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A numerical approach has been proposed to identify bands for optimally estimating the concentration of three types of viable chromophores within biological tissue. The bands are determined according to the condition number of absorption matrix associated with the attenuation coefficients of chromophores. The effectiveness of different sets of selected band combination was verified by using the spectral reflectance images of skin tissue acquired from standard forearm vascular occlusion tests via a spectroradiometer. Experimental results demonstrated that the concentration of chromophores within skin tissue could be estimated correctly and robustly only when the bands were deliberately selected.People with type 2 diabetes (T2D) are at a greater risk of cardiovascular disease than the general population. Both non-modifiable (age) and modifiable (low aerobic fitness, high body fatness) factors are separately predictive of cardiovascular risk, although they often occur concomitantly. This study aimed to examine the (1) association between age and arterial stiffness, a subclinical marker of cardiovascular risk; and (2) effects of body fatness and aerobic fitness on age-related increases in arterial stiffness in people with T2D. Data from 64 individuals with T2D (age 59.8 ± 8.7 years, 40% female, HbA1c 8.4 ± 1.6%) were included in this cross-sectional analysis. Carotid-femoral pulse wave velocity (cfPWV) was used to quantify arterial stiffness. Aerobic fitness (relative V̇O2peak ) was determined via indirect calorimetry during maximal exercise testing. Central body fatness was determined using waist circumference. Data were analysed using hierarchical multiple regressions. After adjustment for sex and duration of T2D, each one standard deviation (SD) increase in age (8.68 years) was associated with a 0.63 m·s-1 increase in cfPWV (β = 0.416, p = 0.001). Following adjustment for aerobic fitness and body fatness, the standardized β was unchanged (0.417). A one SD increase in waist circumference (13.9 cm) and relative V̇O2peak (5.3 ml·kg-1 ·min-1 ) were associated with a similar magnitude of difference in cfPWV (0.47 m·s-1 and -0.44 m·s-1 , respectively). Therefore, age is a significant correlate of increased arterial stiffness in T2D, with higher aerobic fitness attenuating, and higher body fatness exacerbating, this increase. Interventions aimed at improving cardiovascular outcomes in people with T2D should target both increased aerobic fitness and reduced body fatness.

DNA damage repair (DDR) plays a role in the tumorigenesis and progression of lung squamous cell carcinoma (LUSC), but the predictive value of DDR in LUSC has not been fully elucidated.

The LUSC datasets were retrieved from the Cancer Genome Atlas databases. Univariate Cox regression and least absolute shrinkage and selection operator regression were integrated to identify critical genes and construct a DDR gene signature. We performed Kaplan-Meier (KM) curve to compare the overall survival (OS) between the two groups based on DDR signature and used the CIBERSORT tool to compare the immune cell composition. Further gene set enrichment analysis (GSEA) was performed on the differential expressed genes.

We established the DDR-related gene signature on LUSC. KM curve showed the low-risk group had a better prognosis than the high-risk group in the training set (p=0.022673) and the complete set (p=0.003201). The area under receiver operating characteristic curve for OS was 0.98, 0.96, and 0.97 in the training dataset, testing dataset, and the complete dataset, respectively. The composition of immune cells was different between the high- and low-risk group. The GSEA result suggests that genes of the patients in low-risk group were mainly enriched in the DNA adducts; drug metabolism-cytochrome P450, metabolism of xenobiotics by cytochrome P450.

This study identified DDR-associated potential biomarkers related to overall survival of LUSC and establishes the DDR-associated gene signature.

This study identified DDR-associated potential biomarkers related to overall survival of LUSC and establishes the DDR-associated gene signature.Motivated by our previous study on Sm3+ ions as thermoluminescence (TL) sensitizers to the BaO-ZnO-LiF-B2 O3 -Yb2 O3 glass system, in the current study we examined the effect of Er3+ ion co-doping on the TL characteristics of this glass system. The 4f-4f electronic transitions of the Er3+ and Yb3+ ions were confirmed via the optical absorption spectrum. Notably, the use of Yb3+ -Er3+ ions failed to improve the TL intensity, sensitivity, and trap density. However, they enabled the glass system to function as an activator-quencher system. The linearity range and effective atomic number remained unaffected after co-doping. In addition, the problem of anomalous fading caused a remnant signal of just 58% after a week of storage of the Yb3+ monodoped glass. This was resolved by the optimum co-doping of Er3+ ions to achieve an 89% signal. The co-doping of Er3+ ions to the BaO-ZnO-LiF-B2 O3 -Yb2 O3 glass system regulated its thermal stability and therefore supplemented its potential for radiation monitoring in food processing and retrospective dosimetry.Given the emerging pivotal roles of stimulator of interferon genes (STING) in host pathogen defense and immune-oncology, STING is regarded as a promising target for drug development. Cyclic dinucleotides (CDNs) are the first-generation STING agonists. However, their poor metabolic stability and membrane permeability limits their therapeutic application. In contrast, small-molecule STING agonists show superior properties such as molecular weight, polar character, and delivery diversity. The quest for a potent small-molecular agonist of human STING remains ongoing. In our study, through an IRF/IFN pathway-targeted cell-based screen of a natural products library, we identified a small-molecular STING agonist, Ziyuglycoside II, termed ST12, with potent stimulation of the IRF/IFN and NF-κB pathways. Furthermore, its binding to the C-terminal domain of human STING, detected by bio-layer interferometry, indicates that ST12 is a human STING agonist. Further Tanimoto similarity analysis with existing small-molecule STING agonists indicates that ST12 is a lead compound with a novel core structure for the further optimization.Efficient catalytic ring-opening coupled with hydrogenation is a promising but challenging reaction for producing adipic acid (AA) from 2,5-furan dicarboxylic acid (FDCA). In this study, AA synthesis is carried out in two steps from FDCA via tetrahydrofuran-2,5-dicarboxylic acid (THFDCA) over a recyclable Ru/Al2 O3 and an ionic liquid, [MIM(CH2 )4 SO3 H]I (MIM=methylimidazolium) to deliver 99 % overall yield of AA. Ru/Al2 O3 is found to be an efficient catalyst for hydrogenation and hydrogenolysis of FDCA to deliver THFDCA and 2-hydroxyadipic acid (HAA), respectively, where ruthenium is more economically viable than well-known palladium or rhodium hydrogenation catalysts. H2 chemisorption shows that the alumina phase strongly affects the interaction between Ru nanoparticles (NPs) and supports, resulting in materials with high dispersion and small size of Ru NPs, which in turn are responsible for the high conversion of FDCA. An ionic liquid system, [MIM(CH2 )4 SO3 H]I is applied to the hydrogenolysis of THFDCA for AA production. The [MIM(CH2 )4 SO3 H]I exhibits superior activity, enables simple product isolation with high purity, and reduces the severe corrosion problems caused by the conventional hydroiodic acid catalytic system.Due to their high activity and favorable stability in acidic electrolytes, Ir and Ru oxides are primary catalysts for the oxygen evolution reaction (OER) in proton-exchange membrane (PEM) electrolyzers. For a future large-scale application, core-shell nanoparticles are an appealing route to minimize the demand for these precious oxides. Here, we employ first-principles density-functional theory (DFT) and ab initio thermodynamics to assess the feasibility of encapsulating a cheap rutile-structured TiO2 core with coherent, monolayer-thin IrO2 or RuO2 films. Resulting from a strong directional dependence of adhesion and strain, a wetting tendency is only obtained for some low-index facets under typical gas-phase synthesis conditions. Thermodynamic stability in particular of lattice-matched RuO2 films is instead indicated for more oxidizing conditions. Intriguingly, the calculations also predict an enhanced activity and stability of such epitaxial RuO2 /TiO2 core-shell particles under OER operation.Confinements and social distancing measures during COVID-19 pandemic were particularly challenging to adolescents, impacting significantly their life and routines. Following a longitudinal design, this study sought to compare adolescents' cognitive well-being-satisfaction with life, social support, and quality of life-before (T1) and during (T2) the COVID-19 pandemic. Additionally, it aimed to clarify the predictive value of the three dimensions of the cognitive well-being to the satisfaction of basic psychological needs of adolescents at school at T2. One thousand ninety-nine Portuguese adolescents participated, showing generally increased scores in satisfaction with life, social support, and quality of life at T2. Even so, girls revealed lower changes in cognitive well-being components compared with boys, between T1 and T2. In addition, satisfaction with life and quality of life were predictive of satisfaction of basic psychological needs at T2. This work highlights the relevance of cognitive well-being as a dispositional dimension in determining the satisfaction of basic psychological needs in adolescence, during a worldwide catastrophic event.Linear or M1-ubiquitination (Ub) is required for optimal NF-kB activation and for cell death inhibition. Using Drosophila as a model organism, Aalto et al. found that hypoxia, oxidative and mechanical stress induced M1-Ub by the HOIP homolog, LUBEL. Increased M1-Ub had a protective function driven by activation of the NF-κB transcription factor Relish via the Immune deficiency pathway (Imd). This protective M1-Ub was also induced upon cellular stress in colorectal cancer cells. PIK-90 Collectively, they propose that M1-Ub is a conserved, common response to different forms of stresses. These findings may have important implications for the use of HOIP inhibitors for cancer treatment. Comment on https//doi.org/10.1111/febs.16425.Rice OsLIC encoding a CCCH zinc finger transcription factor plays an important role in immunity. However, the immune signaling pathways that OsLIC-involved and the underlying mechanisms that OsLIC-conferred resistance against pathogens are largely unclear. Here, we show that OsLIC, as a substrate for OsMAPK6, negatively regulates resistance to Xanthomonas oryzae pv. oryzae (Xoo) and X. oryzae pv. oryzicola (Xoc) by directly suppressing OsWRKY30 transcription. Biochemical assays showed that OsLIC bound to OsWRKY30 promoter and suppressed its transcription. Genetic assays confirmed that the osilc knockout mutants and OsWRKY30-overexpressing plants exhibited enhanced resistance to Xoo and Xoc, knocking out OsWRKY30 in the oslic mutants attenuated the resistance against bacterial pathogens. OsMAPK6 physically interacted with and phosphorylated OsLIC leading to decreased OsLIC DNA-binding activity, therefore, overexpression of OsLIC partially suppressed OsMAPK6-mediated rice resistance. In addition, both OsMAPK6-phosphorylated activation of OsLIC and phosphorylation-mimic OsLIC5D had reduced DNA-binding activity towards OsWRKY30 promoter, thereby promoting OsWRKY30 transcription.

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