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Mathematical Biology Seminar

Stress sensing in the endoplasmic reticulum
Monday, January 14, 2019
12:00-12:50 PM
335 West Hall Map
Within the endoplasmic reticulum (ER) of eukaryotic cells a complex system of chaperones and foldases work in concert to correctly fold nascent proteins and aid their progress along the secretory pathway. Should this process be upset, either through increased peptide translation or changes to the chemical environment within the ER, unfolded proteins accumulate, aggregate and misfold. This state of disrupted proteostasis, known as ER stress, triggers a multifaceted transcriptional response called the unfolded protein response (UPR) that seeks to restore proteostasis. While the UPR has been extensively studied due to the important role it plays in protein misfolding diseases, cancer and aging, a critical and still-poorly-understood aspect of the UPR is the mechanism through which ER stress is detected and quantified by the cell. This talk will discuss recent theoretical work to rationalize the observed stress sensing network in the ER. Specifically, by approaching the problem from both optimal-control and information-theoretic standpoints, we show the advantage of measuring stress by "counting" both unfolded proteins and unutilized chaperones as opposed to either individually. This work serves as a starting point for a more quantitative understanding of how cells regulate ER stress and the protein secretory pathway. Speaker(s): Wylie Stroberg (UM Dept. of Molecular and Integrative Physiology)
Building: West Hall
Event Type: Workshop / Seminar
Tags: Mathematics
Source: Happening @ Michigan from Department of Mathematics