The transcription of -galactosidase and permease is inducible in lac⁺ bacteria with a wild-type lac operon. Explain the mechanism by which lactose gains access to the cell to induce transcription of the genes.

The lac operon is a set of genes in bacteria that are responsible for the metabolism of lactose. It consists of structural genes that code for enzymes like β-galactosidase and permease, which are necessary for lactose utilization. The operon is regulated by the presence or absence of lactose, allowing the bacteria to conserve energy by only expressing these genes when lactose is available.

An inducible system is a type of gene regulation where the expression of certain genes is turned on in response to specific signals, such as the presence of a substrate. In the case of the lac operon, lactose acts as an inducer that binds to the repressor protein, causing it to release from the operator region of the operon. This allows RNA polymerase to access the promoter and initiate transcription of the genes needed for lactose metabolism.

Lactose permease is a membrane protein that facilitates the transport of lactose into bacterial cells. It is encoded by the lacY gene within the lac operon. Once lactose is inside the cell, it can be converted into allolactose, which then binds to the repressor protein, triggering the transcription of the lac operon genes. This transport mechanism is crucial for the induction of the operon and subsequent lactose metabolism.