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  • Article
    Pan ZH, Yu SS, Bai CC, Yin WY, Ma YR, Xue ZA, Lu QY, Dong LY, Wang XH.
    Talanta. 2022 May 01;241:123240.
    Molecularly imprinted polymers (MIPs) are artificial chemical receptors, and can recognize template molecules with a high selectivity and affinity. As "antibody mimics", MIPs have been widely studied in various fields. However, the general applicability of MIPs is limited by the type of functional monomers. Herein, we developed caffeic acid (CA, a natural polyphenol) as novel a functional monomer. An innovative poly(caffeic acid)-coated molecularly imprinted magnetic nanoparticles (PCA-MIMN) with transferrin (TRF) as a model glycoprotein template was fabricated by autoxidation of CA with hexamethylenediamine (HMDA) in an aerobic environment as imprinted layer. The successful fabrication of PCA-MIMN was proved in detail by diversified characterization. The PCA-MIMN exhibited not only outstanding binding affinity and specificity for target glycoprotein, but also excellent hydrophilicity due to the externally generous hydrophilic groups. To evaluate the preeminent performance, the PCA-MIMN was linked with pH-triggered allochroic-graphene oxide (AGO), which was used for determination of TRF in real samples. The proposed PCA-MIMN linked AGO strategy exhibited ultrahigh sensitivity with limit of detection of 0.38 pg mL-1 for TRF. Finally, the proposed strategy was successfully applied in determination of TRF in spiked human serum sample with recovery and relative standard deviation in the range of 97.2%-103.9% and 4.6%-5.8%, respectively. This work demonstrates that the "autoxidation of CA with HMDA" may be a universal tool for synthesis of highly specific MIPs, and the type of functional monomers will increase exponentially due to the presence of numerous polyphenols in nature.
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  • Article
    Sarret G, Blommaert H, Wiggenhauser M.
    J Hazard Mater. 2021 01 05;401:123240.
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  • Article
    Gu Y, Wang Z, Liang G, Peng J, Zhang X, Yu T, Ding C, Li Z.
    Life Sci. 2024 Nov 13;359:123240.
    AIMS: The dysregulated Wnt/β-Catenin signaling pathway leads to occurrence of various diseases, and abnormal activation of β-Catenin is a major characteristic of human HCC. FZD7 is a positive regulator of the Wnt/β-catenin signaling pathway, and its upregulation is related to increase of β-catenin expression and carcinogenesis in human HCC. However, mechanisms underlying FZD7 upregulation in HCC remain elusive.
    MAIN METHODS: Nuclear cytosol fractionation, immunofluorescence and Top-Flash were used to detect the activation of β-Catenin. Protein half-life and ubiquitination assays were applied to evaluate protein stability. RNA-seq combined with qRT-PCR was used to evaluate differential gene expressions after SIRT7 knockdown. Wound healing and transwell assays were used to measure cancer cell migration.
    KEY FINDINGS: SIRT7-mediated FZD7 expression is essential for stability and activation of β-catenin. Knockdown SIRT7 in HCC cells resulted in enhanced binding of β-catenin to the DC, decreased its stability, nuclear localization and activation. Knockdown FZD7 reversed SIRT7 overexpression mediated β-catenin stabilization and impairment of binding of β-catenin to the DC. At molecular level, SIRT7 promotes FZD7 expression via upregulating transcription factor PU.1, knockdown PU.1 abolished SIRT7-mediated upregulation of FZD7. Finally, we confirmed that FZD7 was responsible for SIRT7-mediated β-catenin stabilization and HCC cells migration. By using clinical samples, we observed strong positive correlations between SIRT7 and PU.1, FZD7, p-GSK3β and β-Catenin in human HCC.
    SIGNIFICANCE: Our results thus revealed a previously undisclosed role of SIRT7 in regulating the canonical Wnt/β-catenin signaling pathway, thereby offering additional evidence that SIRT7 holds promise as a novel therapeutic target for human HCC.
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  • Article
    Zhu R, Li Q.
    J Environ Manage. 2024 Nov 08;371:123240.
    As an essential market player, corporations play a crucial role in achieving green and sustainable economic development, while information technology is vital in influencing corporate environmental decision-making. Therefore, using a sample of A-share listed companies in China from 2009 to 2021, we developed a measurement for IT change through computer-aided text analysis to investigate the impacts of IT change on corporate environmental violations. The key findings are as follows: (1) a 1% increase in external or internal IT change can reduce corporate environmental violations by approximately 0.139 and 0.204. (2) IT change influences corporate environmental violations through monitoring and knowledge acquisition mechanisms. (3) IT change significantly affects environmental violations in firms that are large in size, lack government supervision, and adopt cost leadership strategies. (4) IT change complements green credit policies and positively affects firms in non-green credit-restricted industries. To sum up, this paper contributes to understanding the factors that influence corporate environmental decisions and offers insights into promoting the construction of IT change.
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  • Article
    Iakovlev M, Survase S, Hill L, Sideri S, Rouzinou S, Kroff P, Pylkkanen V, Rutherford S, Retsina T.
    Bioresour Technol. 2020 Jul;307:123240.
    Two grades of recycled wood (Waste Wood A and Waste Wood B) were fractionated on a pilot scale (800 BD kg) to monomeric sugars, lignin and lignosulfonates using SO2-Ethanol-Water (AVAP®) technology, including pretreatment, separation of cellulosic and hemicellulosic streams, and saccharification. Carbohydrate mass balance was obtained through determination of poly-, oligo- and monosaccharides as well as sugar degradation products in process streams. High monosaccharide yields were obtained confirming laboratory scale findings. Fermentability of mixed cellulosic and hemicellulosic sugar stream was confirmed on bench scale (25 kg).
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  • Article
    Aamir M, Anwar K, Amin SB, Aqeel R.
    J Neurol Sci. 2024 Nov 15;466:123240.
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  • Article
    Liu Q, Liu Y, Yang Z, Qi X, Schauer JJ.
    Environ Pollut. 2024 Mar 01;344:123240.
    Recently, biomass has been regarded as a promising option for solid energy in China, which is promoted in the residential sector and firing power plants. We collected 200 PM2.5 samples (particulate matter with a aerodynamic diameter smaller than 2.5 μm) at multi-sites across Beijing from three individual sampling cases from 2015 to 2017. The levels of OC, OC fractions, EC, EC fractions, as well as K+ were measured. Then, we adopted the Positive Matrix Factorization 5.0 to apportion the sources of carbonaceous aerosols. The source apportionment results were compared with the estimates of source contribution using the bottom-up technical method with the latest emission inventories after the Action Plan was put into effect in 2013. Our results demonstrate that high pollution of carbonaceous aerosols originated from wood smoking based on the receptor modeling and bottom-up technical method in Beijing from 2015 to 2017. Future energy transition policy should focus on the technologies and regulations for reducing emissions from renewable biomass fuel combustion. This study highlights the importance of regulations that address emissions controls on fuels replacing coal combustion to meet the needs to mitigate air pollution from primary energy use.
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  • Article
    Kayina V, Kyobe S, Katabazi FA, Kigozi E, Okee M, Odongkara B, Babikako HM, Whalen CC, Joloba ML, Musoke PM, Mupere E.
    PLoS One. 2015;10(4):e0123240.
    BACKGROUND: We determined prevalence of pertussis infection and its associated host and environmental factors to generate information that would guide strategies for disease control.
    METHODS: In a cross-sectional study, 449 children aged 3 months to 12 years with persistent cough lasting ≥14 days were enrolled and evaluated for pertussis using DNA polymerase chain reaction (PCR) and ELISA serology tests.
    RESULTS: Pertussis prevalence was 67 (15% (95% Confidence Interval (CI): 12-18)) and 81 (20% (95% CI: 16-24)) by PCR and ELISA, respectively among 449 participating children. The prevalence was highest in children with >59 months of age despite high vaccination coverage of 94% in this age group. Study demographic and clinical characteristics were similar between pertussis and non-pertussis cases. Of the 449 children, 133 (30%) had a coughing household member and 316 (70%) did not. Among 133 children that had a coughing household member, sex of child, sharing bed with a coughing household member and having a coughing individual in the neighborhood were factors associated with pertussis. Children that had shared a bed with a coughing household individual had seven-fold likelihood of having pertussis compared to children that did not (odds ratio (OR) 7.16 (95% CI: 1.24-41.44)). Among the 316 children that did not have a coughing household member, age <23 months, having or contact with a coughing individual in neighborhood, a residence with one room, and having a caretaker with >40 years of age were the factors associated with pertussis. Age <23months was three times more likely to be associated with pertussis compared to age 24-59 months (OR 2.97 (95% CI: 1.07-8.28)).
    CONCLUSION: Findings suggest high prevalence of pertussis among children with persistent cough at a health facility and it was marked in children >59 months of age, suggesting the possibility of waning immunity. The factors associated with pertussis varied by presence or absence of a coughing household member.
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  • Article
    Abbasi A, Khatoon F, Ikram S.
    Int J Biol Macromol. 2023 Mar 15;231:123240.
    The mitigation of wastewater exploiting biopolymers/natural gums-based composites is an appealing research theme in today's scenario. The following review presents a comprehensive description of the polysaccharides derived from biopolymers (chitosan, collagen, cellulose, starch, pectin, lignin, and alginate) and natural gums (guar, gellan, carrageenan, karaya, moringa oliefera, tragacanth, and xanthan gum). These biopolymers/natural gums-based composites depicted excellent surface functionality, non-toxicity, economic and environmental viability, which corroborated them as potential candidates in the decontamination process. The presence of -OH, -COOH, and -NH functional groups in their backbone rendered them tailorable for modification/functionalization, and anchor an array of pollutants via electrostatic interaction, hydrogen bonding, and Van der Waals forces. Further, due to these functional moieties, these bio-based composites revealed an excellent adsorption capacity than conventional adsorbents. This review provides an overview of the classification of biopolymers/natural gums based on their origin, different ways of their modification, and the remediation of dye-contaminated aqueous environments employing diverse bio-based adsorbents. The isotherm, kinetic modelling along with thermodynamics of the adsorption process is discussed. Additionally, the reusable efficacy of these bio-adsorbents is reviewed.
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  • Article
    Gautam R, Ahmed R, Haugen E, Unal M, Fitzgerald S, Uppuganti S, Mahadevan-Jansen A, Nyman JS.
    Spectrochim Acta A Mol Biomol Spectrosc. 2023 Dec 15;303:123240.
    Since spatially offset Raman spectroscopy (SORS) can acquire biochemical measurements of tissue quality through light scattering materials, we investigated the feasibility of this technique to acquire Raman bands related to the fracture resistance of bone. Designed to maximize signals at different offsets, a SORS probe was used to acquire spectra from cadaveric bone with and without skin-like tissue phantoms attenuating the light. Autoclaving the lateral side of femur mid-shafts from 5 female and 5 male donors at 100 °C and again at 120 °C reduced the yield stress of cortical beams subjected to three-point bending. It did not affect the volumetric bone mineral density or porosity. Without tissue phantoms, autoclaving affected more Raman characteristics of the organic matrix when determined by peak intensity ratios, but fewer matrix properties depended on the three offsets (5 mm, 6 mm, and 7 mm) when determined by band area ratios. The cut-off in the thickness of the tissue phantom layers was ∼4 mm for most properties, irrespective of offset. Matching trends when spectra were acquired without phantom layers between bone and the probe, ν1PO43-/Amide III and ν1PO43-/(proline + OH-proline) were higher and lower in the non-treated bone than in the autoclaved bone, respectively, when the thickness of tissue phantom layers was 4 mm. The layers, however, caused a loss of sensitivity to autoclaving-related changes in ν3CO3/ν1PO43- and crystallinity. Without advanced post-processing of Raman spectra, SORS acquisition through turbid layers can detect changes in Raman properties of bone that accompany a loss in bone strength.
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  • Book
    edited by Jeffrey L. Noebels, Massimo Avoli, Michael A. Rogawski, Annamaria Vezzani, and Antonio V. Delgado-Escueta.
    Print Access Request
    Location
    Version
    Call Number
    Items
    Books: General Collection (Downstairs)
    2024
    RC372 .J37 2024
    1