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Evolutionary Biology Concepts

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Presentation on theme: "Evolutionary Biology Concepts"— Presentation transcript:

1 Evolutionary Biology Concepts
“What is behind is not important!”- or is it? Molecular Evolution Phylogenetic Inference 2/23/2019 Chuck Staben

2 Change in living organisms via reproduction
Evolution Change in living organisms via reproduction "Change over time"-Kentucky School Boards 2/23/2019 Chuck Staben

3 Levels of Evolution Species Population Organismal Molecular
gene frequencies Organismal genomic Molecular 2/23/2019 Chuck Staben

4 Branching Descent Evolutionary Tree Family Tree 2/23/2019 Chuck Staben

5 FRAMEWORK for INFERENCE
Phylogeny Branching diagram showing the ancestral relations among species. “Tree of Life” History of evolutionary change FRAMEWORK for INFERENCE 2/23/2019 Chuck Staben

6 Phylogenetic Inference
Mom's hair color? Which form of reproduction? 2/23/2019 Chuck Staben

7 courtesy, Ms. J. Rae Staben
Mom-Inferred vs Real “Blonde” Phenotype Recombination Male/hair color Multigenic hair color? Potential Asexual Propagation Date of vasectomy? courtesy, Ms. J. Rae Staben 2/23/2019 Chuck Staben

8 Inferring the Framework
How do we describe phylogenies? How do we infer phylogenies? 2/23/2019 Chuck Staben

9 DNA Inheritance RNA Protein Function Classical Phylogeny
Molecular Phylogeny Classical Phylogeny 2/23/2019 Chuck Staben

10 Phylogenetic Trees Sister Taxa Terminal Taxa Node Internode Ancestor
B C D E F Terminal Taxa Internode Node Ancestor Root 2/23/2019 Chuck Staben

11 More Trees Paraphyletic Group Clade Monophyletic Group A B C D E F
2/23/2019 Chuck Staben

12 Trees-3 A B C D E F Polyphyletic Group 2/23/2019 Chuck Staben

13 Rooted vs Unrooted Trees
Add Root 2/23/2019 Chuck Staben

14 Extinction A B C D E F 2/23/2019 Chuck Staben

15 Speciation Poorly understood Reproductive isolation/divergence
“…the mystery of mysteries…”-Darwin Reproductive isolation/divergence 2/23/2019 Chuck Staben

16 Population Genetic Forces
Hardy-Weinberg Paradigm p+q=1 p2 + 2pq + q2 =1 Natural Selection (fitness) Drift (homozygosity by chance) much greater in small populations Mutation/Recombination (variation) Migration homogenizes gene pools 2/23/2019 Chuck Staben

17 DNA, protein sequence change
Rate=1 change/6 aa sites per 108 yrs Rate=0.16 x 10-9 yrs (normal ~ 1 per 10-9 yrs per site) 2/23/2019 Chuck Staben

18 Multiple Changes/No Change
..CCU AUA GGG.. ..CCC AUA GGG.. ..CCC AUG GGG.. ..CCC AUG GGC.. ..CCU AUG GGC.. ..CCU AUA GGC.. 5 mutations 1 DNA change 0 amino acid changes (net) Underestimate Evolution 2/23/2019 Chuck Staben

19 Mechanisms of DNA Sequence Change
Neutral Drift vs Natural Selection For a 1000 base gene, sequences! Selection (Jukes) Neutral (Kimura) 2/23/2019 Chuck Staben

20 Rate varies Gene-to-Gene
2/23/2019 Chuck Staben

21 Rate varies Site-to-Site
Coding>Silent??? 2/23/2019 Chuck Staben

22 Constraints on “Silent” Changes
Codon Biases-translation rates Transcription elongation rates polymerase ‘pause’ sites “Silent” regulatory elements select for or against presence/absence Overall genome structure 2/23/2019 Chuck Staben

23 Coding/noncoding can be flexible?
Neutralism in Eukaryotes vs Prokaryotes- “Slightly deleterious mutations” Models Most non-coding sites are neutral? Coding/noncoding can be flexible? Reconsider evolutionary mechanisms? 2/23/2019 Chuck Staben

24 Evolutionary Genetic Forces
Hardy-Weinberg Paradigm p+q=1 p2 + 2pq + q2 =1 Natural Selection (fitness) Drift (homozygosity by chance) much greater in small populations Mutation/Recombination (variation) Migration homogenizes gene pools Genome Recombination? 2/23/2019 Chuck Staben

25 DNA, Protein Similarity
Similarity by common descent phylogenetic Similarity by convergence functional importance Similarity by chance random variation not limitless particular problem in wide divergence 2/23/2019 Chuck Staben

26 Homology-similar by common descent
2/23/2019 Chuck Staben

27 Inferring Trees and Ancestors
CCCAGG CCCAAG-> CCCAAG CCCAAA-> CCTAAA CCTAAA-> CCTAAC MANY traps, problems 2/23/2019 Chuck Staben

28 Homology, Orthology, Paralogy
Paralogs Orthologs 2/23/2019 Chuck Staben

29 Paralogy Trap 2/23/2019 Chuck Staben

30 Improper Inference Man is a mouse, not a rat! 2/23/2019 Chuck Staben

31 Convergence Globin Common Ancestor Convergence Leghemoglobin 2/23/2019
Chuck Staben

32 Our Goals Infer Phylogeny Phylogenetic inference Optimality criteria
Algorithm Phylogenetic inference (interesting ones) 2/23/2019 Chuck Staben

33 Watch Out “The danger of generating incorrect results is inherently greater in computational phylogenetics than in many other fields of science.” “…the limiting factor in phylogenetic analysis is not so much in the facility of software applicaition as in the conceptual understanding of what the software is doing with the data.” 2/23/2019 Chuck Staben

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