CS

Institute of Organic Chemistry
and Biochemistry of the CAS

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NANO-LPPO – New nanomaterial for treatment of skin infections
NANO-LPPO – New nanomaterial for treatment of skin infections
30 September 2021
Researchers at the Institute of Organic Chemistry and Biochemistry of the CAS (IOCB Prague) and the Technical University of Liberec in collaboration with researchers from the…
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New academic fund to support research startups with more than 45 million euros
New academic fund to support research startups with more than 45 million euros
23 September 2021
In September 2021, activities commenced at the i&i Biotech Fund (i&i Bio), which specializes in investments in academic spinoffs devoted to drug discovery, diagnostics, and…
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Discovery of a universal system for transporting nucleic acids into cells
Discovery of a universal system for transporting nucleic acids into cells
21 September 2021
Researchers from IOCB Prague have discovered a new type of substances capable of safely transporting various types of nucleic acids used for therapeutic purposes into cells, from…
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Event calendar

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13
OCT
Prague Meeting on Historical Perspectives of Mass…
13 October — 14 October 2021, National…
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25
OCT
Joint Prague-Weizmann School on Drug Discovery…
25 October — 28 October 2021, Online…
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Take the step towards a career in organic chemistry and biochemistry...
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Publications

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Lipid Nanoparticles for Broad-Spectrum Nucleic Acid Delivery
Lipid Nanoparticles for Broad-Spectrum Nucleic Acid Delivery
Z. Hejdánková V. Vaněk F. Sedlák J. Procházka A. Diederichs B. Novotná M. Buděšínský K. Grantz Šašková P. Cígler
Advanced Functional Materials 2021: Early View
Lipid nanoparticles (LNPs) are the most advanced nonviral modality for nucleic acid (NA) delivery, and have recently gained enormous attention in the fields of RNA therapeutics and vaccine development. Here, ionizable adamantane-based lipidoids named XMaNs, which circumvent the usual need for laborious optimization of LNP components for highly diverse types of NAs, are described. The non-toxic XMaN6 lipidoid is highly versatile in entrapment and delivery of siRNA, mRNA, plasmid DNA, and a cyclic dinucleotide. XMaN6-based LNPs efficiently deliver: 1) siRNA into human primary hepatocytes and cell lines that are hard-to-transfect; 2) mRNA into mouse liver; 3) plasmid DNA; 4) 2′,3′-cGAMP into cells and activated the cGAS-STING pathway three orders of magnitude more efficiently than 2′,3′-cGAMP alone. To our knowledge, such universality in delivering different NA types has not been previously described and can accelerate translation of LNPs into the clinic.
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Palmitoylation of Prolactin-Releasing Peptide Increased Affinity for and Activation of the GPR10, NPFF-R2 and NPFF-R1 Receptors: In Vitro Study
A. Karnošová V. Strnadová L. Holá B. Železná J. Kuneš L. Maletínská
International Journal of Molecular Sciences 22 (16): 8904 (2021)
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The History of Anti-Trypanosome Vaccine Development Shows That Highly Immunogenic and Exposed Pathogen-Derived Antigens Are Not Necessarily Good Target Candidates: Enolase and ISG75 as Examples
S. Magez Z. Li H. T. T. Nguyen J. E. Pinto Torres P. Van Wielendaele M. Radwanska J. Began S. Zoll Y. G. Sterckx
Pathogens 10 (8): 1050 (2021)
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Enolate-Based Regioselective Anti-Beckmann C–C Bond Cleavage of Ketones
T. Mašek U. Jahn
Journal of Organic Chemistry 86 (17): 11608–11632 (2021)
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