Biology: Control of gene expression Flashcards
what is base substitution and what can happen as a result?
-a nucleotide in a section of DNA is replaced by another.
POSSIBLE CONSEQUENCES:
- formation of a stop codon, polypeptide formation stops prematurely.
- formation of a different amino acid
what is base deletion and what can happen as a result?
-a nucleotide in a section of DNA is removed
POSSIBLE CONSEQUENCES:
- frameshift: bases move by 1 to the left, can result in the formation of a completely different polypeptide.
- can form a stop codon
what is base addition and what can happen as a result?
-a nucleotide is added to a section of DNA.
POSSIBLE CONSEQUENCES:
- can cause a frameshift as bases move to the right.
- can form a stop codon.
what is base inversion and what can happen as a result?
-a group of bases detach from the DNA sequence and rejoin in reverse order. can effect the amino acid formed.
what is base translocation and what can happen as a result?
-a group of bases detach from the DNA sequence and attach to a different chromosome. can lead to an abnormal phenotype, can cause infertility and other health problems.
what are some causes of mutations? explain each
- ionizing radiation: can disrupt the structure of DNA
- chemicals: some chemicals can disrupt DNA structure or interfere with transcription.
how do cells differentiate from an embryo?
- as an embryo, cells are the same, but totipotent.
- totipotent cells have the potential to develop into any type of cell.
- not all embryo cells go towards developing the foetus, some are used to make the placenta and umbilical cord.
- because the cells are totipotent, they take a number of different forms and differentiate, this means that the foetus can develop organs etc.
what are stem cells?
cells which retain the ability to differentiate into other cells (not many in mature mammals).
where can stem cells originate from in mammals?
embryonic stem cells: come from the embryo in early stages of development.
umbilical cord blood stem cells: derived from umbilical cord blood and are similar to adult stem cells.
placental stem cells: found in the placenta and develop into specific types of cells.
-adult stem cells: specific to a particular tissue or organ, not totipotent.
what are pluripotent stem cells and how can they be used to treat disorders?
- found in the embryo and can differentiate into almost any type of cell.
- can be used to regrow damaged tissue or to cure paralysis.
what is the effect of oestrogen on transcription?
- it’s a liquid-soluble molecule, it diffuses early through the phospholipid bilayer.
- once inside the cytoplasm, it binds with a site on a receptor molecule of the transcriptional factor. the shape of this site and the shape of oestrogen complement one another.
- it changes the shape of the DNA binding site on the transcriptional factor.
- the transcriptional factor can now enter the nucleus, binding to specific base sequences on DNA.
- this stimulates the transcription of a gene that makes up the portion of DNA.
define epigenetics
environmental factors causing heritable changes in gene function without changing the base sequence of DNA.
What is the epigenome?
chemical tags surrounding histones. determines the shape of the DNA-histone complex. these chemical tags respond to environmental changes.
what is the chromatin made up of?
DNA and histones.
what does deacetylation of histones cause?
increases attraction between histones and DNA, making it inaccessible to transcription factors. the gene is ‘switched off’.
