TrpE

5 Must Know Facts For Your Next Test

1. The trpE gene is part of the tryptophan operon, a group of genes responsible for the biosynthesis of the amino acid tryptophan in bacteria.
2. The trpE gene encodes the alpha subunit of the anthranilate synthase enzyme, which catalyzes the first step in the tryptophan biosynthesis pathway.
3. The expression of the trpE gene, and the entire tryptophan operon, is regulated by the availability of tryptophan in the cell through a mechanism known as feedback inhibition.
4. When tryptophan is abundant, the trp repressor protein binds to the operator region of the tryptophan operon, preventing the transcription of the tryptophan biosynthesis genes, including trpE.
5. Conversely, when tryptophan is scarce, the trp repressor protein dissociates from the operator, allowing the transcription of the tryptophan biosynthesis genes and the production of tryptophan.

Review Questions

• Describe the role of the trpE gene in the tryptophan biosynthesis pathway.
  • The trpE gene encodes the alpha subunit of the anthranilate synthase enzyme, which catalyzes the first step in the tryptophan biosynthesis pathway. Anthranilate synthase converts chorismate, an intermediate in the shikimate pathway, into anthranilate, a key precursor for tryptophan production. The trpE gene is part of the tryptophan operon, a group of genes responsible for the entire tryptophan biosynthesis process in bacteria.
• Explain how the expression of the trpE gene is regulated by the availability of tryptophan in the cell.
  • The expression of the trpE gene, along with the other genes in the tryptophan operon, is regulated by a feedback inhibition mechanism. When tryptophan is abundant in the cell, the trp repressor protein binds to the operator region of the tryptophan operon, preventing the transcription of the tryptophan biosynthesis genes, including trpE. Conversely, when tryptophan is scarce, the trp repressor protein dissociates from the operator, allowing the transcription of the tryptophan biosynthesis genes and the production of tryptophan.
• Analyze the significance of the trpE gene in the context of the Operon Theory of gene regulation.
  • The trpE gene is a key component of the tryptophan operon, which is a prime example of the Operon Theory of gene regulation. The Operon Theory states that genes involved in a related metabolic pathway or function are often grouped together and co-regulated. In the case of the tryptophan operon, the trpE gene, along with the other tryptophan biosynthesis genes, is under the control of a common regulatory mechanism that responds to the availability of tryptophan in the cell. This allows the cell to efficiently produce tryptophan only when it is needed, conserving resources and energy, which is a fundamental principle of the Operon Theory.