a bryophyte trackable marker for the evolution of desiccation
TRANSCRIPT
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Desiccation ToleranceMechanisms and Evolution
Mel Oliver and Brent Mishler
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Desiccation-tolerance.
The ability to revive from the air-dried state (the air being of low relative humidity) thus experiencing protoplasmic dehydration without suffering permanent injury
Bewley and Krochko. 1982
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Types of Desiccation-tolerance.
Plants whose tolerance to water loss is low. Plant structures that are adapted to withstand
desiccation and for which water loss is an expected event. - seeds.
Plants that are capable of tolerating desiccation regardless of the rate at which water loss occurs.
Plants that are capable of tolerating desiccation only if water loss is a slow process.
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Desiccation-tolerant Plants.
Desiccation-tolerant ALGAE LICHENS BRYOPHYTES
Modified Desiccation-tolerant FERNS ANGIOSPERMS
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Distribution of Desiccation Tolerance in the Plant Kingdom
liverwortshornworts
mosses
SelaginellaIsoetes
Lycopodium
Equisetumfernsferns
Gingko
cycads conifersgnetophytes
Angiosperms
Land Plants
Tracheophytes
Seed Plants
Oliver, Tuba and Mishler 2000
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Tortula ruralis
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Selaginella
Selaginella bigelovii
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Polypodium virginianum
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Photo Courtesy of Dr Christina Walters USDA NSSL Fort Collins
Orthodox Seeds
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Distribution of Desiccation tolerance in the Angiosperms
PoaceaeCyperaceae
Velloziaceae
Liliaceae
Magnoliales
renunculids
Hamameliales
LabiataeGesneriaceae Scrophulariaceae
AngiospermsOliver, Tuba and Mishler 2000
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Xerophyta villosa
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Photo Courtesy of Dr. Jill Farrant and Clare Vander Willegen University of Cape Town SA
Myrothamnus flabellifolia
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Craterostigma wilmsii
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Xerophyta viscosa
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Sporobolus stapfianus
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Photos Courtesy of Dr. Dorothea Bartels University of Bonn
Craterostigma plantagineum
Dry
Rehydrated
Hydrated
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Critical Parameters for Desiccation-tolerance.
Limit damage to a repairable level Maintain physiological integrity in
the dry state Mobilize repair mechanisms upon
rehydration
Bewley 1979
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Essence of Desiccation-tolerance.
Testable Hypothesis
Cellular Repair
Cellular Protection
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Bryophyte Model
Dry
Rehydrated
Hydrated
RAPID WATER LOSSRAPID WATER LOSSConstitutive CellularConstitutive Cellular
ProtectionProtection Induction of Recovery and RepairMechanisms
Hormone ?Hormone ?
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Angiosperm Model
SLOW WATER LOSSSLOW WATER LOSSInduction ofInduction ofCellular ProtectionCellular Protection
Re-establishmentRe-establishmentProcessesProcesses
Dry
Rehydrated
Hydrated
ABAABA
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Postulated Evolutionary History of Desiccation Tolerance in Land Plants
hornwortsmosses
SelaginellaIsoetes
Lycopodium
Equisetumfernsferns
Gingko
cycads conifersgnetophytes
Angiosperms
liverworts
Constitutive protection and repair
Inducible protection plus repair?
Developmentally programmedprotection - propagules
Developmentally programmed protection - spores?
Inducible protection(repair?) and laterpoikilochlorophylly
TT
SS
Loss of vegetativedesiccation tolerancein the ancestral lineageOliver, Tuba and Mishler 2000
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Bryophyte Model
Dry
Rehydrated
Hydrated
RAPID WATER LOSSRAPID WATER LOSSConstitutive CellularConstitutive Cellular
ProtectionProtection Induction of Recovery and RepairMechanisms
Hormone ?Hormone ?
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A B C D E F G H I J K L M N OIn1
In2
Dhy
E F G H
Tr 288 Phylogenetic Gene Search
Tr 288 Gene
GPN-Box Consensus primers
ExpectedPCR Products(Sequence forIdentity)
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Tortula ruralis
Tortula sinensis
Tortula andersonii
Tortula indet NSW
Tortula amphidiacea
Tortula subaristata
Tortula caninervis
Tortula cavelii
Tortula handelii
Tortula muralis
Tortula papillosa
Calyptopogon
288
288
288
288288
288
288
288
288
288
288 288
Probable tree root
Unrooted Tortula Phylogenetic NetworkOccurance of Tr288 Orthologs
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EquisetumOsmunda
Angiopteris
SequoiaSelaginella
Huperzia
IsoetesPolytrichum piliferum
Polytrichum communeFunaria
Grimmia
Tortula ruralisTortula princepsTortula muralis
ArthrocormusLeucophanes
OctoblepharumExostratum
Pterogonium
Sphagnum cuspidatumSphagnum palustre
Anthoceros fusiformisAnthoceros
MegacerosNotothylas
Blasia
AsterellaRiccia albida
Riccia atromarginataRiccia albolimbata
Riccia frostiiRiccia membranacea
Riccia sulivantiiTargionia
Lunularia
Lophocolea
algal ancestor
288288
288288
288
288288
288288Mitthyridium288
Calyptopogon288
Probable Network Root
PsilotumPsilotum
BuxbaumiaBuxbaumia
Tetraphis
HaplomitriumHaplomitrium
Unrooted “Deep Green” Phylogenetic NetworkOccurance of Tr288 Orthologs
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Phylogenetic Approachto Functionality
Establishment of a correlation between the presence of a gene and a specific phenotype
Establishment of the role of a gene in the evolution of a particular phenotype
Establishment of the importance of a particular mechanism in the evolution of a particular phenotype, e.g., induced repair upon rehydration versus induced protection during drying in desiccation-tolerance
Collaboration with Brent Mishler - UC Berkeley
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Deep changeDeep change in functionin function
A phylogenetically distant comparison = large background differences
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A phylogenetically close comparison= low background differences
Recent ChangeRecent Change in functionin function
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Increasing complexityIncreasing complexity
Ancestor-descendant comparison usingreconstructed ancestral states