3.4.1 Transcription Factors

    Cards (103)

    • Which transcription factor is released upon phosphorylation of IκB?
      NF-κB
    • Phosphorylation of p53 enhances its binding to target genes.
    • Match the mechanism of transcription factor recruitment with its description:
      DNA-binding specificity ↔️ Transcription factors bind to specific DNA sequences
      Cofactor interactions ↔️ Transcription factors interact with other proteins
      Chromatin modifications ↔️ Changes to chromatin structure affect recruitment
    • Transcription factors are proteins that bind to specific DNA sequences to control the rate of transcription
    • Activators enhance transcription by recruiting RNA polymerase.
    • Repressors inhibit transcription by preventing RNA polymerase from binding
    • Match the type of transcription factor with its function:
      Activators ↔️ Enhance transcription
      Repressors ↔️ Inhibit transcription
    • Activators promote the recruitment of RNA polymerase to the gene's promoter
    • Transcription factors regulate whether a gene is turned on or off.
    • What is the function of activators in transcription?
      Enhance transcription
    • Repressors prevent RNA polymerase from binding
    • Match the type of transcription factor with its effect on RNA polymerase binding:
      Activators ↔️ Promote binding
      Repressors ↔️ Prevent binding
    • Repressors directly inhibit RNA polymerase from binding to DNA.
    • Activators increase transcription by recruiting RNA polymerase
    • What are transcription factors?
      Proteins binding to DNA
    • Transcription factors regulate the rate of transcription
    • Repressors inhibit transcription by preventing RNA polymerase from binding
    • What does RNA polymerase bind to during transcription initiation?
      Gene's promoter region
    • Transcription factors typically contain a DNA-binding domain.
    • Some transcription factors have additional domains such as an activation or repression domain.
    • What might an activation domain of a transcription factor interact with?
      Other proteins
    • The DNA-binding domain of a transcription factor recognizes specific DNA sequences.
    • Match the domain of a transcription factor with its function:
      DNA-binding domain ↔️ Recognizes specific DNA sequences
      Activation domain ↔️ Enhances transcription
      Repression domain ↔️ Inhibits transcription
    • A transcription factor with a DNA-binding domain that recognizes the sequence "ATGCG" will bind to that sequence
    • What is the primary function of repressors in transcription?
      Inhibit transcription
    • Transcription factors determine whether a gene is turned on or off.
    • What is the role of transcription factors in gene expression?
      Regulate rate of transcription
    • Activators enhance transcription
    • Repressors inhibit transcription.
    • The binding of an activator to a specific DNA sequence can initiate transcription by recruiting RNA polymerase.
    • What are the two main types of transcription factors?
      Activators and repressors
    • Activators promote the recruitment of RNA polymerase
    • What is the role of the DNA-binding domain in transcription factors?
      Binds to specific DNA
    • Repression domains in transcription factors facilitate their role as repressors.
    • The DNA-binding domain of transcription factors recognizes specific DNA sequences
    • What is the function of the activation or repression domain in transcription factors?
      Enhance or inhibit transcription
    • What is the primary function of the DNA-binding domain in transcription factors?
      Recognizes specific DNA sequences
    • Transcription factors with an activation domain act as activators
    • The DNA-binding domain of a transcription factor enhances gene transcription.
    • The specific structure of transcription factors enables them to regulate gene expression
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