Evolutionary Biology Concepts
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07/04/22 Chuck Staben 1 Evolutionary Biology Concepts Evolutionary Biology “What is behind is not important!”- or is it? Phylogenetic Inference
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Evolutionary Biology Concepts. Evolutionary Biology “What is behind is not important!”- or is it? Phylogenetic Inference. Evolution. Change in living organisms via reproduction. Branching Descent. Evolutionary Tree. Family Tree. Phylogeny. - PowerPoint PPT Presentation
Transcript of Evolutionary Biology Concepts
04/24/23 Chuck Staben 1
Evolutionary Biology Concepts
Evolutionary Biology“What is behind is not important!”-
or is it?Phylogenetic Inference
04/24/23 Chuck Staben 2
Evolution
04/24/23 Chuck Staben 3
Branching Descent
04/24/23 Chuck Staben 4
Phylogeny
Branching diagram showing the ancestral relations among species.
“Tree of Life”
History of evolutionary change
04/24/23 Chuck Staben 5
Phylogenetic Inference
04/24/23 Chuck Staben 6
Mom-Inferred vs Real
•“Blonde” Phenotype•Recombination
•Male/hair color•Multigenic hair color?•Potential Asexual Propagation
•Date of vasectomy?
courtesy, Ms. J. Rae Staben
04/24/23 Chuck Staben 7
Inheritance
DNARNA Protein Function
04/24/23 Chuck Staben 8
Phylogenetic TreesA B C D E F
04/24/23 Chuck Staben 9
More TreesA B C D E F
04/24/23 Chuck Staben 10
Trees-3A B C D E F
04/24/23 Chuck Staben 11
Rooted vs Unrooted Trees
04/24/23 Chuck Staben 12
ExtinctionA B C D E F
04/24/23 Chuck Staben 13
Evolutionary Genetic Forces
• Natural Selection (fitness)• Drift (homozygosity by chance)
– much greater in small populations• Mutation/Recombination (variation)• Migration
– homogenizes gene pools
Hardy-Weinberg Paradigmp+q=1
p2 + 2pq + q2 =1
04/24/23 Chuck Staben 14
DNA, protein sequence change
Rate=1 change/6 aa sites per 108 yrsRate=0.16 x 10-9 yrs
(normal ~ 1 per 10-9 yrs per site)
04/24/23 Chuck Staben 15
Multiple Changes/No Change
..CCU AUA GGG..
..CCC AUA GGG..
..CCC AUG GGG..
..CCC AUG GGC..
..CCU AUG GGC..
..CCU AUA GGC..
5 mutations1 DNA change
0 amino acid changes (net)
04/24/23 Chuck Staben 16
Mechanisms of DNA Sequence Change
Neutral Drift vs Natural Selection• For a 1000 base gene, 41000 sequences!
04/24/23 Chuck Staben 17
Rate varies Gene-to-Gene
Protein Rate (x 109 yr)
Lysozyme 2.0
Insulin 0.4
Histone H4 0.01
04/24/23 Chuck Staben 18
Rate varies Site-to-Site
Protein Coding Silent
Albumin 0.9 6.7
HistoneH4
0.03 6.1
Average 0.9 4.6
04/24/23 Chuck Staben 19
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
04/24/23 Chuck Staben 20
Neutralism in Eukaryotes vs Prokaryotes-“Slightly deleterious mutations” Models
04/24/23 Chuck Staben 21
Evolutionary Genetic Forces
• Natural Selection (fitness)• Drift (homozygosity by chance)
– much greater in small populations• Mutation/Recombination (variation)• Migration
– homogenizes gene pools
Hardy-Weinberg Paradigmp+q=1
p2 + 2pq + q2 =1
04/24/23 Chuck Staben 22
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
04/24/23 Chuck Staben 23
Homology, Orthology, Paralogy
04/24/23 Chuck Staben 24
Paralogy Trap
04/24/23 Chuck Staben 25
Improper Inference
04/24/23 Chuck Staben 26
Convergence
04/24/23 Chuck Staben 27
Our Goals
• Infer Phylogeny– Optimality criteria– Algorithm
• Phylogenetic inference– (interesting ones)
04/24/23 Chuck Staben 28
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.”
