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Regulating Charge Distribution in Porphyrin-Based Polymer for Achieving Photocatalytic CO Conversion to CH or CH.
Small
January 2025
School of Chemical Engineering and Technology, Xi'an Jiaotong University, Xi'an, 710049, China.
The photocatalytic conversion of CO into products such as CH and CH poses a significant challenge due to the lengthy reaction steps and the high energy barrier involved. In this study, both benzothiadiazole (BTD) and hydroxyl groups (-OH) are introduced into cobalt-based polymerized porphyrinic network (PPN) through a C-C coupling reaction. This modification of orbital energy levels that strengthens the ability of gain electrons and facilitates the charge transfer in PPN.
View Article and Find Full Text PDFRecent advances in biocatalytic and chemoenzymatic synthesis of oligonucleotides.
Chembiochem
January 2025
Institut Pasteur, Department of Structural Biology and Chemistry, 28 Rue du Dr. Roux, 75015, Paris, FRANCE.
Access to synthetic oligonucleotides is crucial for applications in diagnostics, therapeutics, synthetic biology, and nanotechnology. Traditional solid phase synthesis is limited by sequence length and complexities, low yields, high costs and poor sustainability. Similarly, polymerase-based approaches such as in vitro transcription and primer extension reactions do not permit any control on the positioning of modifications and display poor substrate tolerance.
View Article and Find Full Text PDFElucidation of the Glycan Structure of the b-type Flagellin of PAO1.
ACS Infect Dis
January 2025
Leiden University Center for Infectious Diseases, Leiden University Medical Center, Leiden 2333 ZA, The Netherlands.
Flagella are essential for motility and pathogenicity in many bacteria. The main component of the flagellar filament, flagellin (FliC), often undergoes post-translational modifications, with glycosylation being a common occurrence. In PAO1, the b-type flagellin is -glycosylated with a structure that includes a deoxyhexose, a phospho-group, and a previous unknown moiety.
View Article and Find Full Text PDFNanomaterials-Induced Pyroptosis: Advancing Novel Therapeutic Pathways in Nanomedicine.
Small Methods
January 2025
CAS Key Laboratory for Biomedical Effects of Nanomaterials and Nanosafety, CAS Center for Excellence in Nanoscience, National Center for Nanoscience and Technology (NCNST), Beijing, 100190, China.
Pyroptosis, a form of programmed cell death characterized by cell lysis and inflammation, has significant implications for disease treatment. Nanomaterials (NMs), with their unique physicochemical properties, can precisely modulate pyroptosis, offering novel and intelligent therapeutic strategies for cancer, infectious diseases, and chronic inflammatory conditions with targeted activation and reduced systemic toxicity. This review explores the mechanisms by which NMs regulate pyroptosis, comparing molecular and NM inducers, and examines the role of intrinsic properties such as size, shape, surface charge, and chemical composition in these processes.
View Article and Find Full Text PDFMarine natural products as a source of novel anticancer drugs: an updated review (2019-2023).
Nat Prod Bioprospect
January 2025
International Research Center for Food Nutrition and Safety, Jiangsu University, Zhenjiang, 212013, China.
Marine natural products have long been recognized as a vast and diverse source of bioactive compounds with potential therapeutic applications, particularly in oncology. This review provides an updated overview of the significant advances made in the discovery and development of marine-derived anticancer drugs between 2019 and 2023. With a focus on recent research findings, the review explores the rich biodiversity of marine organisms, including sponges, corals, algae, and microorganisms, which have yielded numerous compounds exhibiting promising anticancer properties.
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