13.1: Introduction

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The metabolic potential of cells is flexible, depending on various mechanisms that ultimately determine the levels and activities of the proteins that dictate a cell’s metabolic state. We have seen some of these regulatory mechanisms:

Extracellular chemical signals or developmental chemical prompts regulate transcription.
Allosteric regulation by cellular metabolites and chemical modification, (e.g., by phosphorylation or dephosphorylation) can control the activity of enzymes or other proteins.

In this chapter, we look at different kinds of posttranscriptional regulation, events that take place sometime between mRNA transcription and the maturation of the biological protein activity of a protein. These control mechanisms are most diverse in eukaryotes. Like other pathways for regulating gene expression, posttranscriptional regulation begins with extracellular chemical signaling. Responses include changes in the rate of polypeptide translation and changes in macromolecular turnover rate, such as changes in the half-life of specific RNAs and proteins in cells.

Regardless of mechanism, each up- or down-regulation of (i.e., increase or decrease in) gene expression contributes to changes in the steady state of a particular RNA or protein required for proper cell function. In considering posttranscriptional regulation, we will see how cells use specific proteins and different noncoding RNA transcripts to target unwanted proteins or RNAs for degradation.

Learning Objectives

When you have mastered the information in this chapter, you should be able to:

Explain what it is about C. elegans makes it a model organism for studying development and the regulation of gene expression.
Compare and contrast the origins and functions of miRNA and siRNA.
Search for examples of miRNAs, siRNAs, lncRNAs and circRNAs that regulate the expression of specific genes and explain their mechanisms.
Explain how a riboswitch functions to control bacterial gene expression.
Explain the origins and roles of bacterial CRISPR-Cas immune system components.
Explain how eif2 activity is modulated to coordinate red cell heme and globin levels.
Describe how eukaryotic cells degrade unwanted proteins and speculate on how bacteria might do so
answer the questions “How did junk DNA arise?” and “Does junk DNA have value?”

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