Download Widespread Paleopolyploidy Across the Green Plants

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Transcript
Plant of the Day
Cyperus esculentus - Cyperaceae
Chufa (tigernut)
8,000 kg/ha, 720 kcal/sq m per month
Top Crop for kcal productivity!
One of the world’s worst weeds
Big Questions
 Is polyploidy an evolutionary dead-end?
 If so, why are all plants the products of multiple
polyploidization events?
 How do polyploid genomes diploidize (i.e., what are
the rules)?
Paleopolyploidy



Ancient whole genome
duplication
No different from
neopolyploidy – except that it
happened a long time ago
Track the historical
contribution of polyploid
speciation to evolution
Polyploidy = Evolutionary noise (1970)
W. H. Wagner, Jr.
“…polyploidy has contributed
little to progressive evolution”
(1971)
G. L. Stebbins
Diploidization
• Obscures evidence of paleopolyploidy
• Return to a diploid genetic system
– Restoration of full bivalent pairing
– Gene and chromosome loss
– Chromosomal rearrangements
• Proceeds at different rates in different
lineages
Rosa
Rosids
Malus
Cucumis
Glycine
Bruguiera
Populus
Linum
Euphorbia
Eurosids 1
Phaseolus
Manihot
Hevea
Citrus
Thellungiella
Arabidopsis
Brassica
Eucalyptus
Vitis
Eurosids 2
Gossypium
Diploidization
Methods for Identifying Paleopolyploidy
• Fossils
• Synteny relationships of duplicated genes
– conserved gene order
• Age estimates of duplicate genes
Cell Size Increase
• Consequence of
genome size increase
• 2 X increase in cell
volume
2n
• 1.58 X increase in cell
surface area
4n
Extant Platanus
Miocene Platanus
Fossil Estimates
Extant Platanus
Miocene Platanus
Fossil Estimates
n>7–9
70% angiosperms
Synteny Analyses
Whole Genome Sequences
Synteny Analyses
Whole Genome Sequences
Duplicate Gene Age Distributions
% of Duplicate Pairs
No Paleopolyploidy
Ks (~ Time)
Duplicate Gene Age Distributions
% of Duplicate Pairs
Carthamus tinctorius
Ks (~ Time)
% of Duplicate Pairs
Inferring Paleopolyploidy
Ks (~ Time)
Previously Known Genome Duplications
Barker et al., in prep
Newly Recognized Genome Duplications
Barker et al., in prep
Newly Recognized Genome Duplications
Infer 59 Independent Paleopolyploidizations
35 are newly observed
68% of Flowering Plant Families
71.4% of Gymnosperm Families
Barker et al., in prep
Significant increases in
diversification rates in
flowering plants
•Half are associated with
paleopolyploidy (p = 0.005)
What about neo-polyploidy?
Application of BISSE: binary-state speciation and extinction
(likelihood method developed by Maddison et al. 2007)
Polyploidy:  speciation,  extinction (I. Mayrose et al. 2011, Science)
Speciation Rates
Speciation
of
number
Frequency
cases
5
10
20
Frequency
0
0
0
5
5
10
15
10
number of
cases
Frequency
15
25
Extinction
15
30
20
20
Extinction Rates
Speciation Rates
0.0
0.0
0.2
0.2
0.4
0.4
0.6
0.6
0.8
0.8
percent
of cases
percent
of cases
wherewhere
diploidsdiploids
have higherhave
rateshigher rates
higher rate in
diploids
1.0
0.0
0.2
0.4
0.6
0.8
percent of cases where diploids have higher rates
higher rate in
diploids
1.0
Resolution
Polyploidy is most often an evolutionary dead end,
but the expanded genomic potential of those
polyploids that do persist drives longer term
evolutionary success.
Unanswered questions
Do auto- and allopolyploids differ in their
evolutionary success?
What factors control the fate of duplicate genes?
How long must a polyploid lineage persist before it
transitions from a trajectory that favors extinction
to one that favors diversification?
What evolutionary genetic changes/processes
underlie this transition?