Assembly of Genetically Engineered Ionizable Protein Nanocage-based Nanozymes for Intracellular Superoxide Scavenging by Qiqi Liu, Zhanxia Gao, Xiangyun Zhang, Qiannan Duan, Yue Zhang, Adam C. Midgley, Li Jiao, Ruming Liu, Mingsheng Zhu, Deling Kong, Jie Zhuang, Xinglu Huang

“…In this study, we employ a genetic engineering strategy to generate ionizable ferritin nanocages (iFTn), enabling their escape from endo-lysosomes and entry into the cytoplasm. …”
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A select inhibitor of MORC2 encapsulated by chimeric membranecoated DNA nanocage target alleviation TNBC progression by Xiaohan Su, Yunbo Luo, Yali Wang, Peng Qu, Jun Liu, Shiqi Han, Cui Ma, Shishan Deng, Qi Liang, Xiaowei Qi, Panke Cheng, Lingmi Hou

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Li-doped C20 nanocage and its derivatives for gas sensing application: A density functional theory study by Poonam Parkar, Mohsen Doust Mohammadi, Ajay Chaudhari

Subjects: “…Nanocage…”
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Revealing the Role of X12Y12 Nanocages (X = B, In; Y = N, Sb) in NH3 Gas Adsorption: toward Gas Sensor Application by Erlan Fadhlan Hidayat, Silmi Rahma Amelia, Nita Dwi Fitriani, Issana Pramordha Wardhani, Rike Pradila, Alif Ijlal Wafi, Nadia Maharani Chadiza, Tety Sudiarti, Yuly Kusumawati, Fahdzi Muttaqien, Atthar Luqman Ivansyah

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Engineered Magnetic Carbon-Based Adsorbents for the Removal of Water Priority Pollutants: An Overview by H. E. Reynel-Ávila, K. I. Camacho-Aguilar, A. Bonilla-Petriciolet, D. I. Mendoza-Castillo, H. A. González-Ponce, R. Trejo-Valencia

“…Different preparation routes to obtain magnetic adsorbents from activated carbon, biochar, hydrochar, graphene, carbon dots, carbon nanotubes, and carbon nanocages, including the magnetic phase incorporated on the solid surface, are described and discussed. …”
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Optimization of Conditions for Expression of Dengue Serotype 2 EDIII Protein in <i>Escherichia coli</i> and Immune Responses of Adjuvant-Free EDIII Ferritin Nanoparticles Against D... by M.S.B.W.T.M. Nipuna Sudaraka Tennakoon, Kyoung-Ho Lee, Hye-Mi Lee, Jae-Yeon Park, Hyun-Jin Shin

“…Self-assembling ferritin nanoparticle technology is a widely used vaccine development platform for enhancing the efficacy of subunit vaccines by displaying multiple antigens on nanocages. The dengue virus (DENV) envelope domain III (EDIII) protein, the most promising antigen for DENV, has been applied in vaccine development, and it is essential to evaluate the relative immunogenicity of the EDIII protein and EDIII-conjugated ferritin to show the efficiency of the ferritin delivery system compared with EDIII. …”
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