Textbook Question
What are the different chromatin classifications, and what is their relationship to gene expression?
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13. Gene Regulation in Eukaryotes
Epigenetics, Chromatin Modifications, and Regulation
1:55 minutesProblem 13
Textbook Question
Describe the manner in which activators and repressors influence the rate of transcription initiation. How might chromatin structure be involved in such regulation?
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Begin by defining activators and repressors as types of transcription factors that influence gene expression by binding to specific DNA sequences near the promoter region of a gene.
Explain that activators increase the rate of transcription initiation by facilitating the recruitment or stabilization of RNA polymerase and the general transcription machinery at the promoter, often by interacting with the mediator complex or other coactivators.
Describe that repressors decrease transcription initiation by blocking the binding of activators or RNA polymerase, recruiting corepressors, or modifying chromatin to a less accessible state, thereby preventing transcription machinery assembly.
Introduce the concept of chromatin structure, emphasizing that DNA is wrapped around histone proteins forming nucleosomes, which can be tightly packed (heterochromatin) or loosely packed (euchromatin), affecting accessibility of DNA to transcription factors.
Explain how activators can promote chromatin remodeling to open chromatin structure (e.g., by recruiting histone acetyltransferases), making DNA more accessible, while repressors can recruit histone deacetylases or other chromatin-modifying enzymes to condense chromatin and reduce transcription.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Role of Activators and Repressors in Transcription
Activators are proteins that increase transcription by binding to specific DNA sequences and facilitating the recruitment of RNA polymerase and transcription machinery. Repressors, conversely, bind to DNA to block or hinder the assembly of these components, reducing transcription initiation. Their interaction with promoter or enhancer regions directly influences gene expression levels.
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Transcription Initiation Mechanism
Transcription initiation involves the assembly of RNA polymerase and general transcription factors at the promoter region of a gene. This process is tightly regulated by various proteins, including activators and repressors, which modulate the accessibility and efficiency of the transcriptional machinery to start RNA synthesis.
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Chromatin Structure and Gene Regulation
Chromatin structure affects gene expression by controlling DNA accessibility. Tightly packed chromatin (heterochromatin) restricts access to transcription factors, repressing transcription, while loosely packed chromatin (euchromatin) allows activators and RNA polymerase to bind DNA more easily. Modifications like histone acetylation can alter chromatin to regulate transcription.
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