(2024). Liver as a nexus of daily metabolic cross talk. International Review of Cell and Molecular Biology. ePub available online 25 June 2024. https://doi.org/10.1016/bs.ircmb.2024.06.001. Litwin, C. and Koronowski, K. B.

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*collaborator (2024). The epidermal circadian clock integrates and subverts brain signals to guarantee skin homeostasis. Cell stem cell, 31(6), 834–849.e4. https://doi.org/10.1016/j.stem.2024.04.013. Mortimer, T., Zinna, V. M., Atalay, M., Laudanna, C., Deryagin, O., Posas, G., Smith, J. G., García-Lara, E., Vaca-Dempere, M., Monteiro de Assis, L. V., Heyde, I., Koronowski, K. B., Petrus, P., Greco, C. M., Forrow, S., Oster, H., Sassone-Corsi, P., Welz, P. S., Muñoz-Cánoves, P., & Benitah, S. A.

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*collaborator (2024). Brain-muscle communication prevents muscle aging by maintaining daily physiology. Science (New York, N.Y.), 384(6695), 563–572. https://doi.org/10.1126/science.adj8533. Kumar, A., Vaca-Dempere, M., Mortimer, T., Deryagin, O., Smith, J. G., Petrus, P., Koronowski, K. B., Greco, C. M., Segalés, J., Andrés, E., Lukesova, V., Zinna, V. M., Welz, P. S., Serrano, A. L., Perdiguero, E., Sassone-Corsi, P., Benitah, S. A., & Muñoz-Cánoves, P.

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(2023). Impact of Bmal1 Rescue and Time-Restricted Feeding on Liver and Muscle Proteomes During the Active Phase in Mice. Molecular & cellular proteomics : MCP, 22(11), 100655. https://doi.org/10.1016/j.mcpro.2023.100655. Smith, J. G., Molendijk, J., Blazev, R., Chen, W. H., Zhang, Q., Litwin, C., Zinna, V. M., Welz, P. S., Benitah, S. A., Greco, C. M., Sassone-Corsi, P., Muñoz-Cánoves, P., Parker, B. L., & Koronowski, K. B.

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*Sassone-Corsi lab (2023). Liver and muscle circadian clocks cooperate to support glucose tolerance in mice. Cell reports, 42(6), 112588. https://doi.org/10.1016/j.celrep.2023.112588. Smith, J. G., Koronowski, K. B., Mortimer, T., Sato, T., Greco, C. M., Petrus, P., Verlande, A., Chen, S., Samad, M., Deyneka, E., Mathur, L., Blazev, R., Molendijk, J., Kumar, A., Deryagin, O., Vaca-Dempere, M., Sica, V., Liu, P., Orlando, V., Parker, B. L., … Sassone-Corsi, P.

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*Sassone-Corsi lab (2022). Tryptophan metabolism is a physiological integrator regulating circadian rhythms. Molecular metabolism, 64, 101556. https://doi.org/10.1016/j.molmet.2022.101556. Petrus, P., Cervantes, M., Samad, M., Sato, T., Chao, A., Sato, S., Koronowski, K. B., Park, G., Alam, Y., Mejhert, N., Seldin, M. M., Monroy Kuhn, J. M., Dyar, K. A., Lutter, D., Baldi, P., Kaiser, P., Jang, C., & Sassone-Corsi, P.

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*Sassone-Corsi lab (2022). Antibiotic-induced microbiome depletion remodels daily metabolic cycles in the brain. Life sciences, 303, 120601. https://doi.org/10.1016/j.lfs.2022.120601. Smith, J. G., Sato, T., Shimaji, K., Koronowski, K. B., Petrus, P., Cervantes, M., Kinouchi, K., Lutter, D., Dyar, K. A., & Sassone-Corsi, P.

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*Sassone-Corsi lab (2022). The central clock suffices to drive the majority of circulatory metabolic rhythms. Science advances, 8(26), eabo2896. https://doi.org/10.1126/sciadv.abo2896. Petrus, P., Smith, J. G., Koronowski, K. B., Chen, S., Sato, T., Greco, C. M., Mortimer, T., Welz, P. S., Zinna, V. M., Shimaji, K., Cervantes, M., Punzo, D., Baldi, P., Muñoz-Cánoves, P., Sassone-Corsi, P., & Benitah, S. A.

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*Sassone-Corsi lab (2022). Real-Time Measurement of Energy Metabolism Over Circadian Time Using Indirect Calorimetry-Enabled Metabolic Cages. Methods in molecular biology (Clifton, N.J.), 2482, 301–310. https://doi.org/10.1007/978-1-0716-2249-0_20. Koronowski, K. B., & Sassone-Corsi, P.

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*Sassone-Corsi lab (2021). Integration of feeding behavior by the liver circadian clock reveals network dependency of metabolic rhythms. Science advances, 7(39), eabi7828. https://doi.org/10.1126/sciadv.abi7828. Greco, C. M., Koronowski, K. B., Smith, J. G., Shi, J., Kunderfranco, P., Carriero, R., Chen, S., Samad, M., Welz, P. S., Zinna, V. M., Mortimer, T., Chun, S. K., Shimaji, K., Sato, T., Petrus, P., Kumar, A., Vaca-Dempere, M., Deryagin, O., Van, C., Kuhn, J. M. M., … Sassone-Corsi, P.

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*Sassone-Corsi lab (2021). Ketogenesis impact on liver metabolism revealed by proteomics of lysine β-hydroxybutyrylation. Cell reports, 36(5), 109487. https://doi.org/10.1016/j.celrep.2021.109487. Koronowski, K. B., Greco, C. M., Huang, H., Kim, J. K., Fribourgh, J. L., Crosby, P., Mathur, L., Ren, X., Partch, C. L., Jang, C., Qiao, F., Zhao, Y., & Sassone-Corsi, P.

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*Sassone-Corsi lab (2021). Collecting mouse livers for transcriptome analysis of daily rhythms. STAR protocols, 2(2), 100539. https://doi.org/10.1016/j.xpro.2021.100539. Mortimer, T., Welz, P. S., Benitah, S. A., & Koronowski, K. B.

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*Sassone-Corsi lab (2021). Communicating clocks shape circadian homeostasis. Science (New York, N.Y.), 371(6530), eabd0951. https://doi.org/10.1126/science.abd0951. Koronowski, K. B., & Sassone-Corsi, P.

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*Sassone-Corsi lab (2020). S-adenosyl-l-homocysteine hydrolase links methionine metabolism to the circadian clock and chromatin remodeling. Science advances, 6(51), eabc5629. https://doi.org/10.1126/sciadv.abc5629. Greco, C. M., Cervantes, M., Fustin, J. M., Ito, K., Ceglia, N., Samad, M., Shi, J., Koronowski, K. B., Forne, I., Ranjit, S., Gaucher, J., Kinouchi, K., Kojima, R., Gratton, E., Li, W., Baldi, P., Imhof, A., Okamura, H., & Sassone-Corsi, P.

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*Sassone-Corsi lab (2019). Defining the Independence of the Liver Circadian Clock. Cell, 177(6), 1448–1462.e14. https://doi.org/10.1016/j.cell.2019.04.025. Koronowski, K. B., Kinouchi, K., Welz, P. S., Smith, J. G., Zinna, V. M., Shi, J., Samad, M., Chen, S., Magnan, C. N., Kinchen, J. M., Li, W., Baldi, P., Benitah, S. A., & Sassone-Corsi, P.

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*collaborator (2019). BMAL1-Driven Tissue Clocks Respond Independently to Light to Maintain Homeostasis. Cell, 177(6), 1436–1447.e12. https://doi.org/10.1016/j.cell.2019.05.009. Welz, P. S., Zinna, V. M., Symeonidi, A., Koronowski, K. B., Kinouchi, K., Smith, J. G., Guillén, I. M., Castellanos, A., Furrow, S., Aragón, F., Crainiciuc, G., Prats, N., Caballero, J. M., Hidalgo, A., Sassone-Corsi, P., & Benitah, S. A.