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Two new solids NMR spectrometers were recently purchased, a 400 MHz system with dynamic nuclear polarization capability and a 600 MHz system. We anticipate that these new spectrometers will be installed by Fall 2025.

Publications

(1.) Ciancone, A. M., Hosseinibarkooie, S., Bai, D. L., Borne, A. L., Ferris, H. A., and Hsu, K. L. (2022) Global profiling identifies a stress-responsive tyrosine site on EDC3 regulating biomolecular condensate formation, Cell Chemical Biology 29, 1709-+.

(2.) Cook, E. N., Hooe, S. L., Dickie, D. A., and Machan, C. W. (2022) Homogeneous Catalytic Reduction of O-2 to H2O by a Terpyridine-Based FeN3O Complex, Inorganic Chemistry 61, 8387-8392.

(3.) Cook, E. N., and Machan, C. W. (2022) Homogeneous catalysis of dioxygen reduction by molecular Mn complexes, Chemical Communications 58, 11746-11761.

(4.) Coutard, N., Musgrave, C. B., Moon, J., Liebov, N. S., Nielsen, R. M., Goldberg, J. M., Li, M. J., Jia, X. F., Lee, S., Dickie, D. A., Schinski, W. L., Wu, Z. L., Groves, J. T., Goddard, W. A., and Gunnoe, T. B. (2022) Manganese Catalyzed Partial Oxidation of Light Alkanes, Acs Catalysis 12, 5356-5370.

(5.) Coutard, N., Musgrave III, C. B., Moon, J., Liebov, N. S., Nielsen, R. M., Goldberg, J. M., Li, M., Jia, X., Lee, S., and Dickie, D. A. (2022) Manganese Catalyzed Partial Oxidation of Light Alkanes, ACS Catalysis 12, 5356-5370.

(6.) Dressel, J. M., Cook, E. N., Hooe, S. L., Moreno, J. J., Dickie, D. A., and Machan, C. W. (2023) Electrocatalytic hydrogen evolution reaction by a Ni(N2O2) complex based on 2,2 ‘-bipyridine, Inorganic Chemistry Frontiers 10, 972-978.

(7.) Dressel, J., Hooe, S., Moreno, J., Dickie, D., and Machan, C. (2022) Electrocatalytic Hydrogen Evolution Reaction by a Molecular Ni Complex.

(8.) Ellena, J. F., Tang, T. X., Shanaiah, N., and Capelluto, D. G. S. (2022) Backbone H-1, N-15, and C-13 resonance assignments of the Phafin2 pleckstrin homology domain, Biomolecular Nmr Assignments 16, 27-30.

(9.) Freeman, L. A., Walley, J. E., and Gilliard, R. J. (2022) Synthesis and reactivity of low-oxidation-state alkaline earth metal complexes, Nature Synthesis, 1-10.

(10.) Grams, R. J., and Hsu, K.-L. (2022) Reactive chemistry for covalent probe and therapeutic development, Trends in Pharmacological Sciences.

(11.) Grams, R. J., and Hsu, K. L. (2022) Catch your breath, Nature Chemical Biology 18, 686-687.

(12.) Grams, R. J., and Hsu, K. L. (2022) Reactive chemistry for covalent probe and therapeutic development, Trends in Pharmacological Sciences 43, 249-262.

(13.) Hahn, P. L., Lowe, J. M., Xu, Y. B., Burns, K. L., and Hilinski, M. K. (2022) Amine Organocatalysis of Remote, Chemoselective C(sp(3))-H Hydroxylation, Acs Catalysis 12, 4302-4309.

(14.) Hasan, M., Tang, T. X., Spruill, B., Ellena, J. F., and Capelluto, D. G. S. (2022) Unconventional mechanism of autoregulation of membrane binding by the PH-FYVE tandem domains of Phafin2, Biophysical Journal 121, 82-82.

(15.) Hollister, K. K., Molino, A., Breiner, G., Walley, J. E., Wentz, K. E., Conley, A. M., Dickie, D. A., Wilson, D. J. D., and Gilliard, R. J. (2022) Air-Stable Thermoluminescent Carbodicarbene-Borafluorenium Ions, Journal of the American Chemical Society 144, 590-598.

(16.) Hollister, K. K., Yang, W. L., Mondol, R., Wentz, K. E., Molino, A., Kaur, A., Dickie, D. A., Frenking, G., Pan, S., Wilson, D. J. D., and Gilliard, R. J. (2022) Isolation of Stable Borepin Radicals and Anions, Angewandte Chemie-International Edition 61.

(17.) Jia, X., Tian, S., Shivokevich, P. J., Harman, W. D., Dickie, D. A., and Gunnoe, T. B. (2022) Electron-Deficient Ru (II) Complexes as Catalyst Precursors for Ethylene Hydrophenylation, Inorganics 10, 76.

(18.) Kabra, A., and Bushweller, J. (2022) The intrinsically disordered proteins MLLT3 (AF9) and MLLT1 (ENL)–multimodal transcriptional switches with roles in normal hematopoiesis, MLL fusion leukemia, and kidney cancer, Journal of Molecular Biology 434, 167117.

(19.) Kalmode, H. P., Podsiadly, I., Kabra, A., Boulton, A., Reddy, P., Gao, Y., Li, C., and Bushweller, J. H. (2022) Small-Molecule Inhibitors of the MLL1 CXXC Domain, an Epigenetic Reader of DNA Methylation, ACS Medicinal Chemistry Letters.

(20.) Kim, K. B., Kabra, A., Kim, D. W., Xue, Y. M., Huang, Y. J., Hou, P. C., Zhou, Y. P., Miranda, L. J., Park, J. I., Shi, X. B., Bender, T. P., Bushweller, J. H., and Park, K. S. (2022) KIX domain determines a selective tumor-promoting role for EP300 and its vulnerability in small cell lung cancer, Science Advances 8.

(21.) Kong, F. J., Chen, S. S., Chen, J. Q., Liu, C., Zhu, W. H., Dickie, D. A., Schinski, W. L., Zhang, S., Ess, D. H., and Gunnoe, T. B. (2022) Cu(II) carboxylate arene C-H functionalization: Tuning for nonradical pathways, Science Advances 8.

(22.) Kuenen, M. K., Cuomo, A. M., Gray, V. P., and Letteri, R. A. (2023) Net anionic poly(beta-amino ester)s: synthesis, pH-dependent behavior, and complexation with cationic cargo, Polymer Chemistry 14, 421-431.

(23.) Luo, Z. W., Xie, J. H., Kaylor, N., Dickie, D. A., Ketcham, H. E., Davis, R. J., and Gunnoe, T. B. (2022) Catalytic Hydrogenolysis of the Pt-OPh Bond of a Molecular Pt(II) Complex using Silica Supported Pd, Rh and Pt Nanoparticles, Chemcatchem 14.

(24.) Musgrave III, C. B., Bennett, M. T., Ellena, J. F., Dickie, D. A., Gunnoe, T. B., and Goddard III, W. A. (2022) Reaction Mechanism Underlying Pd (II)-Catalyzed Oxidative Coupling of Ethylene and Benzene to Form Styrene: Identification of a Cyclic Mono-PdII Bis-CuII Complex as the Active Catalyst, Organometallics 41, 1988-2000.

(25.) Nian, S., Patil, S., Zhang, S., Kim, M., Chen, Q., Zhernenkov, M., Ge, T., Cheng, S., and Cai, L.-H. (2022) Dynamics of Associative Polymers with High Density of Reversible Bonds, arXiv preprint arXiv:2206.14036.

(26.) Obi, A. D., Frey, N. C., Dickie, D. A., Webster, C. E., and Gilliard, R. J. (2022) N-Heterocyclic Carbene-Assisted Reversible Migratory Coupling of Aminoborane at Magnesium, Angewandte Chemie-International Edition 61.

(27.) Pu, L. (2022) Chemoselective and enantioselective fluorescent identification of specific amino acid enantiomers, Chemical Communications.

(28.) Reid, A. G., Hooe, S. L., Moreno, J. J., Dickie, D. A., and Machan, C. W. (2022) Homogeneous Electrocatalytic Reduction of CO2 by a CrN3O Complex: Electronic Coupling with a Redox-Active Terpyridine Fragment Favors Selectivity for CO, Inorganic Chemistry 61, 16963-16970.

(29.) Reid, A. G., Moreno, J. J., Hooe, S. L., Baugh, K. R., Thomas, I. H., Dickie, D. A., and Machan, C. W. (2022) Inverse potential scaling in co-electrocatalytic activity for CO2 reduction through redox mediator tuning and catalyst design, Chemical Science 13, 9595-9606.

(30.) Simpson, S. R., Siano, P., Siela, D. J., Diment, L. A., Song, B. C., Westendorff, K. S., Ericson, M. N., Welch, K. D., Dickie, D. A., and Harman, W. D. (2022) Phenyl Sulfones: A Route to a Diverse Family of Trisubstituted Cyclohexenes from Three Independent Nucleophilic Additions, Journal of the American Chemical Society 144, 9489-9499.

(31.) Warring, L. S., Walley, J. E., Dickie, D. A., Tiznado, W., Pan, S., and Gilliard, R. J. (2022) Lewis Superacidic Heavy Pnictaalkene Cations: Comparative Assessment of Carbodicarbene-Stibenium and Carbodicarbene- Bismuthenium Ions, Inorganic Chemistry 61, 18640-18652.

(32.) Wentz, K. E., Molino, A., Freeman, L. A., Dickie, D. A., Wilson, D. J. D., and Gilliard, R. J. (2022) Activation of Carbon Dioxide by 9-Carbene-9-borafluorene Monoanion: Carbon Monoxide Releasing Transformation of Trioxaborinanone to Luminescent Dioxaborinanone, Journal of the American Chemical Society 144, 16276-16281.

(33.) Wray, J. P., Deltcheva, E. M., Boiers, C., Chhetri, J. B., Brown, J., Gagrica, S., Guo, Y. P., Illendula, A., Martens, J. H. A., Stunnenberg, H. G., Bushweller, J. H., Nimmo, R., Enver, T., and Richardson, S. E. (2022) Regulome analysis in B-acute lymphoblastic leukemia exposes Core Binding Factor addiction as a therapeutic vulnerability, Nature Communications 13.

(34.) Zhang, K., Musgrave, C. B., Dickie, D. A., Goddard, W. A., and Gunnoe, T. B. (2022) Capping Arene Ligated Rhodium-Catalyzed Olefin Hydrogenation: A Model Study of the Ligand Influence on a Catalytic Process That Incorporates Oxidative Addition and Reductive Elimination, Organometallics 41, 3373-3386.