Olivier Duss
Scripps Research Institute
23 Papers
22 Citations
Olivier Duss is an academic researcher from Scripps Research Institute. The author has contributed to research in topics: RNA & RNA-binding protein. The author has an hindex of 13, co-authored 15 publications. Previous affiliations of Olivier Duss include Stanford University & Tokyo Metropolitan University.
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Papers
Molecular basis of messenger RNA recognition by the specific bacterial repressing clamp RsmA/CsrA
Mario Schubert,Karine Lapouge,Olivier Duss,Florian C. Oberstrass,Ilian Jelesarov,Dieter Haas,Frédéric H.-T. Allain +6 more
TL;DR: The solution structure of a complex formed between the RsmE protein, a member of this family from Pseudomonas fluorescens, and a target RNA encompassing the ribosome-binding site of the hcnA gene is determined.
Structural basis of the non-coding RNA RsmZ acting as a protein sponge
TL;DR: The findings suggest that RsmZ is well-tuned to sequester, store and release RsmE and therefore can be viewed as an ideal protein ‘sponge’, and revealing the molecular mechanism of the sequestration process and how Rsm E binding protects the ncRNA from RNase E degradation is revealed.
202
EPR-aided approach for solution structure determination of large RNAs or protein–RNA complexes
TL;DR: An EPR-based protocol to help solving large RNA and protein-RNA complex structures in solution by providing long-range distance constraints between rigid fragments is presented.
Transient Protein-RNA Interactions Guide Nascent Ribosomal RNA Folding.
TL;DR: It is found that co-transcriptional rRNA folding is complicated by the formation of long-range RNA interactions and that r-proteins self-chaperone the r RNA folding process prior to stable incorporation into a ribonucleoprotein (RNP) complex.
81
A fast, efficient and sequence-independent method for flexible multiple segmental isotope labeling of RNA using ribozyme and RNase H cleavage
TL;DR: A fast and efficient approach to generate multiple segmentally labeled RNAs with virtually no sequence requirements with very high yields (up to 10-fold higher than previously reported) is presented and is expected to open new avenues in structural biology of RNA.