Answer:
Mutation that prevents Transcription Factors Dimerisation
Mutation that prevents Transcription Factors from binding to Chromatin Remodeling proteins.
Mutation that prevents Transcription Factors from binding DNA
Mutation that prevents binding of co- activator
Explanation:
Several different mutations can affect Transcription Activators to be unable to promote transcription of its target gene:
1. Mutation that prevents Transcription Factors Dimerisation: In the given example, because the Transcription Factors requires dimerisation to function. A mutation that disrupts dimer formation will prevent the Transcription Factor from activating gene transcription.
2. Mutation that prevents Transcription Factors from binding to Chromatin Remodeling proteins: Since this transcription activator results in Chromatin remodeling, a mutation in the domain that binds to and recruits chromatin remodeling proteins will prevent the transcription factor from being able to promote chromatin remodeling.
3. Mutation that prevents Transcription Factors from binding DNA: A mutation that abrogates either the ability or the specificity of transcription Activator to bind to DNA will prevent the activator to effectively promote transcription of target gene.
4. Mutation that prevents binding of co- activator: Many activators promote transcription from a locus in the presence of a co-activator. A mutation that prevents the binding of the activator to the activator will prevent expression of the target gene.
