3.8.2.2 - Regulation of transcription and translation Flashcards
Topic 8
What are transcription factors?
- (Protein / molecule) that moves from cytoplasm to DNA;
- (TF) binds to specific gene / genes / to specific part of / site on DNA / binds to promoter / RNA polymerase;
- can eaither Lead to or block (pre)mRNA production by allowing or blocking binding of RNA polymerase (to DNA) / allowing RNA polymerase to work;
Describe how transcription can be regulated using transcription factors
- Transcription factors move from cytoplasm to nucleus
- Bind to DNA at a specific DNA base sequence on a promoter region (before / upstream of target gene)
- This stimulates or inhibits transcription (production of mRNA) of target gene(s) by helping or preventing RNA polymerase binding
Explain how oestrogen affects transcription
- Oestrogen is a lipid-soluble steroid hormone so diffuses into
cell across the phospholipid bilayer - In cytoplasm, oestrogen binds to its receptor, an inactive transcription factor, forming an oestrogen-receptor complex
- This changes the shape of the inactive transcription factor,
forming an active transcription factor - The complex diffuses from cytoplasm into the nucleus
- Then binds to a specific DNA base sequence on the promoter
region of a target gene - Stimulating transcription of target genes forming mRNA by
helping RNA polymerase to bind
Explain why oestrogen only affects target cells
Other cells do not have oestrogen receptors
Describe what is meant by epigenetics
● Heritable changes in gene function / expression without changes to the base sequence of DNA
● Caused by changes in the environment (eg. diet, stress, toxins)
Describe what is meant by epigenome
All chemical modification of DNA and histone proteins - methyl groups on DNA and acetyl groups on histones
Summarise the epigenetic control of gene expression in eukaryotes
- To inhibit transcription
> Methylation of DNA Increased
> Acetylation of histones Decreased - To allow transcription
> Methylation of DNA Decreased
> Acetylation of histones Increased
Explain how methylation can inhibit transcription
- Increased methylation of DNA - methyl
groups added to cytosine bases in DNA - So nucleosomes (DNA wrapped around
histone) pack more tightly together - Preventing transcription factors and
RNA polymerase binding to promoter
Explain how acetylation can inhibit transcription
- Decreased acetylation of histones
increases positive charge of histones - So histones bind DNA (negatively
charged) more tightly - Preventing transcription factors and
RNA polymerase binding to promoter
Explain the relevance of epigenetics on disease development and treatment
● Environmental factors (eg. diet, stress, toxins) can lead to epigenetic changes
● These can stimulate / inhibit expression of certain genes that can lead to disease development
○ Increased methylation of DNA OR decreased acetylation of histones inhibits transcription
○ Decreased methylation of DNA OR increased acetylation of histones stimulates transcription
● Diagnostic tests can be developed that detect these epigenetic changes before symptoms present
● Drugs can be developed to reverse these epigenetic changes
What is RNA interference (RNAi)?
● Inhibition of translation of mRNA produced from target genes, by RNA molecules eg. siRNA, miRNA
● This inhibits expression of (silencing) a target gene
> This happens in eukaryotes and some prokaryotes
Describe the regulation of translation by RNA interference
- Small interfering RNA (siRNA) or micro-RNA (miRNA) is incorporated into / binds to a protein, forming an RNA-induced silencing complex (RISC)
○ siRNA synthesised as double-stranded RNA → 1 strand incorporated
○ miRNA synthesised as a double-stranded hairpin bend of RNA →
both strands incorporated - Single-stranded miRNA / siRNA within RISC binds to target mRNA with a
complementary base sequence - This leads to hydrolysis of mRNA into fragments which are then
degraded OR prevents ribosomes binding - Reducing / preventing translation of target mRNA into protein
