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Chapter 17: Problem 21

Explain how the following mutations would affect the transcription of the yeast GALI gene. (a) A deletion within the GAL4 gene that removes the region encoding amino acids 1 to 100 . (b) A deletion of the entire GAL3 gene. (c) A mutation within the GAL80 gene that blocks the ability of Gal80 protein to interact with Gal3p. (d) A deletion of one of the four UAS elements upstream from the GAL1 gene. (e) A point mutation in the GALI core promoter that alters the sequence of the TATA box.

Short Answer

Expert verified
Answer: Different mutations affect GAL1 transcription by impacting the activity of proteins and binding sites involved in the initiation process. These include changes to the GAL4, GAL3, and GAL80 genes, UAS elements, and the GAL1 core promoter. Mutations can potentially result in complete loss of transcription, decreased efficiency, or an inability of the yeast to utilize galactose.

Step by step solution

01

(a) Deletion of region encoding amino acids 1 to 100 in GAL4 gene

The GAL4 gene encodes a transcription factor, which is a protein that binds to specific DNA sequences called upstream activation sequences (UAS) elements and helps initiate transcription of the GAL1 gene. If the region encoding amino acids 1 to 100 is deleted, this would likely disrupt the function of the Gal4 protein, making it unable to bind to the UAS elements or recruit other factors needed for transcription. As a result, this mutation would probably lead to a significant reduction or complete loss of GAL1 transcription.
02

(b) Deletion of the entire GAL3 gene

The GAL3 gene encodes a protein called Gal3p, which, under conditions of galactose presence, binds to another protein called Gal80p. This interaction allows the Gal4 protein to become active and initiate transcription of the GAL1 gene. If the entire GAL3 gene is deleted, there would be no Gal3p to interact with Gal80p, leaving Gal80p always bound to Gal4 protein, which in turn prevents the initiation of GAL1 transcription. This would result in the inability of the yeast to utilize galactose, since the GAL1 gene would not be transcribed.
03

(c) Mutation in GAL80 gene blocking interaction with Gal3p

The GAL80 gene encodes the Gal80 protein, which, when bound to the Gal4 protein, inhibits the transcription of the GAL1 gene. The Gal80 protein can be displaced from Gal4 when it interacts with Gal3p. If there is a mutation in the GAL80 gene blocking its interaction with Gal3p, this would mean that Gal80 protein would always remain bound to Gal4 protein, preventing the initiation of GAL1 transcription. This would lead to an inability of the yeast to break down and utilize galactose.
04

(d) Deletion of one of the four UAS elements upstream from the GAL1 gene

Upstream activation sequences (UAS) elements are specific DNA sequences where the Gal4 transcription factor binds to initiate transcription of the GAL1 gene. There are usually four such UAS elements near the GAL1 gene, and their presence increases the efficiency and strength of transcription. If one of these UAS elements is deleted, it would likely result in decreased efficiency and strength of GAL1 transcription, as there would be fewer binding sites for the Gal4 protein. However, it would not completely abolish transcription since there would still be three remaining UAS elements.
05

(e) Point mutation in the GAL1 core promoter altering the TATA box

The TATA box is a sequence within the core promoter of the GAL1 gene, which is essential for the binding of the transcription machinery and the initiation of transcription. If a point mutation occurs in the TATA box, it could alter the sequence, potentially making it difficult or impossible for the transcription machinery to bind properly. This could lead to a significant reduction or complete loss of GAL1 transcription, ultimately impairing the yeast's ability to break down and utilize galactose.

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