The Prospects for the Therapeutic Implications of Genetically Engineered Probiotics by Sayyeda Farwa Mazhar, Muhammad Afzal, Ahmad Almatroudi, Samman Munir, Usman Ali Ashfaq, Maria Rasool, Hammad Raza, Hafiz Muhammad Waqas Munir, Muhammad Shahid Riaz Rajoka, Mohsin Khurshid

“…The process of genetic engineering can also be used for probiotic strains for the reversion of antimicrobial resistance and other modifications for their safer and effective human applications. …”
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Diversity and occurrence of methylotrophic yeasts used in genetic engineering by A. S. Rozanov, E. G. Pershina, N. V. Bogacheva, V. Shlyakhtun, A. A. Sychev, S. E. Peltek

“…The potential  of these microorganisms for genetic engineering is far from exhausted. Both improvement of existing expression systems and development of new ones on the basis of strains obtained from nature are advantageous. …”
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Transposons and Integrons: Natural Genetic Engineering of Bacterial Resistance by Paul H Roy

“…Among these are transposons and integrons, the latter having interesting parallels with genetic engineering techniques used in the laboratory. An understanding of these mechanisms through studies of the molecular basis of the dissemination of resistance genes will aid rational choices in antibiotic therapy.…”
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Human genetic engineering and social justice in South Africa: Moltmann and human dignity by M. Kotzé

“…In this contribution, I argue that the notion of justice as fairness, put forward by Rawls, and the focus on human dignity in Moltmann’s theology can help address the bioethical challenges of genetic engineering in the context of inequality, specifically in South Africa. …”
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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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Deconjugation of Bile Acids with Immobilized Genetically Engineered Lactobacillus plantarum 80(pCBH1) by M. L. Jones, C. Martoni, H. Chen, W. Ouyang, T. Metz, S. Prakash

“…This study shows that immobilized genetically engineered Lactobacillus plantarum 80 (pCBH1) (LP80 (pCBH1)) can efficiently hydrolyze bile acids and establishes a basis for their use. …”
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Genetically Engineered Bacterial Ghosts as Vaccine Candidates Against <i>Klebsiella pneumoniae</i> Infection by Svetlana V. Dentovskaya, Anastasia S. Vagaiskaya, Alexandra S. Trunyakova, Alena S. Kartseva, Tatiana A. Ivashchenko, Vladimir N. Gerasimov, Mikhail E. Platonov, Victoria V. Firstova, Andrey P. Anisimov

“…<b>Background/Objectives</b> Bacterial ghosts (BGs), non-living empty envelopes of bacteria, are produced either through genetic engineering or chemical treatment of bacteria, retaining the shape of their parent cells. …”
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Genetically Engineered Islets and Alternative Sources of Insulin-Producing Cells for Treating Autoimmune Diabetes: Quo Vadis? by Feng-Cheng Chou, Shing-Hwa Huang, Huey-Kang Sytwu

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THE CURRENT STATE OF GENETIC AND METABOLIC ENGINEERING OF Geobacillus BACTERIA AIMED AT THE PRODUCTION OF ETHANOL AND ORGANIC ACIDS by A. S. Rozanov, I. A. Meshcheryakova, S. V. Shekhovtsov, S. E. Peltek

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Advancing the genetic engineering toolbox by combining AsCas12a knock-in mice with ultra-compact screening by Wei Jin, Yexuan Deng, John E. La Marca, Emily J. Lelliott, Sarah T. Diepstraten, Christina König, Lin Tai, Valentina Snetkova, Kristel M. Dorighi, Luke Hoberecht, Millicent G. Hedditch, Lauren Whelan, Geraldine Healey, Dan Fayle, Kieran Lau, Margaret A. Potts, Moore Z. Chen, Angus P. R. Johnston, Yang Liao, Wei Shi, Andrew J. Kueh, Benjamin Haley, Jean-Philippe Fortin, Marco J. Herold

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The Good, the Bad, and the Ugly: What the Future Could Hold for Bs2 Tomatoes by Samuel F. Hutton, John W. Scott, Jeffrey B. Jones, Robert E. Stall, Gary E. Vallad, B. J. Staskawicz, D. M. Horvath

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The Good, the Bad, and the Ugly: What the Future Could Hold for Bs2 Tomatoes by Samuel F. Hutton, John W. Scott, Jeffrey B. Jones, Robert E. Stall, Gary E. Vallad, B. J. Staskawicz, D. M. Horvath

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Emerging biotechnologies for engineering liver organoids by Junqi Zhao, Yue Zhi, Haozhen Ren, Jinglin Wang, Yuanjin Zhao

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Carotenoids in Potato Tubers: A Bright Yellow Future Ahead by Monica Sturaro

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Making complex things simpler: modern tools to edit the plant genome by N. E. Zlobin, V. V. Ternovoy, N. A. Grebenkina, V. V. Taranov

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Peter Singer’s Speciesist Notion of Animal Conservation Vis-a-Vis Genetic Manipulation by Gabriel Bubu Ncha, Emmanuel E. Etta, Lawrence Odey Ojong

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Biodesulfurization enhancement via targeted re-insertion of the flavin reductase dszD in the genome of the model strain Rhodococcus qingshengii IGTS8 by Olga Martzoukou, Fotios Klenias, Eleni Kopsini, Dimitris G. Hatzinikolaou

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Interspecific hybridization and cell engineering of lettuce (<i>Lactuca</i> L.) by N. A. Zagnukhina, A. B. Kurina

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Transgenic plants as genetic models for studying functions of plant genes by A. V. Kochetov, V. K. Shumny

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