phylogenetics brian o’meara eeb464 fall 2015
TRANSCRIPT
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Phylogenetics
Brian O’MearaEEB464 Fall 2015
http
://xkcd
.com
/287/
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Learning objectives• Why bother with phylogenies
• Questions we can answer using these techniques
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Characters Taxa
Ancestral (maybe
"primitive", though please
don't)
Basal
Derived Derived
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4
© Doug Stone
© Doug Stone
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© Doug Stone
© Doug Stone
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© Doug Stone
© Doug Stone
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© Doug Stone
© Doug Stone
7 origins of agriculture
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8
© Doug Stone
© Doug Stone
7 origins of agriculture
8 origins of inbreeding
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© Doug Stone
© Doug Stone
7 origins of agriculture
Angiosperm Conifer
5200 180
119 11
1500 195
8 origins of inbreeding
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Willi Hennig, Phylogenetic Systematics, 1966. p. 19
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Willi Hennig, Phylogenetic Systematics, 1966. p. 71
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evolutionphylogen*
2007
phylogen*29,28238%
evolution77,816100%
ecolog*62,76182%
ecolog*
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Select clade & genes
Pull sequences from GenBank
Filter sequences
Test and fix orthology
Filter again
Do subalignments
Do overall alignment
Infer phylogeny
Smith, Beaulieu, and Donoghue. Mega-phylogeny approach for comparative biology: an alternative to
supertree and supermatrix approaches. BMC Evol Biol
(2009) vol. 9 pp. 37
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http
://xkcd
.com
/287/
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99% of mammal species (summary tree
shown)
Bininda-Emonds et al. The delayed rise of present-day mammals. Nature (2007)
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Pagel. Human language as a culturally transmitted replicator.
Nature Reviews Genetics (2009) vol. 10 (6) pp. 405-415
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©2009 S. Blair Hedges & Sudhir Kumar (The TimeTree of Life)
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Smith et al. 2009
13,533 species
Needed 32 GB of RAM to run
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N
N
Number of atoms in the universe
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HD TV: 1920 × 108013,533 names
largest computer monitors: 3280×2048 (can be tiled)
Laser printer: effectively 3600 × 4725 (can be
tiled)
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5 fly species
Differ in body color and eye color
What is history of trait evolution?
The orange ones feed on oranges. Did they become orange to better feed on oranges (camouflage), or were they already that color?
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Simple reconstruction: parsimony. Minimize changes.(look at body color alone for example)
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Simple reconstruction: parsimony. Minimize changes.One possible reconstruction:
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Simple reconstruction: parsimony. Minimize changes.One possible reconstruction:
2 changes (both orange to purple)
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Simple reconstruction: parsimony. Minimize changes.One possible reconstruction:
2 changes (both orange to purple)
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Simple reconstruction: parsimony. Minimize changes.A different reconstruction:
1 change (purple to orange)More parsimonious
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What is history of trait evolution?
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5 fly species
Differ in body color and eye color
What is history of trait evolution?
The orange ones feed on oranges. Did they become orange to better feed on oranges (camouflage), or were they already that color?
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Did they become orange to better feed on oranges, or were they already that color?
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Did they become orange to better feed on oranges, or were they already that color?
Want tree is calibrated to time (chronogram)
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Did they become orange to better feed on oranges, or were they already that color?
Want tree is calibrated to time (chronogram)
0
10
20
30MYA
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Did they become orange to better feed on oranges, or were they already that color?
0
10
20
30MYA
Oranges evolve
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Did they become orange to better feed on oranges, or were they already that color?
0
10
20
30MYA
Oranges evolve
Orange color evolves AFTER orange fruit does. Consistent with hypothesis.
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If different tree, different reconstruction
0
10
20
30MYA
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If different tree, different reconstruction
0
10
20
30MYA
Oranges evolve
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If different tree, different reconstruction
0
10
20
30MYA
Oranges evolve
Orange color evolves BEFORE orange fruit does. Rejects hypothesis.
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Amazing power of phylogenetics for trait evolution:• Once you have a tree...• And observations of extant organisms...•You can make inferences about processes happening millions of years ago.
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Ackerly and Reich. Convergence and correlations among leaf size and function in seed plants: a comparative test using independent contrasts. Am. J. Bot. (1999) vol. 86 (9) pp. 1272-1281
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Ackerly and Reich. Convergence and correlations among leaf size and function in seed plants: a comparative test using independent contrasts. Am. J. Bot. (1999) vol. 86 (9) pp. 1272-1281
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Ackerly and Reich. Convergence and correlations among leaf size and function in seed plants: a comparative test using independent contrasts. Am. J. Bot. (1999) vol. 86 (9) pp. 1272-1281
Small, long-lived
Big, short-lived
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Bromham and Penny. The modern molecular clock. Nature Reviews Genetics (2003) vol. 4 (3) pp. 216-224. Figure after Fleisher et al. Evolution on a volcanic conveyor belt: using phylogeographic reconstructions and K-Ar based ages of the Hawaiian islands to estimate molecular evolutionary rates. Mol Ecol (1998)
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Organ et al. Origin of avian genome size and structure in non-avian dinosaurs. Nature (2007) vol. 446 (7132) pp. 180-4
Here we use a novel bayesian comparative method to show that bone-cell size correlates well with genome size in extant vertebrates, and hence use this relationship to estimate the genome sizes of 31 species of extinct dinosaur, including several species of extinct birds. Our
results indicate that the small genomes typically associated with avian flight evolved in the saurischian dinosaur lineage between 230 and 250 million years ago, long before this lineage gave rise to the first birds. By comparison, ornithischian dinosaurs are inferred to have had much
larger genomes, which were probably typical for ancestral Dinosauria. Using comparative genomic data, we estimate that genome-wide interspersed mobile elements, a class of repetitive DNA, comprised 5-12% of the total genome size in the saurischian dinosaur lineage, but was
7-19% of total genome size in ornithischian dinosaurs, suggesting that repetitive elements became less active in the saurischian lineage.
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Smith and Donoghue. Rates of Molecular Evolution Are Linked to Life History in Flowering Plants. Science (2008)
Trees/shrubs
Herbs
Su
bst
ituti
ons/
MY
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Boc et al. Inferring and Validating Horizontal Gene Transfer Events Using Bipartition Dissimilarity. Syst Biol (2010) vol. 59 (2) pp. 195-211
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Peter Zhang after Adams & Wendel, 2005; Cui et. al, 2006; Wolfe, 2001.
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Young et al. Development and the evolvability of human limbs. P Natl Acad Sci Usa (2010) vol. 107 (8) pp. 3400-3405
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Smith and Donoghue. Combining Historical Biogeography with Niche Modeling in the Caprifolium Clade of Lonicera (Caprifoliaceae, Dipsacales). Syst Biol (2010) vol. 59 (3) pp. 322-341
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Smith and Donoghue. Combining Historical Biogeography with Niche Modeling in the Caprifolium Clade of Lonicera (Caprifoliaceae, Dipsacales). Syst Biol (2010) vol. 59 (3) pp. 322-341
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Smith and Donoghue. Combining Historical Biogeography with Niche Modeling in the Caprifolium Clade of Lonicera (Caprifoliaceae, Dipsacales). Syst Biol (2010) vol. 59 (3) pp. 322-341
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US FWS
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✦ Estimate rates A, B, and C
✦ Stretch tree based on these rates
✦ Estimate states on stretched tree
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54
Currie et al. 2010 Nature
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55
Currie et al. 2010 Nature
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Smith & Wheeler 2006
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Alfaro et al. Nine exceptional radiations plus high turnover explain species diversity in jawed vertebrates. P Natl Acad Sci Usa (2009) vol. 106 (32) pp. 13410-13414
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What questions could we address
using these techniques?