12.4: The Problem with Unregulated (Housekeeping) Genes in All Cells

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Before we turn our attention to the regulation of gene expression in eukaryotes, consider for a moment the expression of constitutive (i.e., unregulated, or housekeeping) genes that are always active. The requirement that some genes always be “on” raises questions about cellular priorities of gene expression. Constitutive gene products include sets of many polypeptides that form large macromolecular complexes in cells; they also include enzyme sets that participate in vital biochemical pathways. How do cells maintain such polypeptides in stoichiometrically reasonable amounts? Or can their levels rise or fall transiently without much effect? Recent studies suggest that transcription of housekeeping genes is, in fact, not coordinated!

We also saw that the efficiency of glycolysis relies in part on allosteric regulatory mechanisms that evolved to control the activities of glycolytic enzymes rather than their transcription. While this takes care of some element of metabolic control, a problem remains. Recall that protein synthesis is energy-intensive: each peptide linkage costs three NTPs (not to mention the waste of an additional NTP per phosphodiester linkage made in the transcription of an mRNA!). The overproduction of proteins would seem to be a waste of energy and thus an evolutionary “mistake.” While we may not know just how expensive it is to express housekeeping genes, whatever the energy expenses are, they are the cost of evolving complex structures and biochemical pathways vital to their everyday function and survival. This is a good example of a major precept of evolutionary theory: evolution is an accumulation of improvements brought about by (one can almost say jerry-rigged by) natural selection; it is not the result of perfect design in advance. Now back to our focus on regulated gene expression in eukaryotes.

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