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Chapter 25: Phylogeny

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Chapter 25: Phylogeny & Systematics Phylogeny Evolutionary history of species or group of species **Attempting to construct the universal tree of life – PowerPoint PPT presentation

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Title: Chapter 25: Phylogeny


1
Chapter 25 Phylogeny Systematics
  • Phylogeny
  • Evolutionary history of species or group of
    species
  • Attempting to construct the universal tree of
    life

2
Information contributing to Phylogenics
  • Fossil record
  • Substantial but incomplete biased chronicle of
    evolutionary change
  • Systematics
  • analytical approach to understanding the
    diversity relationships of present day
    extinct organisms through morphological
    biochemical resemblances

3
Systematics
  • Morphological homologies
  • Similar bone structures indicate species share a
    common ancestor
  • Molecular homologies
  • Similarities in DNA, RNA, other molecules
    indicate species share a common ancestor
  • Potential problems for phylogeny Analogous
    structures (homoplasies) convergent evolution

4
Taxonomy
  • Ordered division of organisms into categories
    based on a set of characteristics used to assess
    similarities differences
  • Useful for phylogenic systematics
  • Binomial designations (Genus species)
  • Hierarchical classifications

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Phylogenetic Trees
  • Depict hypothesis about evolutionary
    relationships of a species in relative periods of
    time
  • Cladistics
  • Analysis of how species may be grouped into
    clades distinguishing analogous from homologous
    structures
  • Cladogram
  • Depicts patterns of shared characteristics, not
    necessarily evolutionary history
  • Can be converted to phylogenetic trees with
    support from fossils, biochemistry, etc.
  • Clade
  • Group of species in the phylogenetic tree that
    includes an ancestral species all its
    descendants

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Phylogenetic Trees
  • Monophyletic
  • Clade consists of ancestral species its
    descendants
  • Paraphyletic
  • Grouping in which information is missing on some
    members of the clade
  • Polyphyletic
  • Grouping of several species that lack a common
    ancestor

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Preparing phylogenetic trees
  • Ingroup
  • Species being studied
  • Outgroup
  • Species or group of species closely related to
    ingroup
  • Used to differentiate shared derived shared
    primitive characteristics
  • Shared primitive character
  • Trait shared beyond the taxon being defined
  • Shared derived character
  • Novelty trait of a clade
  • Maximum parsimony
  • Fewest number of evolutionary events occur to
    reach form of shared derived characteristics
  • Nature doesnt always follow easiest course ex.
    4 chamber heart
  • Maximum liklihood
  • Incorporate as much information as possible to
    reflect the most likely sequence of evolutionary
    events

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Evolutionary Diagrams depicting time
  • Phylogram
  • Present information about the sequence of events
    relative to each other
  • Branch length changes in DNA sequence which
    have occurred in that lineage
  • Ultrametric trees
  • Show sequence of evolutionary events in context
    of geologic time

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Molecular Clocks
  • Measures absolute time of evolutionary change
    based on observations that some genes other
    regions of genomes evolve at constant rates
  • DNA coding for rRNA changes relatively slowly-
    used to study relationships of distantly related
    species
  • DNA in mitochondria (mtDNA) evolves rapidly
    used to study recently diverged species
  • Orthologous genes
  • Homologous genes passed from one generation to
    the next but end up in different gene pools as a
    result of speciation
  • Ex. Beta globin genes in humans mice
  • Paralogous genes
  • Result from gene duplication in one genome
  • Ex. Olfactory genes

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Universal Tree of Life
  • Tree consists of 3 great domains
  • Bacteria
  • Archaea
  • Eukarya
  • Early history of the domains is not yet clear
  • Molecular systemactics clocks used to construct

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