C
Christian Griesinger
Researcher at Max Planck Society
Publications - 449
Citations - 25595
Christian Griesinger is an academic researcher from Max Planck Society. The author has contributed to research in topics: Nuclear magnetic resonance spectroscopy & Residual dipolar coupling. The author has an hindex of 76, co-authored 408 publications receiving 23162 citations. Previous affiliations of Christian Griesinger include University of Göttingen & ETH Zurich.
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Journal ArticleDOI
Structural and microtubule binding properties of tau mutants of frontotemporal dementias
Daniela Fischer,Marco D. Mukrasch,Martin von Bergen,Aleksandra Klos-Witkowska,Jacek Biernat,Christian Griesinger,Eckhard Mandelkow,Markus Zweckstetter +7 more
TL;DR: It is demonstrated that the reversible binding of tau to microtubules involves specific interactions, which are not essential for binding to polyanions.
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The measurement of heteronuclear transverse relaxation times in ax3 spin systems via polarization-transfer techniques
Lewis E. Kay,T.E Bull,Linda K. Nicholson,Christian Griesinger,Harald Schwalbe,Ad Bax,Dennis A. Torchia +6 more
TL;DR: Pulse schemes for the measurement of 13C transverse relaxation times in AX33 spin systems are described which make use of the sensitive 1H spin for detection in this paper, which is based on reverse-DEPT and reverse-INEPT polarization-transfer sequences.
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Determination of Connectivities via Small Proton‐Carbon Couplings with a New Two‐Dimensional NMR Technique
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Determination of RNA Sugar Pucker Mode from Cross Correlated Relaxation in Solution NMR Spectroscopy.
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Copper binding to the N-terminally acetylated, naturally occurring form of alpha-synuclein induces local helical folding.
Marco C. Miotto,Ariel A. Valiente-Gabioud,Giulia Rossetti,Markus Zweckstetter,Paolo Carloni,Philipp Selenko,Christian Griesinger,Andres Binolfi,Claudio O. Fernández +8 more
TL;DR: It is found that the formation of an AcAS-Cu(I) complex at the N-terminal region stabilizes local conformations with α-helical secondary structure and restricted motility.