Abstract
Regulation of proteins across the cell cycle is a basic process in cell biology. It has been difficult to study this globally in human cells due to lack of methods to accurately follow protein levels and localizations over time. Estimates based on global mRNA measurements suggest that only a few percent of human genes have cell-cycle dependent mRNA levels. Here, we used dynamic proteomics to study the cell-cycle dependence of proteins. We used 495 clones of a human cell line, each with a different protein tagged fluorescently at its endogenous locus. Protein level and localization was quantified in individual cells over 24h of growth using time-lapse microscopy. Instead of standard chemical or mechanical methods for cell synchronization, we employed in-silico synchronization to place protein levels and localization on a time axis between two cell divisions. This non-perturbative synchronization approach, together with the high accuracy of the measurements, allowed a sensitive assay of cell-cycle dependence. We further developed a computational approach that uses texture features to evaluate changes in protein localizations. We find that 40% of the proteins showed cell cycle dependence, of which 11% showed changes in protein level and 35% in localization. This suggests that a broader range of cell-cycle dependent proteins exists in human cells than was previously appreciated. Most of the cell-cycle dependent proteins exhibit changes in cellular localization. Such changes can be a useful tool in the regulation of the cell-cycle being fast and efficient.
Highlights
It is of interest to understand the regulation of proteins across the cell cycle – a fundamental process in cell physiology in both health and disease
The protein is tagged in its endogenous chromosomal locus, preserving natural promoter and regulatory sequences
We find that 11% of the tested proteins (56/495) show significant cell-cycle dependence in their protein level according to our criterion (Fig 2E)
Summary
It is of interest to understand the regulation of proteins across the cell cycle – a fundamental process in cell physiology in both health and disease. Proteins can be regulated across the cycle by means of chemical modification and binding. They can be regulated by changes in their level and localization in a cell-cycle dependent manner. Previous studies focused on individual proteins, and discovered mechanisms that change protein levels and localization in a cellcycle dependent manner. In human cells, only about 1–3% of messages are cell-cycle dependent [4,5,6,7]
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