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  1. Abstract

    Phonological awareness (PA), rapid automatized naming (RAN), and verbal short-term memory (VSTM) deficits have been identified as risk factors for developmental dyslexia (DD) of alphabetic orthographies. Yet, these three facets of phonological skills in DD of Chinese, a logographic writing system, have rarely been investigated together. The present study aimed to investigate PA, RAN, and VSTM deficits in Chinese children with DD. We compared 128 third and fourth grade Mandarin-speaking Chinese children with DD aged between 8 and 11 years (mean age = 9.4 years, 73 male) and 135 age-matched controls on 7 phonological tasks, including 2 PA tasks (phoneme deletion and onset/rime deletion), 3 RAN tasks (digit, object, and color), and 2 VSTM task (spoonerism and digit span). A combination of logistic regression analysis and a machine learning approach with SHapley Additive exPlanations (SHAP) methods was employed for data analyses. Logistic regression analysis showed that similar to the results from DD in six European languages by Landerl and Ramus et al. (2013), phoneme deletion and RAN digits played major roles in predicting Chinese DD, while digit span played a minor role. SHAP analysis revealed that the most effective predictor tasks for Chinese DD are RAN pictures, phoneme deletion, and spoonerism. The results suggest important roles of RAN and PA and a minor role of VSTM in predicting Chinese DD. Findings have important implications for the diagnosis and remediation of Chinese DD.

     
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  2. Abstract

    It has been widely accepted that phonological awareness (PA), rapid automatized naming (RAN), and verbal short-term memory (VSTM) deficits are three core facets of phonological deficits in developmental dyslexia (DD) of alphabetic orthographies. Yet, whether these three phonological facets also represent key phonological deficits of DD in Chinese, a logographic language, has never been investigated. The current study aimed to examine profiles of phonological deficits and comorbidity in Chinese DD. We tested 128 children with DD aged between 8 and 11 years and 135 age-matched controls on 9 tasks, including 2 PA tasks (phoneme deletion and onset/rime deletion), 3 RAN tasks (digit, object and color), 2 VSTM task (spoonerisms and digit span), an orthographic awareness task (orthographic judgment), and a morphological awareness task (morphological production). With the control of morphological and orthographic awareness, results from latent profile analysis revealed three latent profiles, namely the RAN deficit group, the severe PA deficit group, and the mild VSTM deficit group. Individual analysis using a Venn plot showed that 83.59% of DD exhibited phonological deficits, among whom 58.59% with RAN deficit, 49.22% with PA deficit, and 47.66% with VSTM deficit, and all three groups shared overlap. The results have important implications for the identification and remediation of Chinese DD.

     
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  3. Free, publicly-accessible full text available August 16, 2025
  4. Zhou, Ning-Yi (Ed.)
    ABSTRACT

    Methane oxidation by aerobic methanotrophs is well known to be strongly regulated by the availability of copper, i.e., the “copper switch.” That is, there are two forms of methane monooxygenase: a cytoplasmic or soluble methane monooxygenase (sMMO) and a membrane-bound or particulate methane monooxygenase (pMMO). sMMO is only expressed and active in the absence of copper, while pMMO requires copper. Previous work has also shown that one gene in the operon of the soluble methane monooxygenase—mmoD—also plays a critical role in the “copper switch,” but its function is still vague. Herein, we show that MmoD is not needed for the expression of genes in the sMMO gene cluster but is critical for the formation of sMMO polypeptides and sMMO activity inMethylosinus trichosporiumOB3b, indicating that MmoD plays a key post-transcriptional role in the maturation of sMMO. Furthermore, data also show that MmoD controls the expression of methanobactin, a copper-binding compound used by some methanotrophs, includingM. trichosporiumOB3b, for copper sequestration. Collectively, these results provide greater insights into the components of the “copper switch” and provide new strategies to manipulate methanotrophic activity.

    IMPORTANCE

    Aerobic methanotrophs play a critical role in the global carbon cycle, particularly in controlling net emissions of methane to the atmosphere. As methane is a much more potent greenhouse gas than carbon dioxide, there is increasing interest in utilizing these microbes to mitigate future climate change by increasing their ability to consume methane. Any such efforts, however, require a detailed understanding of how to manipulate methanotrophic activity. Herein, we show that methanotrophic activity is strongly controlled by MmoD, i.e., MmoD regulates methanotrophy through the post-transcriptional regulation of the soluble methane monooxygenase and controls the ability of methanotrophs to collect copper. Such data are likely to prove quite useful in future strategies to enhance the use of methanotrophs to not only reduce methane emissions but also remove methane from the atmosphere.

     
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  5. null (Ed.)
  6. The rapidly accumulating amounts of waste electrical and electronic equipment (WEEE) is one of the biggest environmental concerns in modern societies, and this problem will be further accelerated in the future. The use of supercritical CO2 (scCO2) mixed with acids has been proposed as a greener solvent system compared to conventional cyanide and aqua regia solvents, however, the mechanisms of scCO2 in metal extraction from WEEE are still poorly understood. Thus, this study focused on the physical, structural, and chemical interactions between scCO2/acid solvents and complex layered components in waste printed circuit boards (WPCBs), one of the common WEEEs. Our study showed that the use of scCO2-based pretreatment allows faster leaching of metals including copper (Cu) in the subsequent hydrometallurgical process using H2SO4 and H2O2, while allowing gold (Au) recovery as hydrometallurgically delaminated solids. This enhancement is due to the selective leaching of Ni and unique inner porous structures created by ScCO2/acid treatment via dissolving the Ca-silicate-bearing fiberglass within the WPCB. Thus, the scCO2-based pretreatment of WPCBs shows a multifaceted green chemistry potential relating to the reduction in solvent usage and targeted recovery of Au prior to shredding or grinding that would reduce any loss or dilution of Au in the subsequent waste stream. 
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  7. null (Ed.)