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Literature DB >> 34731644

Transcriptional and chromatin-based partitioning mechanisms uncouple protein scaling from cell size.

Matthew P Swaffer¹, Jacob Kim², Devon Chandler-Brown¹, Maurice Langhinrichs¹, Georgi K Marinov³, William J Greenleaf³, Anshul Kundaje³, Kurt M Schmoller⁴, Jan M Skotheim⁵.

Abstract

Biosynthesis scales with cell size such that protein concentrations generally remain constant as cells grow. As an exception, synthesis of the cell-cycle inhibitor Whi5 "sub-scales" with cell size so that its concentration is lower in larger cells to promote cell-cycle entry. Here, we find that transcriptional control uncouples Whi5 synthesis from cell size, and we identify histones as the major class of sub-scaling transcripts besides WHI5 by screening for similar genes. Histone synthesis is thereby matched to genome content rather than cell size. Such sub-scaling proteins are challenged by asymmetric cell division because proteins are typically partitioned in proportion to newborn cell volume. To avoid this fate, Whi5 uses chromatin-binding to partition similar protein amounts to each newborn cell regardless of cell size. Disrupting both Whi5 synthesis and chromatin-based partitioning weakens G1 size control. Thus, specific transcriptional and partitioning mechanisms determine protein sub-scaling to control cell size.

Entities: Chemical

Keywords: cell cycle; cell size; cell size control; gene expression; scaling

Mesh：

Substances：

Year: 2021 PMID： 34731644 PMCID： PMC8642314 DOI： 10.1016/j.molcel.2021.10.007

Source DB: PubMed Journal: Mol Cell ISSN： 1097-2765 Impact factor: 17.970

74 in total

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Journal: Cell Date: 2003-11-26 Impact factor: 41.582

4. Ultrafast and memory-efficient alignment of short DNA sequences to the human genome.

Authors: Ben Langmead; Cole Trapnell; Mihai Pop; Steven L Salzberg
Journal: Genome Biol Date: 2009-03-04 Impact factor: 13.583

5. Single-RNA counting reveals alternative modes of gene expression in yeast.

Authors: Daniel Zenklusen; Daniel R Larson; Robert H Singer
Journal: Nat Struct Mol Biol Date: 2008-11-16 Impact factor: 15.369

6. Differential scaling between G1 protein production and cell size dynamics promotes commitment to the cell division cycle in budding yeast.

Authors: Athanasios Litsios; Daphne H E W Huberts; Hanna M Terpstra; Paolo Guerra; Alexander Schmidt; Katarzyna Buczak; Alexandros Papagiannakis; Mattia Rovetta; Johan Hekelaar; Georg Hubmann; Marten Exterkate; Andreas Milias-Argeitis; Matthias Heinemann
Journal: Nat Cell Biol Date: 2019-11-04 Impact factor: 28.824

7. The transcriptional network activated by Cln3 cyclin at the G1-to-S transition of the yeast cell cycle.

Authors: Francisco Ferrezuelo; Neus Colomina; Bruce Futcher; Martí Aldea
Journal: Genome Biol Date: 2010-06-23 Impact factor: 13.583

8. Systematic identification of cell size regulators in budding yeast.

Authors: Ilya Soifer; Naama Barkai
Journal: Mol Syst Biol Date: 2014-11-19 Impact factor: 11.429

9. Excessive Cell Growth Causes Cytoplasm Dilution And Contributes to Senescence.

Authors: Gabriel E Neurohr; Rachel L Terry; Jette Lengefeld; Megan Bonney; Gregory P Brittingham; Fabien Moretto; Teemu P Miettinen; Laura Pontano Vaites; Luis M Soares; Joao A Paulo; J Wade Harper; Stephen Buratowski; Scott Manalis; Folkert J van Werven; Liam J Holt; Angelika Amon
Journal: Cell Date: 2019-02-07 Impact factor: 41.582

10. Patterns of protein synthesis during the cell cycle of the fission yeast Schizosaccharomyces pombe.

Authors: J Creanor; J M Mitchison
Journal: J Cell Sci Date: 1982-12 Impact factor: 5.285

8 in total

1. Increasing cell size remodels the proteome and promotes senescence.

Authors: Michael C Lanz; Evgeny Zatulovskiy; Matthew P Swaffer; Lichao Zhang; Ilayda Ilerten; Shuyuan Zhang; Dong Shin You; Georgi Marinov; Patrick McAlpine; Joshua E Elias; Jan M Skotheim
Journal: Mol Cell Date: 2022-08-19 Impact factor: 19.328

2. The G1/S repressor WHI5 is expressed at similar levels throughout the cell cycle.

Authors: Sylvain Tollis
Journal: BMC Res Notes Date: 2022-07-15

3. Whi5 is diluted and protein synthesis does not dramatically increase in pre-Start G1.

Authors: Kurt M Schmoller; Michael C Lanz; Jacob Kim; Mardo Koivomagi; Yimiao Qu; Chao Tang; Igor V Kukhtevich; Robert Schneider; Fabian Rudolf; David F Moreno; Martí Aldea; Rafael Lucena; Jan M Skotheim
Journal: Mol Biol Cell Date: 2022-05-01 Impact factor: 3.612