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Autism spectrum disorder (ASD) is a neurodevelopmental disorder characterized by behavioral features that appear early in life. Although studies have shown that atypical brain functional and structural connectivity are associated with these behavioral traits, the occurrence and initial alterations of brain networks have not been fully investigated. The current study aimed to map early brain network efficiency and information transferring in infants at elevated likelihood (EL) compared to infants at typical likelihood (TL) for ASD in the first year of life. selleck chemicals This study used a resting-state functional near-infrared spectroscopy (fNIRS) approach to obtain the length and strength of functional connections in the frontal and temporal areas in 45 5-month-old and 38 10-month-old infants. Modular organization and small-world properties were detected in both EL and TL infants at 5 and 10 months. In 5-month-old EL infants, local and nodal efficiency were significantly greater than age-matched TL infants, indicating overgrown local connections. Furthermore, we used a support vector machine (SVM) model to classify infants with or without EL based on the obtained global properties of the network, achieving an accuracy of 77.6%. These results suggest that infants with EL for ASD exhibit inefficiencies in the organization of brain networks during the first year of life.We examined the cognitive flexibility performance of young autistic children and a group of neurotypical peers. Thirty-six autistic children (72-83 months) and 200 age-matched typically-developing children were assessed on the Children's Color Trails Test (CCTT), a semantic and a phonemic verbal fluency task. The results showed that the autistic children performed worse than their neurotypical peers in the switching component of the CCTT. In the fluency tests, the autistic group generated overall fewer word items than their neurotypical peers, however, their poorer performance was driven by specific linguistic stimuli in the fluency tasks. The findings suggest that cognitive flexibility for the autistic children was affected in the nonverbal CCTT only, while poor performance in semantic and phonemic fluency seemed to be inherent to the language properties of the verbal fluency tasks.Click chemistry was extensively used to decorate synthetic multivalent scaffolds with glycans to mimic the cell surface glycocalyx and to develop applications in glycosciences. Conjugation methods such as oxime ligation, copper(I)-catalyzed alkyne-azide cycloaddition, thiol-ene coupling, squaramide coupling or Lansbury aspartylation proved particularly suitable to achieve this purpose. This review summarizes the synthetic strategies that can be used either in a stepwise manner or in an orthogonal one-pot approach, to conjugate multiple copies of identical or different glycans to cyclopeptide scaffolds (namely multivalent glycocyclopeptides) having different size, valency, geometry and molecular composition. The second part of this review will describe the potential of these structures to interact with various carbohydrate binding proteins or to stimulate immunity against tumor cells.The inferior epigastric artery (IEA) is commonly used as a recipient vessel in microsurgical phalloplasty but its use can be associated with abdominal parietal complications (hernia, bulging). To preclude such complications and avoid involvement of the femoral artery, we assessed an external pudendal artery (EPA) as a recipient vessel. We studied the disposition of the external pudendal system and its general anatomy. Then we compared the external diameter of the EPA to that of the first branches of the femoral artery. The most important point was to determine the location of the EPA through a reference line to facilitate a surgical approach. We then illustrated this preliminary study with a clinical case to check the reliability of the identified landmarks. Ten adult cadavers were dissected. The arteries of interest were part of a system consisting of either a common trunk or a duplicated system. The branches of the pudendal system arose from either the femoral artery or the deep femoral artery. On a horizontal reference line passing through the two pubic tubercles, we observed that 83% of EPAs arose between the reference line and 3 cm below it, at the level of a vertical axis centered on the femoral artery. The EPA could be suitable as recipient vessel in phalloplasty owing to its location, size, and ease of dissection. Using it instead of the IEA precludes abdominal parietal complications and reduces scarring in the recipient area.The role of microplastics in burying hydrophobic organic compounds remains largely unknown. Sediment cores collected from the center of a typical urban lake (Lake Qianhu) in China were chosen to explore the contribution of microplastics to the burial of polycyclic aromatic hydrocarbons (PAHs) by sediments, and to elucidate how this contribution changed with microplastic composition and the hydrophobicity of PAHs on a decade scale. Our results showed that the concentration of individual PAHs adsorbed by microplastics varied from detection limit (LOD) to 7.2 mg g-1 MP, which was much higher than the LOD to 31.0 μg g-1 TOC buried by total organic carbon. However, the amount of individual PAHs adsorbed by microplastics only contributed to 0-34.2% of that in sediments. Changes in the composition of microplastics, including the increased proportion of polyethylene and polypropylene  polyethylene polymer in sediments, resulted in the average microplastic sediment burial ratios (MSBRs) of most PAHs increasing by 0.13% to 2.7% in the period from 1997 to 2018 compared with those in the period from 1975 to 1996. The average MSBRs varied with the hydrophobicity of PAHs, which increased with log Kow value if it varied from 3.45 to 5.20, but decreased with log Kow if it was in the range of 5.30 to 6.50. Our study provides novel knowledge on the contribution of microplastics to the burial of PAHs by sediments.Currently, commercial milk may contain abundant pregnancy-related hormones, the regular consumption of which puts children at a risk of precocious puberty and sex-hormone-associated tumors in adulthood. In this intervention trial, 51 healthy prepubescent children were randomly assigned to the intervention or control arms at a ratio of 3  1 to receive 250 or 600 mL m-2 (body surface area) of milk intervention or matching equienergetic sugar water as the control. On testing cow's milk, progesterone was detected, while estrone, estradiol (E2), and testosterone (T2) were not. Cow's milk ingestion did not significantly influence the serum FSH, E2, PRL, LH, and T2 levels (P > 0.05) of pre-pubertal children 3 h after the intervention, while it increased their serum progesterone levels (P 0.05). Drinking commercial milk with progesterone influenced the progesterone levels of pre-pubertal children in hours but not days and did not affect other sex hormone levels of pre-pubertal children.We have deeply investigated KNO3-derived silica-supported potassium lactate catalysts for the vapour-phase dehydration of lactic acid (LA) to acrylic acid (AA) by catalytic testing, IR spectroscopic monitoring, ammonia temperature-programmed desorption, isopropyl amine temperature-programmed desorption, IR spectroscopy of pyridine adsorption and thermogravimetric analysis (TGA). A combination of catalytic and acid property studies illustrates that the acidic KNO3/silica systems are not favourable for catalytic selectivity and stability for the production of AA whereas the neutral KNO3/silica systems favour catalytic selectivity and stability for the production of AA. A combination of catalytic and TGA studies indicates that the interaction between KNO3 and silica has a strong promotional effect on catalytic stability for the production of AA. A combination of IR monitoring and catalytic studies suggests that the effects of the surface acidity and the interactions between the potassium salt or base and silica on the catalytic performance are associated with the content and stability of potassium lactate as the catalytic active species. The catalyst stabilization and deactivation under LA dehydration conditions are discussed in detail. The neutral KNO3/silica systems enable the formation of potassium lactate to become dominant whereas the unsupported KNO3 and acidic KNO3/silica systems lead to the formation of poly(potassium acrylate), i.e. catalyst deactivation. This contribution includes for the first time that the dehydration of LA to AA proceeds smoothly with a neutral heterogeneous catalyst.Understanding magnetic anisotropy based on electronic properties is vital for theoretical and applied research on ferromagnetic semiconductors. Here, for several representative D3d-symmetric ferromagnetic semiconducting monolayers, we investigate the effects of mixings between d-orbitals of central magnetic atoms and p-orbitals of ligands on magnetocrystalline anisotropy energy (MAE). For high-spin materials, the weakening of p-d mixing increases the electron occupation of spin-up bonding d-orbitals at the expense of the electron occupation in the corresponding spin-down orbitals, In contrast, the weakening of p-d mixing decreases the electron occupation of the spin-up antibonding d-orbitals and enhances the electron occupation in the corresponding spin-down orbitals. The weakening mixings also result in an overall shift of the spin-down band toward a higher energy with respect to the spin-up band. These changes are just the opposite in a low-spin material. More interestingly, we find that the transition point between the bonding and the antibonding spin-up bands plays a significant role in tuning the MAE. Its shift with strain is almost linearly related to the p-d bond strength and significantly affects both the electron occupation of occupied spin-up antibonding d-bands and the band shift of unoccupied spin-up d-bands. Furthermore, the correlation of these mixing-related changes in electronic structures with the MAE is qualitatively and quantitatively analyzed. Our findings can deepen the understanding of the correlation between MAE and p-d orbital mixings and provide theoretical guidance for modulating the MAE.Herein, we report two 2,2'-pyridylpyrrolide (PyPyrH) ligand supported magnesium complexes (1 and 2), which demonstrate bright luminescence with a quantum yield of 22% and 14% in the solid state, respectively. Theoretical calculations reveal that their emissive properties originate from the intra- and inter-ligand charge transfer.Torularhodin is a carotenoid with various functions, and carotenoids can be used by the gut microbiota. However, the effect of torularhodin on the gut microbiota is not yet clear. In this study, an octenyl succinic anhydride (OSA) colon-targeted delivery system and an in vitro gut digestive system were used to explore the role of the gut microbiota in long-term dietary patterns rich in torularhodin. The results suggested that the gut microbiota was affected by the diet rich in torularhodin, mainly including Frisingicoccus, Butyricicoccus, Eubacterium, Bacteroides, Dialister, Lachnoclostridium, Streptococcus, and Ruminococcus torques. Torularhodin inhibited the growth of pathogenic bacteria belonging to Enterobacteriaceae and transformed beneficial bacteria Bifidobacterium and Bacteroides into dominant bacteria under long-term dietary patterns. The functional analysis of the gut microbiota showed that differential genes were mainly enriched in glycolysis/gluconeogenesis and pentose phosphate pathways. The metabolome results also demonstrated that torularhodin mainly regulated fructose-1,6-bisphosphatase in the abovementioned pathway.