18.1 Bacteria often respond to environmental change by regulating transcription Notes

18.1 Bacteria often respond to environmental change by regulating transcription

o   Bacterial cells that can conserve resources and energy have a selective advantage over cells that are unable to do so.

o   Natural selection has favored bacteria that express only the genes whose products are needed by the cell.

o   Metabolic control occurs on 2 levels.

§  1^st cells can adjust the activity of enzymes already present. This is a fairly fast response, which relies on the sensitivity of many enzymes to chemical cues that increase or decrease their catalytic activity. The activity of the first enzyme in the tryptophan synthesis pathway is inhibited by the pathway’s end product.

§  2^nd cells can adjust the production level of certain enzymes; that is, they can regulate the expression of the genes encoding the enzymes. Many genes of the bacterial genome are switched on or off by changes in the metabolic status of the cell.

Operons: The Basic Concept

o   E. coli synthesizes the amino acid tryptophan from a precursor molecule

o   Transcription gives rise to one long mRNA molecule that codes for the five polypeptides making up the enzymes in the tryptophan pathway

o   When an E. coli cell must make tryptophan for itself because the nutrition medium lacks his amino acid, all the enzymes for the metabolic pathway are synthesized at one time.

o   The switch is a segment of DNA called an operator.

o   Altogether, the operator and the promoter, and the genes they control constitute and operon

o   The operon can be switched off by a protein call the trp repressor

o   The trp repressor is the protein product of a regulatory gene called trpR, which is located some distance from the trp operon and has its own promoter

o   Tryptophan functions in this system as corepressor, a small molecule that cooperates with a repressor protein to switch an operon off.

Repressible and Inducible operons: Two Types of Negative Gene Regulation

o   The trp operon is said to be a repressible operon because its transcription is usually on but can be inhibited when a specific small molecule binds allosterically to a regulatory protein.

o   An inducible operon is usually off but can be stimulated when a specific small molecule interacts with a regulatory protein

o   Inducer inactivates the repressor

o   FIGURE 18.4

o   For the lac operon, the inducer is allolactose, an isomer of lactose formed in small amounts from lactose that enters the cell.

o   In gene regulation, the enzymes of the lactose pathway are referred to as inducible enzymes because their synthesis is induced by a chemical signal

Positive Gene Regulations

o   When glucose and lactose are both present in its environment, E coli preferentially uses glucose.

o   Mechanism depends on the interaction of an allosteric regulatory protein with a small organic molecule, in this case cyclic AMP

o   The regulatory protein, called catabolite activator protein (CAP), is an activator, a protein that binds to DNA and stimulates transcription of a gene