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Interaction of a model peptide on gram negative and gram positive bacterial sliding clamps
André, C., Martiel, I., Wolff, P., Landolfo, M., Lorber, B., Silva da Veiga, C., … Burnouf, D. Y. (2019). Interaction of a model peptide on gram negative and gram positive bacterial sliding clamps. ACS Infectious Diseases, 5, 1022-1034. https://doi.org/10.1021/acsinfecdis.9b00089
Long-wavelength native-SAD phasing: opportunities and challenges
Basu, S., Olieric, V., Leonarski, F., Matsugaki, N., Kawano, Y., Takashi, T., … Wang, M. (2019). Long-wavelength native-SAD phasing: opportunities and challenges. IUCrJ, 6(3), 1-14. https://doi.org/10.1107/S2052252519002756
Making routine native SAD a reality: lessons from beamline X06DA at the Swiss Light Source
Basu, S., Finke, A., Vera, L., Wang, M., & Olieric, V. (2019). Making routine native SAD a reality: lessons from beamline X06DA at the Swiss Light Source. Acta Crystallographica Section D: Structural Biology, 75(3), 262-271. https://doi.org/10.1107/S2059798319003103
Levantite, KCa<sub>3</sub>(Al<sub>2</sub>Si<sub>3</sub>)O<sub>11</sub>(PO<sub>4</sub>), a new latiumite group mineral from pyrometamorphic rock of the Hatrurim Basin, Negev Desert, Israel
Galuskin, E. V., Krüger, B., Galuskina, I. O., Krüger, H., Vapnik, Y., Pauluhn, A., & Olieric, V. (2019). Levantite, KCa3(Al2Si3)O11(PO4), a new latiumite group mineral from pyrometamorphic rock of the Hatrurim Basin, Negev Desert, Israel. Mineralogical Magazine, 83(5), 713-721. https://doi.org/10.1180/mgm.2019.37
Conformational adaptation of UNCG loops upon crowding
Meyer, M., Walbott, H., Oliéric, V., Kondo, J., Costa, M., & Masquida, B. (2019). Conformational adaptation of UNCG loops upon crowding. RNA, 25(11), 1522-1531. https://doi.org/10.1261/rna.072694.119
Crystal structure of the aminoglycosides <em>N</em>‐acetyltransferase Eis2 from <em>Mycobacterium abscessus</em>
Ung, K. L., Alsarraf, H. M. A. B., Olieric, V., Kremer, L., & Blaise, M. (2019). Crystal structure of the aminoglycosides N‐acetyltransferase Eis2 from Mycobacterium abscessus. FEBS Journal, 286(21), 4342-4355. https://doi.org/10.1111/febs.14975
Structural basis of tubulin detyrosination by the vasohibin–SVBP enzyme complex
Wang, N., Bosc, C., Ryul Choi, S., Boulan, B., Peris, L., Olieric, N., … Huang, H. (2019). Structural basis of tubulin detyrosination by the vasohibin–SVBP enzyme complex. Nature Structural and Molecular Biology, 26(7), 571-582. https://doi.org/10.1038/s41594-019-0241-y
A simple and versatile microfluidic device for efficient biomacromolecule crystallization and structural analysis by serial crystallography
de Wijn, R., Hennig, O., Roche, J., Engilberge, S., Rollet, K., Fernandez-Millan, P., … Sauter, C. (2019). A simple and versatile microfluidic device for efficient biomacromolecule crystallization and structural analysis by serial crystallography. IUCrJ, 6(3), 454-464. https://doi.org/10.1107/S2052252519003622
CLASP Suppresses Microtubule Catastrophes through a Single TOG Domain
Aher, A., Kok, M., Sharma, A., Rai, A., Olieric, N., Rodriguez-Garcia, R., … Akhmanova, A. (2018). CLASP Suppresses Microtubule Catastrophes through a Single TOG Domain. Developmental Cell, 46(1), 40-58. https://doi.org/10.1016/j.devcel.2018.05.032
Crystal structure of undecaprenyl-pyrophosphate phosphatase and its role in peptidoglycan biosynthesis
El Ghachi, M., Howe, N., Huang, C. Y., Olieric, V., Warshamanage, R., Touzé, T., … Caffrey, M. (2018). Crystal structure of undecaprenyl-pyrophosphate phosphatase and its role in peptidoglycan biosynthesis. Nature Communications, 9(1), 1078 (13 pp.). https://doi.org/10.1038/s41467-018-03477-5
Stracherite, BaCa6(SiO4)2[(PO4)(CO3)]F, the first CO3-bearing intercalated hexagonal antiperovskite from Negev Desert, Israel
Galuskin, E. V., Krüger, B., Galuskina, I. O., Krüger, H., Vapnik, Y., Pauluhn, A., & Olieric, V. (2018). Stracherite, BaCa6(SiO4)2[(PO4)(CO3)]F, the first CO3-bearing intercalated hexagonal antiperovskite from Negev Desert, Israel. American Mineralogist, 103(10), 1699-1706. https://doi.org/10.2138/am-2018-6493
In situ serial crystallography for rapid de novo membrane protein structure determination.
Huang, C. Y., Olieric, V., Howe, N., Warshamanage, R., Weinert, T., Panepucci, E., … Wang, M. (2018). In situ serial crystallography for rapid de novo membrane protein structure determination. Communications Biology, 1, 124 (8 pp.). https://doi.org/10.1038/S42003-018-0123-6
Aravaite, Ba2Ca18(SiO4)6(PO4)3(CO3)F3O: modular structure and disorder of a new mineral with single and triple antiperovskite layers
Krüger, B., Krüger, H., Galuskin, E. V., Galuskina, I. O., Vapnik, Y., Olieric, V., & Pauluhn, A. (2018). Aravaite, Ba2Ca18(SiO4)6(PO4)3(CO3)F3O: modular structure and disorder of a new mineral with single and triple antiperovskite layers. Acta Crystallographica Section B: Structural Science, Crystal Engineering and Materials, 74(6), 492-501. https://doi.org/10.1107/S2052520618012271
Structural rearrangements occurring upon cofactor binding in the <i>Mycobacterium smegmatis β</i>-ketoacyl-acyl carrier protein reductase MabA
Küssau, T., Flipo, M., Van Wyk, N., Viljoen, A., Olieric, V., Kremer, L., & Blaise, M. (2018). Structural rearrangements occurring upon cofactor binding in the Mycobacterium smegmatis β-ketoacyl-acyl carrier protein reductase MabA. Acta Crystallographica Section D: Structural Biology, D74(Part 5), 383-393. https://doi.org/10.1107/S2059798318002917
Fast and accurate data collection for macromolecular crystallography using the JUNGFRAU detector
Leonarski, F., Redford, S., Mozzanica, A., Lopez-Cuenca, C., Panepucci, E., Nass, K., … Wang, M. (2018). Fast and accurate data collection for macromolecular crystallography using the JUNGFRAU detector. Nature Methods, 15(10), 799-804. https://doi.org/10.1038/s41592-018-0143-7
Practical approaches for in situ X-ray crystallography: from high-throughput screening to serial data collection
Martiel, I., Olieric, V., Caffrey, M., & Wang, M. (2018). Practical approaches for in situ X-ray crystallography: from high-throughput screening to serial data collection. In K. Beis & G. Evans (Eds.), Chemical biology: Vol. 8. Protein crystallography: challenges and practical solutions. https://doi.org/10.1039/9781788010504-00001
Molecular architecture of the multifunctional collagen lysyl hydroxylase and glycosyltransferase LH3
Scietti, L., Chiapparino, A., De Giorgi, F., Fumagalli, M., Khoriauli, L., Nergadze, S., … Forneris, F. (2018). Molecular architecture of the multifunctional collagen lysyl hydroxylase and glycosyltransferase LH3. Nature Communications, 9(1), 3163 (11 pp.). https://doi.org/10.1038/s41467-018-05631-5
Crystal structure and mechanistic basis of a functional homolog of the antigen transporter TAP
Nöll, A., Thomas, C., Herbring, V., Zollmann, T., Barth, K., Mehdipour, A. R., … Tampé, R. (2017). Crystal structure and mechanistic basis of a functional homolog of the antigen transporter TAP. Proceedings of the National Academy of Sciences of the United States of America PNAS, 114(4), E438-E447. https://doi.org/10.1073/pnas.1620009114
Insight into the remarkable affinity and selectivity of the aminobenzosuberone scaffold for the M1 aminopeptidases family based on structure analysis
Peng, G., McEwen, A. G., Olieric, V., Schmitt, C., Albrecht, S., Cavarelli, J., & Tarnus, C. (2017). Insight into the remarkable affinity and selectivity of the aminobenzosuberone scaffold for the M1 aminopeptidases family based on structure analysis. Proteins, 85(8), 1413-1421. https://doi.org/10.1002/prot.25301
Role of the nucleotidyl cyclase helical domain in catalytically active dimer formation
Vercellino, I., Rezabkova, L., Olieric, V., Polyhach, Y., Weinert, T., Kammerer, R. A., … Korkhov, V. M. (2017). Role of the nucleotidyl cyclase helical domain in catalytically active dimer formation. Proceedings of the National Academy of Sciences of the United States of America PNAS, 114(46), E9821-E9828. https://doi.org/10.1073/pnas.1712621114