eeob 400: lecture 13 phylogeny outgroupaagcttcataggagcaaccattctaataataagcctcataaagcc species...
TRANSCRIPT
![Page 1: EEOB 400: Lecture 13 Phylogeny OutgroupAAGCTTCATAGGAGCAACCATTCTAATAATAAGCCTCATAAAGCC Species AAAGCTTCACCGGCGCAGTTATCCTCATAATATGCCTCATAATGCC Species BGTGCTTCACCGACGCAGTTGTCCTCATAATGTGCCTCACTATGCC](https://reader036.vdocument.in/reader036/viewer/2022062308/56649d0a5503460f949dc2ae/html5/thumbnails/1.jpg)
EEOB 400: Lecture 13
Phylogeny
Outgroup AAGCTTCATAGGAGCAACCATTCTAATAATAAGCCTCATAAAGCCSpecies A AAGCTTCACCGGCGCAGTTATCCTCATAATATGCCTCATAATGCCSpecies B GTGCTTCACCGACGCAGTTGTCCTCATAATGTGCCTCACTATGCCSpecies C GTGCTTCACCGACGCAGTTGCCCTCATGATGAGCCTCACTATGCA
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Extra credit
Using genetic markers to examine spatial and temporal variation in Ohio Canada Goose harvest composition
Dr. Kristin MylecraineThe Ohio State University
and Ohio Division of Natural Resources
Thursday November 912:00 PM, Lazenby 21
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Why is phylogeny important?
Understanding and classifying the diversity of life on Earth
Testing evolutionary hypotheses: - trait evolution - coevolution - mode and pattern of speciation - correlated trait evolution - biogeography - geographic origins - age of different taxa - nature of molecular evolution - disease epidemiology
…and many more applications!
Tree of life
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Phylogeny
What is a phylogeny?
Branching diagram showing relationships between species (or higher taxa) based on their shared common ancestors
Species: A B C D
Tim
e
A
B
C
DTime
A and B are most closely related because they share a common ancestor ( call the ancestor “E”) that C and D do not share
E
E
F
F
A+B+C are more closely related to each other than to D because they share a common ancestor (“F”) that D does not share
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Phylogeny
Terminal nodes = contemporary taxa
Internal nodes = ancestral taxa
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Phylogeny and classification
Hierarchy
All taxonomic classifications are hierarchical – how does phylogeny differ?
Class
Order
Family Family
Genus
Species 1Species 2Species 3Species 4
Species 1Species 2Species 3
Genus
Genus
Species 1Species 2
Order
Family
Genus
Species 1Species 2Species 3Species 4Species 5Species 6Species 7Species 8Species 9
Genus
Species 1Species 2
Species 1Genus
Species 1Species 2Species 3
Genus
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Hierarchy
Phylogenetic (cladistic) classification reflects evolutionary history
The only objective form of classification – organisms share a true evolutionary history regardless of our arbitrary decisions of how to classify them
Phylogeny and classification
Class
Order
Order
Family
Family
Family
Genus
Genus
Genus
Genus
Genus
Genus
FamilyGenus
Genus
PhylogenyClassification
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Phylogeny and classification
Classification
Note that taxa are nestedon the basis of sharedcommon ancestors
e.g., All tetrapods share a common ancestor withlegs, but other chordatesoutside of Tetrapoda donot share this commonancestor
The traits mapped ontothe phylogeny aresynapomorphies – we will return to them later
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Phylogeny and classification
Monophyletic group
Includes an ancestorall of its descendants
A B C D
Paraphyletic group
Includes ancestor and some, but not all of its descendants
A B C D
Polyphyletic group
Includes two convergentdescendants but not theircommon ancestor
A B C D
Taxon A is highly derivedand looks very differentfrom B, C, and ancestor
How could this happen? Taxon A and C sharesimilar traits throughconvergent evolution
Only monophyletic groups (clades) are recognized in cladistic classification
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Phylogeny and classification
Monophyly
Each of the colored lineagesin this echinoderm phylogenyis a good monophyletic group
Asteroidea
Ophiuroidea
Echinoidea
Holothuroidea
Crinoidea Each group shares a commonancestor that is not shared by any members of another group
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Lindblad-Toh et al. (2005) Nature 438: 803-819
Paraphyletic groups
Paraphyly
“Foxes” are paraphyletic with respect to dogs, wolves, jackals, coyotes, etc.
This is a trivial example because “fox” and “dog” are not formal taxonomic units, but it does show that a dog or a wolf is just a derived fox in the phylogenetic sense
Foxes
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Lindblad-Toh et al. (2005) Nature 438: 803-819
Paraphyletic groups
Monophyly
Note that canids are still a good monophyletic clade within Mammalia
Each of the colored lineages withincanids is also a monophyletic clade
Canids
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Paraphyletic groups
Fry et al. (2006) Nature 439: 584-588
Paraphyly
“Lizards” (Sauria) areparaphyletic with respectto snakes (Serpentes)
Serpentes is a monophyleticclade within lizards
Squamata (lizards + snakes)is a monophyletic cladesister to sphenodontida
Snakes are just derived,limbless lizards
Lizards
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Paraphyletic groups
Paraphyly
Birds are more closely relatedto crocodilians than to otherextant vertebrates
Archosauria = Birds + Crocs
We think of reptiles as turtles,lizards, snakes, and crocodiles
But Reptilia is a paraphyleticgroup unless it includes Aves
Reptilia
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What does this mean?
It means that“reptiles” don’t
exist!
No, it means that you’re one
of us!
What it means is that “reptile” is only a valid clade if it includes birds
Birds are still birds, but Aves cannot be considered a “Class” equivalent toClass Reptilia because it is evolutionarily nested within Reptilia
Reptilia
Aves(birds)
Turtles
Crocodiles
Lizards and snakes
Tuataras
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Blood squirting? No Yes
Mapping evolutionary transitions
Some horned lizards squirt blood from their eyes when attacked by canids
How many times has blood-squirting evolved?
Testing evolutionary hypotheses
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Blood squirting? No Yes
Mapping evolutionary transitions
Some horned lizards squirt blood from their eyes when attacked by canids
How many times has blood-squirting evolved? This phylogeny suggests a single evolutioary gain and a single lossof blood squirting
Testing evolutionary hypotheses
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Leaché and McGuire. Molecular Phylogenetics and Evolution 39: 628-644
But a new phylogeny using multiple characters suggests that blood squirting has been lost many times in the evolution of this group
Our interpretation of these evolutionary scenarios depends on phylogeny
Testing evolutionary hypotheses
Mapping evolutionary transitions
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Leaché and McGuire. Molecular Phylogenetics and Evolution 39: 628-644
Testing evolutionary hypotheses
Reconstructing ancestral characters
This phylogeny also shows how we can usedata from living species to infer character states in ancestral taxa
??
Ancestral state could be blue, purple, or intermediate…outgroup comparisonindicates blue is most parsimonious
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Fry et al. (2006) Nature 439: 584-588
Testing evolutionary hypotheses
Mapping evolutionary transitions
How many times has venom evolved in squamate reptiles?
Once in the large “venom clade”
Groups within this clade thenevolved different venom types
e.g., different proteins found in Snakes versus Gila monsters
Even non-venomous lizards in thisclade (Iguania) share ancestral toxins
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Testing evolutionary hypotheses
Convergence and modes of speciation
What can this phylogeny tell us about homology/analogy and speciation?
Lake Tanganyika Lake Malawi
1. Similarities between each pair arethe result of convergence
2. Sympatric speciation more likely than allopatric speciation
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Testing evolutionary hypotheses
Clark et al. (2000)
Coevolution
Aphids and bacteria are symbiotic
Given this close relationship, we might expect that speciation in an aphid would cause parallel speciation in the bacteria
When comparing phylogenies for each group we see evidence for reciprocal cladogenesis (but also contradictions)
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Matsuoka et al. (2002)
A
B
Testing evolutionary hypotheses
Geographic origins
Where did domestic corn (Zea mays maize) originate?
Populations from Highland Mexico are at the base of each maize clade
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Testing evolutionary hypotheses
Geographic origins
Where did humans originate?
Each tip is one of 135 different mitochondrial DNA types found among 189 individual humans
African mtDNA types are clearly basal on the tree, with the non-African types derived
Suggests that humans originated in Africa
Vigilant et al. (1991) Science
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Reconstructing evolutionary history
Phenetic methods
Based on overall difference between taxa = “distance” methods
Only considers shared characters; not shared, derived characters
Suppose you use DNA hybridizationto compare DNA of 4 species
A differs from B by 4%A differs from C by 10%A differs from D by 10%…for all pairs
Use algorithm to find shortest tree
“Quick and dirty” method
Distance method will often recovertrees that are similar to cladistic trees,but it requires constant rate of evolutionor it will give erroneous groupings
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Reconstructing evolutionary history
Cladistic methods (Willi Hennig 1966)
Based on shared, derived characters = synapomorphies
Similarity is not enough – requires similarity reflecting descent with modification
Requires characters that can be assigned a particular character state
Characters and character states
Character: eye color Character states: blue, brown, green
mammary glands present, absent
number of legs 0, 2, 4, 6, 8, etc.
Molecular Characters nucleotide bases A, C, T, G
amino acid codons ACC, CGT, GAT, etc.
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Terminology
Polarity Distinguishing ancestral (0) from derived (1) = assigning polarity - polarity can be assessed by outgroup comparison
“Blue” and “square” are plesiomorphic A B C D
Plesiomorphy Character state found in ancestor of group
Apomorphy Derived character state in descendants of group
Symplesiomorphy Shared, ancestral character state
Synapomorphy Shared, derived character state (indicates homology)
“Small size” is an apomorphy for A
“Red” is a synapomorphy for A + B
“Circle” is a synapomorphy for A + B + C …but a symplesiomorphy for A + B
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Synapomorphy
Each character shown inpink is a synapomorphy
Shared - by all descendantsin the clade
e.g., all chordates share anotochord
Derived – not present in ancestral taxa
e.g., ancestral deuterostomelacks a notochord
Any clade must share at least one synapomorphy
Synapomorphy
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Synapomorphy
Many synapomorphies = stronger support
Few synapomorphies = weaker support
How can we tell how wella clade is supported?
In part, by the number ofsynapomorphies
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Homoplasy
Homoplasy
Taxa share a character, but not by descent from a common ancestor
Equivalent to analogy, homoplasy is a product of convergent evolution
Homoplasy gives the impression of homology (synapomorphy) and thereforemisleads phylogenetic analyses by supporting polyphyletic taxa
True phylogeny
Recovered phylogeny
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Homoplasy
Lake Tanganyika Lake Malawi
StripesSpotted caudal fin Yellow color
Recoveredphylogeny
Homoplasies that look likehomologies:
True phylogeny:Malawi cichlidsmonophyletic
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Morphological characters
Examples
Skull structure in cetaceans Genitalia in ants
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Morphological characters
Character: Pattern
Striped
Barred
Barred
Barred
Caudal Shape
Round
Forked
Forked
Round
Caudal Pattern
Spot
None
None
None
ForeheadBulge?
No
No
No
Yes
Constructing a character matrix
Suppose we want to know the phylogeny of cichlids A, B, C using an Outgroup
First, we need characters that are variable within this group
Out
A
B
C
Synapomorphies
Apomorphy
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Parsimony
How do we decide the “best” phylogeny?
Parsimony – the simplest explanation is preferred (Occam’s razor)
A trivial example (much more complicated with real datasets)
Round forked tail
No bump forehead bump
Round forked tail
Stripe barredSpot plain tail
Round forked tail
No bump forehead bump
Requires 5 steps Requires only 4 steps
Most parsimonious:
Stripe barredSpot plain tail
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1. Extract
OutgroupSpecies ASpecies BSpecies C
Molecular characters
2. Sequence
AAGCTTCATAGGAGCAACCATTCTAATAATAAGCCTCATAAAGCCAAGCTTCACCGGCGCAGTTATCCTCATAATATGCCTCATAATGCCGTGCTTCACCGACGCAGTTGTCCTCATAATGTGCCTCACTATGCCGTGCTTCACCGACGCAGTTGCCCTCATGATGAGCCTCACTATGCA
3. Align
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AAGCTTCATAGAGCTTCACAGTGCTTCACGGTGCTTCACG
OutgroupSpecies ASpecies BSpecies C
Molecular characters
Out
A
B
C
Invariable sites
These are not usefulphylogenetic characters
Out
A
B
C
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AAGCTTCATAGAGCTTCACAGTGCTTCACGGTGCTTCACG
OutgroupSpecies ASpecies BSpecies C
Molecular characters
Out
A
B
C
AG TC
Any mutations atthis time would affectA, B and C because they have not yet diverged
Synapomorphiessupporting A+B+C
Out
A
B
C
![Page 38: EEOB 400: Lecture 13 Phylogeny OutgroupAAGCTTCATAGGAGCAACCATTCTAATAATAAGCCTCATAAAGCC Species AAAGCTTCACCGGCGCAGTTATCCTCATAATATGCCTCATAATGCC Species BGTGCTTCACCGACGCAGTTGTCCTCATAATGTGCCTCACTATGCC](https://reader036.vdocument.in/reader036/viewer/2022062308/56649d0a5503460f949dc2ae/html5/thumbnails/38.jpg)
AAGCTTCATAGAGCTTCACAGTGCTTCACGGTGCCTCACG
OutgroupSpecies ASpecies BSpecies C
Molecular characters
Out
A
B
C
AG TC
Any mutations at this time would affect A and B
Synapomorphiessupporting A+B+C
AT AG
Synapomorphiessupporting B+C
Out
A
B
C
![Page 39: EEOB 400: Lecture 13 Phylogeny OutgroupAAGCTTCATAGGAGCAACCATTCTAATAATAAGCCTCATAAAGCC Species AAAGCTTCACCGGCGCAGTTATCCTCATAATATGCCTCATAATGCC Species BGTGCTTCACCGACGCAGTTGTCCTCATAATGTGCCTCACTATGCC](https://reader036.vdocument.in/reader036/viewer/2022062308/56649d0a5503460f949dc2ae/html5/thumbnails/39.jpg)
AAGCTTCATAGAGCTTCACAGTGCTTCACGGTGCCTCACG
OutgroupSpecies ASpecies BSpecies C
Molecular characters
Out
A
B
C
AG TC
Synapomorphiessupporting A+B+C
AT AG
Synapomorphiessupporting B+C
Out
A
B
C
Apomorphy for C
Any mutations at this time would only affect C TC
![Page 40: EEOB 400: Lecture 13 Phylogeny OutgroupAAGCTTCATAGGAGCAACCATTCTAATAATAAGCCTCATAAAGCC Species AAAGCTTCACCGGCGCAGTTATCCTCATAATATGCCTCATAATGCC Species BGTGCTTCACCGACGCAGTTGTCCTCATAATGTGCCTCACTATGCC](https://reader036.vdocument.in/reader036/viewer/2022062308/56649d0a5503460f949dc2ae/html5/thumbnails/40.jpg)
Molecular characters
Homoplasy is still a problem
There are only 4 possible character states for nucleotides: A G C T
Homoplasy arises when nucleotide mutates back to ancestral state: ATA
Out
A
B
C
AAGCTTCATAGAGCTTCACAGTGCTTCACGGTGCTTCACG
AG TC
AT AG
AAGCTTCATAGAGCTTCACAGTGCTTCACGGTGCTTCACG
TA
AAGCTTCATAGAGCTTCACAGTGCTTCACGGAGCTTCACG
Back-mutation “erases”synapomorphy and produces homoplasy
![Page 41: EEOB 400: Lecture 13 Phylogeny OutgroupAAGCTTCATAGGAGCAACCATTCTAATAATAAGCCTCATAAAGCC Species AAAGCTTCACCGGCGCAGTTATCCTCATAATATGCCTCATAATGCC Species BGTGCTTCACCGACGCAGTTGTCCTCATAATGTGCCTCACTATGCC](https://reader036.vdocument.in/reader036/viewer/2022062308/56649d0a5503460f949dc2ae/html5/thumbnails/41.jpg)
Molecular characters
Homoplasy is still a problem
There are only 4 possible character states for nucleotides: A G C T
Homoplasy arises when nucleotide mutates back to ancestral state: ATA
AAGCTTCATAGAGCTTCACAGTGCTTCACGGTGCTTCACG
Out
A
B
C
AG TC
AT AG
TA
AAGCTTCATAGAGCTTCACAGTGCTTCACGGTGCTTCACG
AAGCTTCATAGAGCTTAACAGTGCTTCACGGAGCTTAACG
Back-mutation “erases”synapomorphy and produces homoplasy
CA
CA
Homoplasy can also reflect
convergent mutations
![Page 42: EEOB 400: Lecture 13 Phylogeny OutgroupAAGCTTCATAGGAGCAACCATTCTAATAATAAGCCTCATAAAGCC Species AAAGCTTCACCGGCGCAGTTATCCTCATAATATGCCTCATAATGCC Species BGTGCTTCACCGACGCAGTTGTCCTCATAATGTGCCTCACTATGCC](https://reader036.vdocument.in/reader036/viewer/2022062308/56649d0a5503460f949dc2ae/html5/thumbnails/42.jpg)
Morphology vs molecules
Morphology
Homoplasy can be assessed from structure, development, etc. PRO
Characters may be subject to selection = convergence = homoplasy CON
Takes lots of time to identify and codecharacters for analysis CON
Requires parsimony analysis ?
Only someone familiar with taxon canidentify good characters PRO & CON
Nucleotides
Homoplasy can’t be assessed directly (an “A” is an “A”) CON
Characters may or may not be subject to selection – depends on the site ?
Sequencing yields lots of charactersif gene is sufficiently variable PRO
Can use either parsimony or likelihoodanalysis – stronger inference PRO
Any idiot can get sequence dataPRO & CON
With either approach, it all comes down to successfully identifying synapomorphies and distinguishing them from homoplasies
![Page 43: EEOB 400: Lecture 13 Phylogeny OutgroupAAGCTTCATAGGAGCAACCATTCTAATAATAAGCCTCATAAAGCC Species AAAGCTTCACCGGCGCAGTTATCCTCATAATATGCCTCATAATGCC Species BGTGCTTCACCGACGCAGTTGTCCTCATAATGTGCCTCACTATGCC](https://reader036.vdocument.in/reader036/viewer/2022062308/56649d0a5503460f949dc2ae/html5/thumbnails/43.jpg)
Character conflict
Character conflict
With either morphology or molecules,some characters will not “agree” onthe most parsimonious phylogeny
Some characters support monophyleticReptilia exclusive of birds
These are not synapomorphies for “reptiles”, they are ancestral traits
Feathers, two legs, and endothermy are apomorphic in birds
Other characters reflect synapomorphy and recover the true relationships
But in many cases it is more difficult toresolve character conflict
![Page 44: EEOB 400: Lecture 13 Phylogeny OutgroupAAGCTTCATAGGAGCAACCATTCTAATAATAAGCCTCATAAAGCC Species AAAGCTTCACCGGCGCAGTTATCCTCATAATATGCCTCATAATGCC Species BGTGCTTCACCGACGCAGTTGTCCTCATAATGTGCCTCACTATGCC](https://reader036.vdocument.in/reader036/viewer/2022062308/56649d0a5503460f949dc2ae/html5/thumbnails/44.jpg)
Consensus
When multiple phylogenies are supported…
A consensus tree shows only those relationships common to all trees
The lower tree is a “compromise” between conflicting upper phylogenies
Consensus trees will always have at least one polytomy - a branching event that is not a bifurcation
Better to have an incompletely resolved tree than an incorrect tree
Examples:
- two equally parsimonious trees- two trees from different genes- morphological vs. molecular tree- parsimony vs. likelihood tree
![Page 45: EEOB 400: Lecture 13 Phylogeny OutgroupAAGCTTCATAGGAGCAACCATTCTAATAATAAGCCTCATAAAGCC Species AAAGCTTCACCGGCGCAGTTATCCTCATAATATGCCTCATAATGCC Species BGTGCTTCACCGACGCAGTTGTCCTCATAATGTGCCTCACTATGCC](https://reader036.vdocument.in/reader036/viewer/2022062308/56649d0a5503460f949dc2ae/html5/thumbnails/45.jpg)
Consensus
An example of a consensus tree for loons
The middle tree is a “compromise” between conflicting left and right trees
![Page 46: EEOB 400: Lecture 13 Phylogeny OutgroupAAGCTTCATAGGAGCAACCATTCTAATAATAAGCCTCATAAAGCC Species AAAGCTTCACCGGCGCAGTTATCCTCATAATATGCCTCATAATGCC Species BGTGCTTCACCGACGCAGTTGTCCTCATAATGTGCCTCACTATGCC](https://reader036.vdocument.in/reader036/viewer/2022062308/56649d0a5503460f949dc2ae/html5/thumbnails/46.jpg)
Polytomy
Are polytomies real?
Usually not - they reflect inability to reconstruct the true bifurcating phylogeny
We often encounter polytomies in cases of rapid speciation when an ancestor rapidly diverged into many new forms
ABCD
EFG
HIJK
Truephylogeny
= Change in character state
= 1 million years
Inferredphylogeny
We can only recover those branches on which we “see” characters change
![Page 47: EEOB 400: Lecture 13 Phylogeny OutgroupAAGCTTCATAGGAGCAACCATTCTAATAATAAGCCTCATAAAGCC Species AAAGCTTCACCGGCGCAGTTATCCTCATAATATGCCTCATAATGCC Species BGTGCTTCACCGACGCAGTTGTCCTCATAATGTGCCTCACTATGCC](https://reader036.vdocument.in/reader036/viewer/2022062308/56649d0a5503460f949dc2ae/html5/thumbnails/47.jpg)
Different genes for different questions
Molecular stopwatch Molecular hourglass
Deepest root: 35 mya (use mtRNA) 600 mya (use nuclear rRNA)
![Page 48: EEOB 400: Lecture 13 Phylogeny OutgroupAAGCTTCATAGGAGCAACCATTCTAATAATAAGCCTCATAAAGCC Species AAAGCTTCACCGGCGCAGTTATCCTCATAATATGCCTCATAATGCC Species BGTGCTTCACCGACGCAGTTGTCCTCATAATGTGCCTCACTATGCC](https://reader036.vdocument.in/reader036/viewer/2022062308/56649d0a5503460f949dc2ae/html5/thumbnails/48.jpg)
Different genes, different trees
Gene 1 Gene 2Species A Species B Species C Species A Species B Species C
A B C
Incorrect
A B C
Correct
Because genes are inherited as a single unit, all of the nucleotides in a gene cansupport the same phylogeny, and it could still not reflect true speciation sequence
Red and blueindicate different alleles for a particular gene (gene 1 or 2)