Ronnie O. Pedersen scite author profile

Die Fibrillenstruktur, die das amyloidogene Fragment SNNFGAILSS des menschlichen Insel‐Amyloid‐Polypeptids (hIAPP) bildet, wurde mit einer Auflösung von 0.52 Å bestimmt. Aus den Festkörper‐NMR‐Spektren einfach erhältliche Symmetrieinformationen (siehe Bild) können zusammen mit langreichweitigen Randbedingungen genutzt werden, um die supramolekulare Organisation von Fibrillen eindeutig zu identifizieren.magnified image

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Sensitization of Transforming Growth Factor-β Signaling by Multiple Peptides Patterned on DNA Nanostructures

Pedersen

Loboa

LaBean

2013

Biomacromolecules

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We report sensitization of a cellular signaling pathway by addition of functionalized DNA nanostructures. Signaling by transforming growth factor β (TGFβ) has been shown to be dependent on receptor clustering. By patterning a DNA nanostructure with closely spaced peptides that bind to TGFβ we observe increased sensitivity of NMuMG cells to TGFβ ligand. This is evidenced by translocation of secondary messenger proteins to the nucleus and stimulation of an inducible luciferase reporter at lower concentrations of TGFβ ligand. We believe this represents an important initial step towards realization of DNA as a self assembling and biologically compatible material for use in tissue engineering and drug delivery.

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Properties of DNA

Pedersen

Marchi

Majikes

et al. 2014

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Comparative Incorporation of PNA into DNA Nanostructures

et al. 2015

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DNA has shown great promise as a building material for self-assembling nanoscale structures. To further develop the potential of this technology, more methods are needed for functionalizing DNA-based nanostructures to increase their chemical diversity. Peptide nucleic acid (PNA) holds great promise for realizing this goal, as it conveniently allows for inclusion of both amino acids and peptides in nucleic acid-based structures. In this work, we explored incorporation of a positively charged PNA within DNA nanostructures. We investigated the efficiency of annealing a lysine-containing PNA probe with complementary, single-stranded DNA sequences within nanostructures, as well as the efficiency of duplex invasion and its dependence on salt concentration. Our results show that PNA allows for toehold-free strand displacement and that incorporation yield depends critically on binding site geometry. These results provide guidance for the design of PNA binding sites on nucleic acid nanostructures with an eye towards optimizing fabrication yield.

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