Schröder, Martin - Durham University - Department of Biosciences

个人简介

Ph.D. Technical University of Darmstadt, Darmstadt, Germany, 1996. Postdoctoral Fellow, Howard Hughes Medical Institute and Department of Biological Chemistry, University of Michigan Medical School, Ann Arbor, Michigan, USA, 1997 - 2004.

研究领域

Molecular Biology Yeast Genetics Unfolded Protein Response

近期论文

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Schröder, M., & Kaufman, R. (online). Ire1. The AFCS-nature molecule pages, https://doi.org/10.1038/mp.a003134.01 Read, A., & Schröder, M. (2021). The Unfolded Protein Response: An Overview. Biology, 10(5), Article 384. https://doi.org/10.3390/biology10050384 Brown, Max, Dainty, Samantha, Strudwick, Natalie, Mihai, Adina D., Watson, Jamie N., Dendooven, Robina, Paton, Adrienne W., Paton, James C. & Schröder, Martin (2020). Endoplasmic reticulum stress causes insulin resistance by inhibiting delivery of newly synthesised insulin receptors to the cell surface. Molecular Biology of the Cell 31(23): 2495-2629. Armstrong, M. C., Sestak, S., Ali, A. A., Sagini, H. A. M., Baty, K., Treumann, A. & Schröder, M. (2017). Bypass of activation loop phosphorylation by aspartate 836 in activation of the endoribonuclease activity of Ire1. Molecular and Cellular Biology 37(16): e00655-16. Brown, M., Strudwick, N., Suwara, M., Sutcliffe, L. K., Mihai, A. D., Ali, A. A., Watson, J. N. & Schröder, M. (2016). An initial phase of JNK activation inhibits cell death early in the endoplasmic reticulum stress response. Journal of Cell Science 129(12): 2317-2328. Mihai, A. D. & Schröder, M. (2015). Glucose starvation and hypoxia, but not the saturated fatty acid palmitic acid or cholesterol, activate the unfolded protein response in 3T3-F442A and 3T3-L1 adipocytes. Adipocyte 4(3): 188-202. Skipsey, M., Hack, G., Hooper, T. A., Shankey, M. C., Conway, L. P., Schröder, M. & Hodgson, D. R. W. (2013). 5’-Deoxy-5’-hydrazinylguanosine as an initiator of T7 RNA polymerase-catalyzed transcriptions for the preparation of labeling-ready RNAs. Nucleosides, Nucleotides, and Nucleic Acids 32(12): 670-681. D. R. W. Hodgson & M. Schröder (2011). Chemical approaches twoards unraveling kinase-mediated signaling pathways. Chemical Society Reviews 40(3): 1211-1223. D. Cox, N. Srudwick, A. A. Ali, A. W. Paton, J. C. Paton & M. Schröder (2011). Measuring signaling by the unfolded protein response. Methods in Enzymology 491: 261-292. M. Schröder & L. Sutcliffe (2010). Consequences of stress in the secretory pathway: the ER stress response and its role in the metabolic syndrome. Methods in Molecular Biology 648: 43-62. N. Strudwick, M. Brown, V. M. Parmar & M. Schröder (2010). Ime1 and Ime2 are required for pseudohyphal growth of Saccharomyces cerevisiae on Nonfermentable Carbon Sources. Molecular and Cellular Biology 30(23): 5514-5530. M. Schröder (2008). Endoplasmic reticulum stress responses. Cellular and Molecular Life Sciences 65(6): 862-894. M. Schröder (2008). Engineering eukaryotic protein factories. Biotechnology Letters 30(2): 187-196. S. U. Khan & M. Schröder (2008). Engineering of chaperone systems and of the unfolded protein response. Cytotechnology 57(3): 207-231. M. E. Schröder & R. J. Kaufman (2007). Ire1. UCSD-Nature Molecule Pages M. Schröder & K. Kohno (2007). Recent advances in understanding the unfolded protein response. Antioxidants and Redox Signaling 9(12): 2241-2244. M. Schröder & R. J. Kaufman (2006). Divergent roles for IRE1α and PERK in the unfolded protein response. Current Molecular Medicine 6(1): 5-36. M. Schröder (2006). The unfolded protein response. Molecular Biotechnology 34(2): 279-290. M. Schröder & R. J. Kaufman (2005). ER stress and the unfolded protein response. Mutation Research 569(1-2): 29-63. S. H. Back, M. Schröder, K. Lee, K. Zhang & R. J. Kaufman (2005). ER stress signalling by regulated splicing: IRE1/HAC1/XBP1. Methods 35(4): 395-416. M. Schröder & R. J. Kaufman (2005). The mammalian unfolded protein response. Annual Review of Biochemistry 74: 739-789. M. Schröder, K. Matischak & P. Friedl (2004). Serum- and protein-free media formulations for the Chinese hamster ovary cell line DUKXB11. Journal of Biotechnology 108(3): 279-292.