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Tuning the Co oxidation state in Ba<sub>0.5</sub>Sr<sub>0.5</sub>Co<sub>0.8</sub>Fe<sub>0.2</sub>O<sub>3-δ</sub> by flame spray synthesis towards high oxygen evolution reaction activity
Aegerter, D., Borlaf, M., Fabbri, E., Clark, A. H., Nachtegaal, M., Graule, T., & Schmidt, T. J. (2020). Tuning the Co oxidation state in Ba0.5Sr0.5Co0.8Fe0.2O3-δ by flame spray synthesis towards high oxygen evolution reaction activity. Catalysts, 10(9), 984 (16 pp.). https://doi.org/10.3390/catal10090984
Alternative catalytic residues in the active site of Esco acetyltransferases
Ajam, T., De, I., Petkau, N., Whelan, G., Pena, V., & Eichele, G. (2020). Alternative catalytic residues in the active site of Esco acetyltransferases. Scientific Reports, 10(1), 9828 (13 pp.). https://doi.org/10.1038/s41598-020-66795-z
Optically inspired nanomagnonics with nonreciprocal spin waves in synthetic antiferromagnets
Albisetti, E., Tacchi, S., Silvani, R., Scaramuzzi, G., Finizio, S., Wintz, S., Rinaldi, C., Cantoni, M., Raabe, J., Carlotti, G., Bertacco, R., Riedo, E., & Petti, D. (2020). Optically inspired nanomagnonics with nonreciprocal spin waves in synthetic antiferromagnets. Advanced Materials, 32(9), 1906439 (8 pp.). https://doi.org/10.1002/adma.201906439
Fossil subduction recorded by quartz from the coesite stability field
Alvaro, M., Mazzucchelli, M. L., Angel, R. J., Murri, M., Campomenosi, N., Scambelluri, M., Nestola, F., Korsakov, A., Tomilenko, A. A., Marone, F., & Morana, M. (2020). Fossil subduction recorded by quartz from the coesite stability field. Geology, 48(1), 24-28. https://doi.org/10.1130/G46617.1
Discovery of LOU064 (remibrutinib), a potent and highly selective covalent inhibitor of Bruton's tyrosine kinase
Angst, D., Gessier, F., Janser, P., Vulpetti, A., Wälchli, R., Beerli, C., Littlewood-Evans, A., Dawson, J., Nuesslein-Hildesheim, B., Wieczorek, G., Gutmann, S., Scheufler, C., Hinniger, A., Zimmerlin, A., Funhoff, E. G., Pulz, R., & Cenni, B. (2020). Discovery of LOU064 (remibrutinib), a potent and highly selective covalent inhibitor of Bruton's tyrosine kinase. Journal of Medicinal Chemistry, 63(10), 5102-5118. https://doi.org/10.1021/acs.jmedchem.9b01916
The ABC exporter IrtAB imports and reduces mycobacterial siderophores
Arnold, F. M., Weber, M. S., Gonda, I., Gallenito, M. J., Adenau, S., Egloff, P., Zimmermann, I., Hutter, C. A. J., Hürlimann, L. M., Peters, E. E., Piel, J., Meloni, G., Medalia, O., & Seeger, M. A. (2020). The ABC exporter IrtAB imports and reduces mycobacterial siderophores. Nature, 580(7803), 413-417. https://doi.org/10.1038/s41586-020-2136-9
Fracture of the dimorphic fruits of <em>Aethionema arabicum</em> (Brassicaceae)
Arshad, W., Marone, F., Collinson, M. E., Leubner-Metzger, G., & Steinbrecher, T. (2020). Fracture of the dimorphic fruits of Aethionema arabicum (Brassicaceae). Botany, 98(1), 65-75. https://doi.org/10.1139/cjb-2019-0014
Co-localization of microstructural damage and excessive mechanical strain at aortic branches in angiotensin-II-infused mice
Aslanidou, L., Ferraro, M., Lovric, G., Bersi, M. R., Humphrey, J. D., Segers, P., Trachet, B., & Stergiopulos, N. (2020). Co-localization of microstructural damage and excessive mechanical strain at aortic branches in angiotensin-II-infused mice. Biomechanics and Modeling in Mechanobiology, 19, 81-97. https://doi.org/10.1007/s10237-019-01197-3
Structures in tetrahydrofolate methylation in desulfitobacterial glycine betaine metabolism at atomic resolution
Badmann, T., & Groll, M. (2020). Structures in tetrahydrofolate methylation in desulfitobacterial glycine betaine metabolism at atomic resolution. ChemBioChem, 21(6), 776-779. https://doi.org/10.1002/cbic.201900515
Low-temperature propylene epoxidation activity of CuO-CeO<sub>2</sub> catalyst with CO + O<sub>2</sub>: role of metal-support interaction on the reducibility and catalytic property of CuO<em><sub>x</sub></em&gt
Baidya, T., Mazumder, T., Koltunov, K. Y., Likhar, P. R., Clark, A. H., Tiwari, K., Sobolev, V. I., Payra, S., Murayama, T., Lin, M., Bera, P., Roy, S., Biswas, K., Safonova, O., Srinivasa Rao, B., & Haruta, M. (2020). Low-temperature propylene epoxidation activity of CuO-CeO2 catalyst with CO + O2: role of metal-support interaction on the reducibility and catalytic property of CuOx species. Journal of Physical Chemistry C, 124(26), 14131-14146. https://doi.org/10.1021/acs.jpcc.0c00777
On-surface synthesis of nonmetal porphyrins
Baklanov, A., Garnica, M., Robert, A., Bocquet, M. L., Seufert, K., Küchle, J. T., Ryan, P. T. P., Haag, F., Kakavandi, R., Allegretti, F., & Auwärter, W. (2020). On-surface synthesis of nonmetal porphyrins. Journal of the American Chemical Society, 142(4), 1871-1881. https://doi.org/10.1021/jacs.9b10711
Mechanisms of regulation and diverse activities of tau-tubulin kinase (TTBK) isoforms
Bao, C., Bajrami, B., Marcotte, D. J., Chodaparambil, J. V., Kerns, H. M., Henderson, J., Wei, R., Gao, B., & Dillon, G. M. (2020). Mechanisms of regulation and diverse activities of tau-tubulin kinase (TTBK) isoforms. Cellular and Molecular Neurobiology. https://doi.org/10.1007/s10571-020-00875-6
Targeting cavity-creating p53 cancer mutations with small-molecule stabilizers: the Y220X paradigm
Bauer, M. R., Krämer, A., Settanni, G., Jones, R. N., Ni, X., Khan Tareque, R., Fersht, A. R., Spencer, J., & Joerger, A. C. (2020). Targeting cavity-creating p53 cancer mutations with small-molecule stabilizers: the Y220X paradigm. ACS Chemical Biology, 15(3), 657-668. https://doi.org/10.1021/acschembio.9b00748
Taking advantage of multiplet structure for lineshape analysis in Fourier space
Beckert, A., Sigg, H., & Aeppli, G. (2020). Taking advantage of multiplet structure for lineshape analysis in Fourier space. Optics Express, 28(17), 24937 (14 pp.). https://doi.org/10.1364/OE.395877
Selectively disrupting m<sup>6</sup>A-dependent protein-RNA interactions with fragments
Bedi, R. K., Huang, D., Wiedmer, L., Li, Y., Dolbois, A., Wojdyla, J. A., Sharpe, M. E., Caflisch, A., & Sledz, P. (2020). Selectively disrupting m6A-dependent protein-RNA interactions with fragments. ACS Chemical Biology, 15(3), 618-625. https://doi.org/10.1021/acschembio.9b00894
In situ X-ray microscopy reveals particle dynamics in a NiCo dry methane reforming catalyst under operating conditions
Beheshti Askari, A., al Samarai, M., Morana, B., Tillmann, L., Pfänder, N., Wandzilak, A., Watts, B., Belkhou, R., Muhler, M., Muhler, M., & DeBeer, S. (2020). In situ X-ray microscopy reveals particle dynamics in a NiCo dry methane reforming catalyst under operating conditions. ACS Catalysis, 10(11), 6223-6230. https://doi.org/10.1021/acscatal.9b05517
Synthesis, structure and NH<sub>3</sub> sorption properties of mixed Mg<sub>1-x</sub>Mn<sub>x</sub>(NH<sub>3</sub>)<sub>6</sub>Cl<sub>2</sub> ammines
Berdiyeva, P., Karabanova, A., Grinderslev, J. B., Johnsen, R. E., Blanchard, D., Hauback, B. C., & Deledda, S. (2020). Synthesis, structure and NH3 sorption properties of mixed Mg1-xMnx(NH3)6Cl2 ammines. Energies, 13(11), 2746 (14 pp.). https://doi.org/10.3390/en13112746
Micro-X-ray diffraction and chemical mapping of aged interfaces between cement pastes and Opalinus Clay
Bernard, E., Jenni, A., Fisch, M., Grolimund, D., & Mäder, U. (2020). Micro-X-ray diffraction and chemical mapping of aged interfaces between cement pastes and Opalinus Clay. Applied Geochemistry, 115, 104538 (17 pp.). https://doi.org/10.1016/j.apgeochem.2020.104538
Structure, morphology, and faceting of TiO<sub>2</sub> photocatalysts by the debye scattering equation method. The P25 and P90 cases of study
Bertolotti, F., Vivani, A., Moscheni, D., Ferri, F., Cervellino, A., Masciocchi, N., & Guagliardi, A. (2020). Structure, morphology, and faceting of TiO2 photocatalysts by the debye scattering equation method. The P25 and P90 cases of study. Nanomaterials, 10(4), 743 (16 pp.). https://doi.org/10.3390/nano10040743
Structural basis for the recognition of transiently structured AU-rich elements by Roquin
Binas, O., Tants, J. N., Peter, S. A., Janowski, R., Davydova, E., Braun, J., Niessing, D., Schwalbe, H., Weigand, J.  E., & Schlundt, A. (2020). Structural basis for the recognition of transiently structured AU-rich elements by Roquin. Nucleic Acids Research, 48(13), 7385-7403. https://doi.org/10.1093/nar/gkaa465
 

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