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Mutations. These are errors made in the DNA sequence that are inherited. These may have negative side effects, no side effects or positive side effects. Negative side-effects. Some mutations may lead to a the development of a disease.
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Mutations • These are errors made in the DNA sequence that are inherited. • These may have negative side effects, no side effects or positive side effects.
Negative side-effects • Some mutations may lead to a the development of a disease. • Cystic fibrosis – mutation in the cystic fibrosis transmembrane regulator
Positive Mutations • The human brain occurred through mutation. • Caused a natural selection and the larger brains prevailed.
No effect • The side effect may not surface immediately – especially eukaryotes • We are diploid organisms meaning that we cancel the mutations out. • If humans were haploid in nature much of the world population would be gone as we carry so many mutations.
Types of Mutations • Silent mutations • No effect on the operation of the cell • Usually occurs in the introns of DNA • This means that post-transcription modification removes this mutation
Mutation can also be silenced through the redundant nature of the genetic code. • Eg. Phenylalanine – UUU, UUC on mRNA • Mistakes made during transcription or if a mutation is made and the third base is replaced with a G instead of an A – phenylalanine will still be created.
Missense mutation • A mutation that results in the single substitution of one amino acid in the resulting polypeptide • Change in the base sequence of DNA alters a codon – leading to a different amino acid in the sequence. • Sickle cell anemia
Normal red blood cell • Round flexible able to pass through tiny blood vessels.
Sickle cell • Looses flexibility • Is rigid and blocks blood vessesls depriving the area of blood supply
Nonsense mutations • Mutation that converts a codon for an amino acid into a termination codon. • During translation only part of the protein will be created and the fragment may be digested by proteases. • Often lethal to the cell
Substitution and Deletion • Missense and nonsense mutations occur because of substitutions or deletions of a base pair. • Substitution – replacement of one base in a DNA sequence by another base • Deletion – the elimination of a base pair or group of base pairs for a DNA sequence. • Point mutations – if only one base pair.
By removing a base pair, it results in different base pairs being read. • This will cause a drastic change in protein structure.
Insertion • The placement of an extra nucleotide in a DNA sequence. • Because DNA is read in triplets of nucleotides, and will cause different amino acids.
Frameshift Mutations • Causes the reading frame of codons to change • This results in different amino acids being incorporated into the polypeptide. • Insertion and deletion can be considered Frameshift mutations, if they result in less than three codons being shifted. • 3 nucleotides can be less serious.
Translocation • The transfer of a fragment of DNA from one site in the genome to another location. • A segment of a chromosome breaks and releases a fragment – this happens as the same thing is happening to another chromosome. • The two fragments switch places – disrupting normal gene structure.
This new segment can be transcribed and translated. • New protein with an altered function. • Some leukemia are a result of this.
Transposable Elements • Segments of DNA that are replicated as a unit from one location to another on chromosomal DNA • They move from one location to another, making genes inactive. • Various colours of Indian corn are a result of Transposable genes - McClintock
Inversion • Reversed its orientation in the chromosome • No gain or loss of genetic material. • Some genes may be disrupted.