week 18

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Created by
AliveCricket52237

Cards (50)

  • Molecular and Human Evolution
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  • Aims
    • Principles of molecular evolution
    • Application of molecular biology to evolutionary studies
    • Human evolution – classical and molecular studies
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  • Some major stages in the evolution of life
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  • Molecular Evolution
    • Problems with gaps in the fossil record
    • Especially soft bodied organisms and micro-organisms
    • Use DNA and protein sequences to study evolution
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    • Changes in DNA sequence
    • Changes in protein sequence
    • Evolution of gene families
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  • How do genomes evolve?
    1. Changes occur in the DNA sequence
    2. Mutations
    3. Recombination
    4. Changes must become FIXED in the population to be involved in evolution
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  • Stages of genome evolution
    • Individual with a mutation/change
    • Population
    • Mutation is lost
    • Mutation is FIXED in the population
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    • How do genomes evolve?
    • Changes occur in the DNA sequence
    • Especially soft bodied organisms and micro-organisms
    • Some DNA changes affect the protein sequence
    • Changes in the protein sequence can change the function of the protein
    • More complex evolutionary consequences
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  • Types of mutations
    • Simple base changes (GATC to GA, G, C)
    • Insertions (GATC to GAT, GGG, C)
    • Deletions (GA to T, C, GAC)
    • Chromosome rearrangments
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  • Using DNA to understand evolution
    1. Evolutionary time
    2. Living (extant) species
    3. Phylogenetic tree
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  • Phylogenetic tree

    • Homologous genes (identical function)
    • Aligned DNA sequences for comparison
    • Comparison of similarities between DNA sequences
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  • How do we construct a phylogenetic tree?
    1. Choose appropriate DNA sequences
    2. Align the DNA sequences
    3. Compare similarities between the DNA sequences
    4. Build the phylogenetic tree
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  • Example of comparing 4 species DNA sequences and calculating % similarity
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  • Building a similarity matrix
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  • Constructing a phylogenetic tree from the similarity matrix
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  • Rooted vs unrooted phylogenetic trees
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  • Examples
    • Mitochondrial DNA
    • Ribosomal RNA genes
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  • Mitochondrial DNA
    • Does not undergo recombination
    • Passed down the maternal line
    • Simplifies evolutionary interpretations
    • Good for identifying human evolution
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  • Ribosomal RNA genes

    • Key component of ribosomes
    • Ribosomes make proteins
    • Present in all life
    • Highly conserved in evolutionary terms
    • Good for evolutionary studies across the whole of life
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  • Ribosomal components
    • mRNA
    • Ribosome
    • Large subunit
    • Small subunit
    • Ribosomal RNA
    • rRNA genes (DNA)
    • Tandemly repeated genes
    • Highly conserved across species
    • Highly variable across species
    • (non-transcribed spacer)
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  • Ribosomal RNA genes

    Genes that encode ribosomal RNA, a key component of ribosomes
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  • mRNA
    Messenger RNA, which carries the genetic instructions from the nucleus to the ribosome
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  • Components of the ribosome
    • Large subunit
    • Small subunit
    • Ribosomal RNA
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  • rRNA genes (DNA)
    The DNA sequences that encode ribosomal RNA
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  • Ribosomal RNA genes
    • Tandemly repeated genes
    • Highly conserved across species
    • Highly variable across species
    • (non-transcribed spacer)
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  • Gene families
    Families of related genes that produce proteins with related but different functions
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  • Gene family example
    • Haemoglobin genes (α1, α2, β, δ)
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  • Haemoglobin genes have a critical function of carrying oxygen around the body
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  • Haemoglobin genes

    • α1
    • α2
    • β
    • δ
    • γ
    • ζ
    • ε
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  • Pseudogenes
    Genes that have lost their function
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  • Pseudogenes are referred to with the Greek letter psi (Ψ)
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  • Characteristics of humans
    • Bipedal
    • Tooth conformation
    • Increased brain size
    • Cultural behaviour
    • Language
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  • Hominins
    Humans and our close extinct relatives
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  • Hominids
    The family that includes orangutans, gorillas, chimpanzees and humans
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  • Taxonomic groups
    • Family: Hominidae
    • Subfamily: Homininae
    • Tribe: Hominini
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  • Sahelanthropus tchadensis fossils found in Chad, Africa
    1. 7 million years ago
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  • Australopithecus afarensis ("Lucy") fossils found
    1. 3 million years ago
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  • Homo habilis fossils found alongside tools
    2.5 million years ago
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  • Brain volume
    Increases relative to body weight in hominins
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  • Homo erectus fossils found outside Africa
    1.8 million years ago
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