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Designing Bioorthogonal Reactions for Biomedical Applications | Research
Designing Bioorthogonal Reactions for Biomedical Applications | Research

Dual-Bioorthogonal Catalysis by a Palladium Peptide Complex – Rappsilber  Laboratory
Dual-Bioorthogonal Catalysis by a Palladium Peptide Complex – Rappsilber Laboratory

Designed heterogeneous palladium catalysts for reversible light-controlled  bioorthogonal catalysis in living cells | Nature Communications
Designed heterogeneous palladium catalysts for reversible light-controlled bioorthogonal catalysis in living cells | Nature Communications

Expanding Transition Metal-Mediated Bioorthogonal Decaging to Include C–C  Bond Cleavage Reactions | Journal of the American Chemical Society
Expanding Transition Metal-Mediated Bioorthogonal Decaging to Include C–C Bond Cleavage Reactions | Journal of the American Chemical Society

Transition metal mediated bioorthogonal release - ScienceDirect
Transition metal mediated bioorthogonal release - ScienceDirect

Bioorthogonal catalysis for biomedical applications: Trends in Chemistry
Bioorthogonal catalysis for biomedical applications: Trends in Chemistry

Designed heterogeneous palladium catalysts for reversible light-controlled  bioorthogonal catalysis in living cells | Nature Communications
Designed heterogeneous palladium catalysts for reversible light-controlled bioorthogonal catalysis in living cells | Nature Communications

Efficient Palladium-Triggered Release of Vorinostat from a Bioorthogonal  Precursor | Journal of Medicinal Chemistry
Efficient Palladium-Triggered Release of Vorinostat from a Bioorthogonal Precursor | Journal of Medicinal Chemistry

Palladium-catalysed cross-coupling of lithium acetylides | Nature Catalysis
Palladium-catalysed cross-coupling of lithium acetylides | Nature Catalysis

Recent advances in bioorthogonal reactions for site-specific protein  labeling and engineering - ScienceDirect
Recent advances in bioorthogonal reactions for site-specific protein labeling and engineering - ScienceDirect

Synthesis of non-equivalent diamides and amido-esters via Pd-catalysed  carbonylation | Nature Synthesis
Synthesis of non-equivalent diamides and amido-esters via Pd-catalysed carbonylation | Nature Synthesis

Palladium-mediated chemistry in living cells. | Semantic Scholar
Palladium-mediated chemistry in living cells. | Semantic Scholar

Dual-Bioorthogonal Catalysis by a Palladium Peptide Complex | Journal of  Medicinal Chemistry
Dual-Bioorthogonal Catalysis by a Palladium Peptide Complex | Journal of Medicinal Chemistry

Bioorthogonal chemistry: strategies and recent developments. - Abstract -  Europe PMC
Bioorthogonal chemistry: strategies and recent developments. - Abstract - Europe PMC

Development and Bioorthogonal Activation of Palladium-Labile Prodrugs of  Gemcitabine | Journal of Medicinal Chemistry
Development and Bioorthogonal Activation of Palladium-Labile Prodrugs of Gemcitabine | Journal of Medicinal Chemistry

Bioorthogonal Ligations and Cleavages in Chemical Biology - Li - 2020 -  ChemistryOpen - Wiley Online Library
Bioorthogonal Ligations and Cleavages in Chemical Biology - Li - 2020 - ChemistryOpen - Wiley Online Library

Bioorthogonal Nanozymes: Progress towards Therapeutic Applications: Trends  in Chemistry
Bioorthogonal Nanozymes: Progress towards Therapeutic Applications: Trends in Chemistry

In Vivo Applications of Bioorthogonal Reactions: Chemistry and Targeting  Mechanisms - Mitry - 2023 - Chemistry – A European Journal - Wiley Online  Library
In Vivo Applications of Bioorthogonal Reactions: Chemistry and Targeting Mechanisms - Mitry - 2023 - Chemistry – A European Journal - Wiley Online Library

Extracellular palladium-catalysed dealkylation of  5-fluoro-1-propargyl-uracil as a bioorthogonally activated prodrug approach  | Nature Communications
Extracellular palladium-catalysed dealkylation of 5-fluoro-1-propargyl-uracil as a bioorthogonally activated prodrug approach | Nature Communications

Core-Shell Palladium/MOF Platforms as Diffusion-Controlled Nanoreactors in  Living Cells and Tissue Models - ScienceDirect
Core-Shell Palladium/MOF Platforms as Diffusion-Controlled Nanoreactors in Living Cells and Tissue Models - ScienceDirect

Palladium-catalysed hydrogenolysis with molecular hydrogen a,... | Download  Scientific Diagram
Palladium-catalysed hydrogenolysis with molecular hydrogen a,... | Download Scientific Diagram

Supramolecular regulation of bioorthogonal catalysis in cells using  nanoparticle-embedded transition metal catalysts | Nature Chemistry
Supramolecular regulation of bioorthogonal catalysis in cells using nanoparticle-embedded transition metal catalysts | Nature Chemistry

Palladium-mediated chemistry in living cells - ScienceDirect
Palladium-mediated chemistry in living cells - ScienceDirect

Nano-palladium is a cellular catalyst for in vivo chemistry | Nature  Communications
Nano-palladium is a cellular catalyst for in vivo chemistry | Nature Communications

Bioorthogonal Catalysis: A General Method To Evaluate Metal-Catalyzed  Reactions in Real Time in Living Systems Using a Cellular Luciferase  Reporter System | Bioconjugate Chemistry
Bioorthogonal Catalysis: A General Method To Evaluate Metal-Catalyzed Reactions in Real Time in Living Systems Using a Cellular Luciferase Reporter System | Bioconjugate Chemistry