Fusion leads to effective segregation of damage during cell division: An analytical treatment

Steven J. Lade; Miguel Coelho; Iva M. Tolić; Thilo Gross

doi:10.1016/j.jtbi.2015.04.022

Fusion leads to effective segregation of damage during cell division: An analytical treatment

Steven J. Lade^*, Miguel Coelho, Iva M. Tolić, Thilo Gross

^*Corresponding author for this work

Fenner School of Environment & Society

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

Abstract

High levels of cellular damage are associated with impairment of cellular function and cell death. Partitioning the damage into a fraction of cells in the population improves population fitness and survival. We have previously shown that protein aggregates, resulting from misfolded, damaged proteins, fuse with each other leading to damage partitioning during cell division. Here, using an analytical treatment of aggregate fusion in dividing cells we present analytical expressions for two measures of damage partition: aggregate mass partition asymmetry between two dividing cells and standard deviation of total aggregate mass across the population. The scaling laws obtained demonstrate how damage partition may generally depend on characteristics of the cellular processes, facilitating better understanding of damage segregation in biological cells.

Original language	English
Pages (from-to)	47-55
Number of pages	9
Journal	Journal of Theoretical Biology
Volume	378
DOIs	https://doi.org/10.1016/j.jtbi.2015.04.022
Publication status	Published - 7 Aug 2015

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title = "Fusion leads to effective segregation of damage during cell division: An analytical treatment",

abstract = "High levels of cellular damage are associated with impairment of cellular function and cell death. Partitioning the damage into a fraction of cells in the population improves population fitness and survival. We have previously shown that protein aggregates, resulting from misfolded, damaged proteins, fuse with each other leading to damage partitioning during cell division. Here, using an analytical treatment of aggregate fusion in dividing cells we present analytical expressions for two measures of damage partition: aggregate mass partition asymmetry between two dividing cells and standard deviation of total aggregate mass across the population. The scaling laws obtained demonstrate how damage partition may generally depend on characteristics of the cellular processes, facilitating better understanding of damage segregation in biological cells.",

keywords = "Aggregation, Damage partition, Directed transport, Van kampen expansion",

author = "Lade, {Steven J.} and Miguel Coelho and Toli{\'c}, {Iva M.} and Thilo Gross",

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AU - Lade, Steven J.

AU - Coelho, Miguel

AU - Tolić, Iva M.

AU - Gross, Thilo

PY - 2015/8/7

Y1 - 2015/8/7

N2 - High levels of cellular damage are associated with impairment of cellular function and cell death. Partitioning the damage into a fraction of cells in the population improves population fitness and survival. We have previously shown that protein aggregates, resulting from misfolded, damaged proteins, fuse with each other leading to damage partitioning during cell division. Here, using an analytical treatment of aggregate fusion in dividing cells we present analytical expressions for two measures of damage partition: aggregate mass partition asymmetry between two dividing cells and standard deviation of total aggregate mass across the population. The scaling laws obtained demonstrate how damage partition may generally depend on characteristics of the cellular processes, facilitating better understanding of damage segregation in biological cells.

AB - High levels of cellular damage are associated with impairment of cellular function and cell death. Partitioning the damage into a fraction of cells in the population improves population fitness and survival. We have previously shown that protein aggregates, resulting from misfolded, damaged proteins, fuse with each other leading to damage partitioning during cell division. Here, using an analytical treatment of aggregate fusion in dividing cells we present analytical expressions for two measures of damage partition: aggregate mass partition asymmetry between two dividing cells and standard deviation of total aggregate mass across the population. The scaling laws obtained demonstrate how damage partition may generally depend on characteristics of the cellular processes, facilitating better understanding of damage segregation in biological cells.

KW - Aggregation

KW - Damage partition

KW - Directed transport

KW - Van kampen expansion

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JO - Journal of Theoretical Biology

JF - Journal of Theoretical Biology

ER -

Fusion leads to effective segregation of damage during cell division: An analytical treatment

Abstract

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