including amino acid metabolism, nucleotide metabolism, and glucose metabolism. Among them, the most significantly altered pathway was "phenylalanine metabolism" and the pathway containing the most associated metabolites was "aminoacyl-tRNA biosynthesis", which deserve further study to elucidate their role in the molecular mechanism of PSD. In summary, metabolic changes in peripheral blood and urine are associated with PSD, especially the disruption of "phenylalanine metabolism" and "aminoacyl-tRNA biosynthesis" pathways. This study provides clues to the metabolic characteristics of patients with PSD, which may help to elucidate the molecular pathogenesis of PSD.Glioblastoma is one of the deadliest malignant gliomas. Capsaicin is a homovanillic acid derivative that can show anti-cancer effects by regulating various signaling pathways. The aim of this study is to investigate the effects of capsaicin on cell proliferation via ferroptosis in human U87-MG and U251 glioblastoma cells. Firstly, effects of capsaicin treatment on cell viability were determined by MTT analysis. Next, cellular-proliferation and cytotoxicity assays were determined by analyzing bromodeoxyuridine (BrdU) and lactate dehydrogenase (LDH) activity, respectively. Following, acyl-CoA synthetase long chain family member 4 (ACSL4), glutathione peroxidase 4 (GPx4), 5-hydroxyeicosatetraenoic acid (5-HETE), total oxidant status (TOS), malondialdehyde (MDA), total antioxidant status (TAS) and reduced glutathione (GSH) levels were determined by ELISA. Additionally, ACSL4 and GPx4 mRNA and protein levels were analyzed. Capsaicin showed a concentration-dependent anti-proliferative effects in U87-MG and U251 cells. Cell viability was decreased in the both cell lines treated with capsaicin concentrations above 50 μM, while LDH activity increased. Treatment of 121.6, 188.5, and 237.2 μM capsaicin concentrations for 24 h indicated an increase in ACSL4, 5-HETE, TOS and MDA levels in U87-MG and U251 cells (p  less then  0.05). On the other hand, we found that capsaicin administration caused a decrease in BrdU, GPx4, TAS and GSH levels in U87-MG and U251 cells (p  less then  0.05). Besides, ACSL4 mRNA and protein levels were increased in the glioblastoma cells treated with capsaicin, whereas GPx4 mRNA and protein levels were decreased. Finally, capsaicin might be used as a potential anticancer agent with ferroptosis-induced anti-proliferative effects in the treatment of human glioblastoma.Cities that have become the most crowded living spaces in all over the world are facing numerous problems and challenges such as environmental pollution, heavy traffic, urban dilapidation, lack of facility provision, and economic decline. Urban regeneration, which is an important agenda for both academia and politicians, aims to address these urban problems which are mostly caused by overpopulation. As the urban regeneration is a complex issue that requires to consider numerous components, regeneration initiatives cannot always achieve sustainable urban applications, which are causing new urban and social problems. Previous research have mainly focused on one aspect of urban renewal, in which a comprehensive perspective is lacking by just considering the physical aspects of the regeneration areas while lacking the social aspects and current global issues such as climate change and urban adaptation. A multi-criteria decision-making process for site selection and sustainable regeneration plan would contribute to better regeneration outcomes. Therefore, this study proposes a multi-criteria decision-making process which combines the analytical hierarchy process (AHP) and geographical ınformation system (GIS) at site selection phase of urban regeneration on a case study that includes all the physical and social components of the study area as well as focusing on sustaining ecological, economic, and social features.

It has been known that aorta, subclavian, and extracranial arteries are commonly involved in Takayasu arteritis (TA). However, the involvement of intracranial artery in TA has not been well explored. The purpose of this study was to describe the clinical characteristics of intracranial artery lesions in TA patients and identify associated risk factors.

A total of 160 patients diagnosed with TA at Beijing Anzhen Hospital from November 2012 to November 2019 were retrospectively enrolled in this study and assigned to different groups according to the presence or absence of intracranial artery lesions.

Our data showed that 20% of the enrolled 160 patients developed intracranial artery lesions and the right internal carotid artery (ICA) was the most common involved artery (53%). The average age of patients with intracranial artery lesions was significantly older compared to that of patients without intracranial artery involvement (43.56 ± 11.40 vs 36.41 ± 12.22, p = 0.003). In addition, more patients in the DI score.

Our study showed that the intracranial artery disease was common in TA and was associated with coronary artery lesions, extracranial segment lesions of ICA, and higher VDI score. Key Points • Intracranial artery disease in TA patients had advanced age and higher triglyceride level. • Besides coronary artery lesions, intracranial artery disease in TA patients was associated with the extracranial segment lesions of ICA and higher VDI score.Excessive inflammatory response caused by infiltration of a large number of neutrophils is one of the important features of acute lung injury (ALI)/acute respiratory distress syndrome (ARDS). Lipoxin A4 (LXA4) is an important endogenous mediator in the process of inflammation resolution, which has a strong role in promoting inflammation resolution. In this study, we examined the impact of LXA4 on the pulmonary inflammatory response and the neutrophil function in ARDS rats. Our results indicated that exogenous administration of LXA4 could reduce the degree of lung injury in ARDS rats and inhibit the release of pro-inflammatory factors TNF-α and IL-1β in lung tissue homogenate. However, LXA4 has no lung protective effect on ARDS rats of neutropenia, nor can it inhibit the levels of pro-inflammatory factors TNF-α and IL-1β in lung tissue homogenate. LXA4 can inhibit the production of reactive oxygen species (ROS) and neutrophil extracellular traps (NETs) in peripheral blood neutrophils of ARDS rats. At the same time, LXA4 can promote the phagocytosis of neutrophils in ARDS rats in vitro and can also promote the apoptosis of neutrophils in ARDS rats. In addition, the effect of LXA4 on the function of neutrophils in ARDS rats is mediated by its receptor ALX. LXA4 can inhibit the release of NE and MPO from neutrophils, thereby reducing the production of NETs. In summary, these findings indicate that LXA4 has a protective effect on LPS-induced ARDS rats by affecting the function of neutrophils.A series of europium diketonate complexes with 1-phenyl-1,3-butanedione (PBD) and 1,10-phenanthroline derivatives were synthesized and explored spectroscopically. Photophysical characteristics of synthesized complexes have been investigated experimentally as well as theoretically. Photoluminescence emission spectra of complexes do not contain any peak of ligand revealing efficient transferal of energy from ligand to Eu3+ ion. Presence of peak at 611 nm corresponding to 5D0 → 7F2 transition is responsible for red emanation of ternary europium complexes. Photophysical parameters viz., Judd-Ofelt, quantum efficiency, radiative and non radiative decay rates were also estimated theoretically from LUMPAC software. Geometry optimization of complexes was done via Avogadro software. All synthesized trivalent complexes exhibit red emission which was further sustained by the position of chromaticity coordinates in CIE triangle. These red emanating materials could be utilized in designing electroluminescent display devices.Cadmium contamination is a severe threat to the environment and food safety. read more Thus, there is an urgent need to develop highly sensitive and selective cadmium detection tools. The engineered fluorescent indicator is a powerful tool for the rapid detection of inorganic cadmium in the environment. In this study, the development of yellow fluorescent indicators of cadmium chloride by inserting a fluorescent protein at different positions of the high cadmium-specific repressor and optimizing the flexible linker between the connection points is reported. These indicators provide a fast, sensitive, specific, high dynamic range, and real-time readout of cadmium ion dynamics in solution. The excitation and emission wavelength of this indicator used in this work are 420/485 and 528 nm, respectively. Fluorescent indicators N0C0/N1C1 showed a linear response to cadmium concentration within the range from 10/30 to 50/100 nM and with a detection limit of 10/33 nM under optimal condition. Escherichia coli cells containing the indicator were used to further study the response of cadmium ion concentration in living cells. E. coli N1C1 could respond to different concentrations of cadmium ions. This study provides a rapid and straightforward method for cadmium ion detection in vitro and the potential for biological imaging.

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