José Manuel Horcas Nieto

194 Chapter 6 51. Wang, S. et al. Human ESC-derived expandable hepatic organoids enable therapeutic liver repopulation and pathophysiological modeling of alcoholic liver injury. Cell Res 29, 1009–1026 (2019). 52. Rashidi, H. et al. 3D human liver tissue from pluripotent stem cells displays stable phenotype in vitro and supports compromised liver function in vivo. Arch Toxicol 92, 3117–3129 (2018). 53. Dekkers, J. F. et al. High-resolution 3D imaging of fixed and cleared organoids. Nat Protoc 14, 1756–1771 (2019). 54. Heberle, A. M. et al. The PI3K and MAPK/p38 pathways control stress granule assembly in a hierarchical manner. Life Sci Alliance 2, (2019). 55. Evers, B. et al. Simultaneous quantification of the concentration and carbon isotopologue distribution of polar metabolites in a single analysis by gas chromatography and mass spectrometry. Anal Chem 93, 8248–8256 (2021). 56. Srinivasan, B. et al. Extracellular 4′-phosphopantetheine is a source for intracellular coenzyme A synthesis. Nat Chem Biol 11, 784–792 (2015). 57. Wu, H., Southam, A. D., Hines, A. & Viant, M. R. High-throughput tissue extraction protocol for NMR- and MS-based metabolomics. Anal Biochem 372, 204–212 (2008). 58. Singh, M., Akemi Kiyuna, L., Odendaal, C., Bakker, B. M. & Hankemeier, T. Development of HILIC-MS/MS method for acyl-CoAs covering short-to long-chain species in a single analytical run. ChemRxiv. Cambridge: Cambridge Open Engage. This content is a preprint and has not been peer-reviewed (2023) doi:10.26434/chemrxiv-2023-h0w52.

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