DNA Mutations Flashcards
Explain ‘gene mutation’.
Change in sequence of bases in DNA of a gene
Explain ‘ chromosomal aberration’.
Change to chromosome structure or change to chromosome number
Transition mutation
Replacement of purine/pyrimidine base with another purine/pyrimidine base
Transversion mutation
Replacement of purine/pyrimidine base with pyrimidine/purine base
Missense mutation
- results in codon encoding different amino acid
- polypeptide produced is altered in structure and function
Silent mutation
- alteration of one codon to another, that still encodes for the same amino acid (due to degeneracy of geentic code)
- no observable effect on phenotype
Neutral mutation
- alteration of one codon to another, that encodes for a different amino acid
- no effect on phenotype, no detectable change in protein
- could have occured in part that is non-essential to protein structure and function, or replacement with amino acid with another having similar properties
Nonsense mutation
- change codon to a stop codon
- production of truncated polypeptide and thus non-functional protein
Frameshift mutation
- nucleotide-pair insertion or deletion causes shift in reading frame; codons downstream improperly grouped into triplets, altering amino acid sequence
- may cause generation of premature stop codon
- non-functional proteins unless it occurs at/near end of gene
Define: Aneuploidy
Chromosomal abberation in which one or more chromosomes are present in extra copies or deficient in number
Define: Polyploidy
Condition of the nucleus where there are 3 or more complete sets of chromosomes
Types of polyploidy
- Autopolyploidy
- Allopolyploidy
Define: Autopolyploid
Contains more than 2 chromosome sets derived from SINGLE species
Define: Allopolyploid
Contains multiple sets of chromosome sets derived from TWO OR MORE species, forming a hybrid
Explain how gene mutations result in sickle cell anaemia.
- single nucleotide substitution in 6th DNA triplet on non-coding DNA strand for β chain of haemoglobin, changing CTT to CAT
- when transcribed, mRNA’s 6th codon altered from GAA to GUA; GAA encodes glutamic acid while GUA encodes valine
- thus, polypeptide of resultant β-globin chain has non-polar, hydrophobic valine instead of polar glutamic acid
- presence of valine makes HbS less soluble; at low O2 concentrations, when O2 is released, valine forms hydrophobic patch that fits into hydrophobic pocket in other haemoglobin molecules
- haemoglobin containing the abnormal β-globin HbS has altered quaternary structure that causes haemoglobin molecules to polymerise and form rigid rod-like fibres that distort red blood cells, making them sickle-shaped
