1) Which of the following statements correctly describes the role of a molecule that controls a
repressible operon?
A) The molecule binds to the promoter region and decreases the affinity of RNA polymerase for
the promoter.
B) The molecule binds to the operator region and blocks the attachment of RNA polymerase to
the promoter.
C) The molecule increases the production of inactive repressor proteins.
D) The molecule binds to the repressor protein and activates it.

An operon is referred to as repressible if its transcription is typically on until a repressor protein inhibits it.The operator does not readily attach to the repressor protein.It must have the presence of the its corepressor because it is generated in an inactive state.

C) The chemical stimulates the synthesis of dormant repressor proteins.

What causes repressor protein production?

As a result, in a functional group known as an operon, structural genes are connected to an operator gene.

In the end, a regulator gene that generates a little protein molecule is called a repressor regulates the operon's activity.

What triggers repressor activation?

Repressor,an amino acid binds with met repressor and activates it when it is present.The repressor's presence just on DNA strand prevents RNA production,The repressor separates from the operator whenever the amino acid is absent, and RNA production continues.

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