Boris Schmidtgall scite author profile

Deficient stability towards nuclease-mediated degradation is one of the most relevant tasks in the development of oligonucleotide-derived biomedical agents. This hurdle can be overcome through modifications to the native oligonucleotide backbone structure, with the goal of simultaneously retaining the unique hybridization properties of nucleic acids. The nucleosyl amino acid (NAA)-modification is a recently introduced artificial cationic backbone linkage. Partially zwitterionic NAA-modified oligonucleotides had previously shown hybridization with DNA strands with retained base-pairing fidelity. In this study, we report the significantly enhanced stability of NAA-modified oligonucleotides towards 3′- and 5′-exonuclease-mediated degradation as well as in complex biological media such as human plasma and whole cell lysate. This demonstrates the potential versatility of the NAA-motif as a backbone modification for the development of biomedically active oligonucleotide analogues.

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Dissecting mechanism of coupled folding and binding of an intrinsically disordered protein by chemical synthesis of conformationally constrained analogues

Schmidtgall

Chaloin

Bauer

et al. 2017

Chem. Commun.

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Non-canonical α-methyl amino acids were incorporated at various sites in the sequence of intrinsically disordered activation domain from the p160 transcriptional co-activator (ACTR) to facilitate the formation of α-helical structures. Kinetic and thermodynamic data confirm the induced fit mechanism of complex formation between the synthesized ACTR variants and the nuclear co-activator binding domain (NCBD).

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Boris Schmidtgall

Synthesis and properties of DNA oligonucleotides with a zwitterionic backbone structure

Enhanced Stability of DNA Oligonucleotides with Partially Zwitterionic Backbone Structures in Biological Media

Dissecting mechanism of coupled folding and binding of an intrinsically disordered protein by chemical synthesis of conformationally constrained analogues

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