Passive smoking may be associated with bleeding of cerebral arteriovenous malformation in non-smoking women: a retrospective analysis

ABSTRACT Background Smoking has been considered to be a risk factor for cardiovascular disease, cancer, depression and other diseases in previous reports, and active smoking is considered to be a risk factor for hemorrhagic stroke. In addition, a retrospective study showed that male smokers were at increased risk of bleeding from arteriovenous malformation (AVM), compared with non-smokers. However, the effect of passive smoking on rupturing of cerebral AVM in non-smoking women has not been addressed. Objective This study aimed to assess the impact of tobacco exposure on AVM bleeding risk in non-smoking women. Methods A total of 393 non-smoking women diagnosed with AVM were included. They were divided into a bleeding group (205 women) and a non-bleeding group (188 women). We conducted univariate and multivariate analysis on these two groups. In univariate analysis, risk factors that might be related to AVM bleeding were analyzed. In multivariate analysis, the relationship between passive smoking and AVM rupture was analyzed by correcting confounding factors. Results Multivariate analysis showed that the proportion of passive smoking was statistically different between the bleeding group and the non-bleeding group (OR = 1.609; CI = 1.031-2.509; p = 0.036). Conclusion Passive smoking may increase the risk of AVM bleeding in non-smoking women. This increased risk may be related to the inflammatory response, vascular wall damage, hemodynamic disorders, changes in atherosclerosis and changes in gene expression caused by passive smoking.</div

Nuclear Quantum Effects Accelerate Charge Recombination but Boost the Stability of Inorganic Perovskites in Mild Humidity

Experiments have demonstrated that mild humidity can enhance the stability of the CsPbBr3 perovskite, though the underlying mechanism remains unclear. Utilizing ab initio molecular dynamics, ring polymer molecular dynamics, and non-adiabatic molecular dynamics, our study reveals that nuclear quantum effects (NQEs) play a crucial role in stabilizing the lattice rigidity of the perovskite while simultaneously shortening the charge carrier lifetime. NQEs reduce the extent of geometric disorder and the number of atomic fluctuations, diminish the extent of hole localization, and thereby improve the electron–hole overlap and non-adiabatic coupling. Concurrently, these effects significantly suppress phonon modes and slow decoherence. As a result, these factors collectively accelerate charge recombination by a factor of 1.42 compared to that in scenarios excluding NQEs. The resulting sub-10 ns recombination time scales align remarkably well with experimental findings. This research offers novel insight into how moisture resistance impacts the stability and charge carrier lifetime in all-inorganic perovskites

Novel Insight of Nitrogen Deprivation Affected Lipid Accumulation by Genome-Wide Lactylation in Nannochloropsis oceanica

Lysine lactylation (kla) as a post-translational modification (PTM) is linked to chromatin remodeling and gene transcription. Nitrogen stress can induce triacylglyceride (TAG) accumulation in most microalgae. To reveal lipid synthesis from another layer, the 4D label-free proteome method was used to track lactylation modifications and protein expression profiles after 3 days of nitrogen deprivation in Nannochloropsis oceanica to analyze the function and prevalence of lactylation. Under nitrogen deprivation (ND) and nitrogen repletion (NR) cultivation conditions, we mapped the proteome and lactylome of proliferating microalgal cells. The results showed that there were 5203 proteins identified and 1245 proteins differentially expressed; among them, 664 were upregulated and 581 were downregulated. The N. oceanica strain also has a total of 868 lactylation sites, which were found on 379 proteins. The lactylated proteins were linked to biological activities as diverse as lipid metabolism, carbon fixation, photosynthesis, glycolysis, and the tricarboxylic acid (TCA) cycle and were found in various subcellular compartments. Under ND, 414 specific lactylation sites were found in 252 proteins. More interestingly, under ND vs NR, lactylation showed a significantly upregulated trend. This study provides a foundation for the future epigenetic enhancement of microalgal cells by providing the first dataset of lactylome in Nannochloropsis

Novel Insight of Nitrogen Deprivation Affected Lipid Accumulation by Genome-Wide Lactylation in Nannochloropsis oceanica

Lysine lactylation (kla) as a post-translational modification (PTM) is linked to chromatin remodeling and gene transcription. Nitrogen stress can induce triacylglyceride (TAG) accumulation in most microalgae. To reveal lipid synthesis from another layer, the 4D label-free proteome method was used to track lactylation modifications and protein expression profiles after 3 days of nitrogen deprivation in Nannochloropsis oceanica to analyze the function and prevalence of lactylation. Under nitrogen deprivation (ND) and nitrogen repletion (NR) cultivation conditions, we mapped the proteome and lactylome of proliferating microalgal cells. The results showed that there were 5203 proteins identified and 1245 proteins differentially expressed; among them, 664 were upregulated and 581 were downregulated. The N. oceanica strain also has a total of 868 lactylation sites, which were found on 379 proteins. The lactylated proteins were linked to biological activities as diverse as lipid metabolism, carbon fixation, photosynthesis, glycolysis, and the tricarboxylic acid (TCA) cycle and were found in various subcellular compartments. Under ND, 414 specific lactylation sites were found in 252 proteins. More interestingly, under ND vs NR, lactylation showed a significantly upregulated trend. This study provides a foundation for the future epigenetic enhancement of microalgal cells by providing the first dataset of lactylome in Nannochloropsis

Table_1_Differences in the Plastispheres of Biodegradable and Non-biodegradable Plastics: A Mini Review.DOCX

There has been a steady rise in the production and disposal of biodegradable plastics. Unlike the microorganisms present in the biofilms on non-biodegradable plastic surfaces (the “plastisphere”), the plastisphere of biodegradable plastic has not been well-characterized. As the polymer structure of biodegradable plastic has a higher microbial affinity than that of non-biodegradable plastic, their plastispheres are assumed to be different. This review summarizes the reported differences in microbial communities on the surface of biodegradable and non-biodegradable plastics, discusses the driving forces behind these differences, and discusses the potential environmental risks. Overall, the plastisphere biomass on the surface of non-biodegradable plastic was observed to be lower than that of biodegradable plastic. The community structure of microbes in both plastispheres was diverse, mainly due to the properties of the plastic surface, such as surface charge, hydrophilicity/hydrophobicity, roughness, and bioavailability of polymer components for microbes. Further research should focus on developing biodegradable plastic that degrade faster in the environment, revealing the mechanism of enrichment of ARGs and potential pathogens on plastics, and understanding the potential influence of plastispheres on the evolution and selection of plastic-degrading microbial potential.</p

Additional file 1 of Nitrogen addition increases sexual reproduction and improves seedling growth in the perennial rhizomatous grass Leymus chinensis

Additional file 1

Impact of Surface Hydroxyl Groups on CuO Film Growth by Atomic Layer Deposition

CuO-based nanostructures have been widely investigated in catalysis, sensing, and energy conversion and storage in recent years. The unique properties of these nanostructures are largely related to the morphology and crystallinity of CuO. The controlled deposition of conformal CuO thin films by atomic layer deposition (ALD) has remained challenging until now owing to the limited understanding of the nucleation behavior and growth process. Here, a novel ALD process for copper oxide was developed using copper­(II) trifluoroacetylacetonate [Cu­(tfacac)2] as the metal precursor. The nucleation and initial growth of a CuO film are strongly dependent on the surface OH concentration. A continuous particulate-like CuO film was grown on OH-abundant pristine SiO2 particles, whereas the surface of the annealed SiO2 particles (presenting mostly isolated OH groups) remained uncoated under the same growth conditions. Moreover, a uniform and conformal CuO film was grown on covalently functionalized CNTs under identical conditions as pristine SiO2 particles. This study provides a strategy for tailoring the structure and the properties of thin films via ALD, which is promising for designing well-tailored nanostructures for various applications

Novel Insight of Nitrogen Deprivation Affected Lipid Accumulation by Genome-Wide Lactylation in Nannochloropsis oceanica

Lysine lactylation (kla) as a post-translational modification (PTM) is linked to chromatin remodeling and gene transcription. Nitrogen stress can induce triacylglyceride (TAG) accumulation in most microalgae. To reveal lipid synthesis from another layer, the 4D label-free proteome method was used to track lactylation modifications and protein expression profiles after 3 days of nitrogen deprivation in Nannochloropsis oceanica to analyze the function and prevalence of lactylation. Under nitrogen deprivation (ND) and nitrogen repletion (NR) cultivation conditions, we mapped the proteome and lactylome of proliferating microalgal cells. The results showed that there were 5203 proteins identified and 1245 proteins differentially expressed; among them, 664 were upregulated and 581 were downregulated. The N. oceanica strain also has a total of 868 lactylation sites, which were found on 379 proteins. The lactylated proteins were linked to biological activities as diverse as lipid metabolism, carbon fixation, photosynthesis, glycolysis, and the tricarboxylic acid (TCA) cycle and were found in various subcellular compartments. Under ND, 414 specific lactylation sites were found in 252 proteins. More interestingly, under ND vs NR, lactylation showed a significantly upregulated trend. This study provides a foundation for the future epigenetic enhancement of microalgal cells by providing the first dataset of lactylome in Nannochloropsis

The non-state-owned shareholder ‘s governance and the degree of deviation of capital structure.

The non-state-owned shareholder ‘s governance and the degree of deviation of capital structure.</p

Robustness test.

Robustness test.</p