Abscisic Acid - WOU Homepageguralnl/gural/330Abscisic Acid.pdf · Chemistry • synthesized in...
Transcript of Abscisic Acid - WOU Homepageguralnl/gural/330Abscisic Acid.pdf · Chemistry • synthesized in...
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Abscisic Acid• History• Chemistry• Transport• Physiological action
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History
• Discovered in Ash trees/potato tuber
• levels declined when dormancy broken
• Growth inhibitor • GA antagonist
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Chemistry • synthesized in
chloroplast/plastids • maevlonic acid pathway • cis-ABA active form • lunuluric acid in liverworts • photochemical production
from violaxanthin• inactivated by ABA-
glucoside or O2 oxidation
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Inactivation
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Transport
• xylem/phloem • move to roots • synthesis in root caps -- basipetal
transport • move to all parts of plant • increases during stress
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Physiological action
• Stomatal closure • Dormancy in
seeds/buds • Precocious
germination
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Seed dormancy
• peak mid to late embryogenesis • dessication tolerance • accumulation of seed storage proteins • inhibits precocious germination/vivipary
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Five basic mechanisms of coat-imposed dormancy:
• Prevention of water uptake. • Mechanical constraint.• Interference with gas exchange.• Retention of inhibitors• Inhibitor production.
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Environmental Factors Control the Release from Seed Dormancy
• Afterripening• Chilling• Light
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Stomatal closure • ABA weak acid • normal conditions enters
mesophyll cells • stress causes pH to rise in
xylem sap • ABA doesn't enter mesophyll
cell, ABA-• moves to guard cells • activates K+/ Cl- channels out
of guard cell • causes stomatal closure • evidence/data shown on pH
changes with application of ABA
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Stomatal closure
• ABA induces increase in cytosolic Ca+2
concentration• ABA reduces the size
of the stomatal aperature
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Light effects
• Blue light pulse opens stomata
• Addition of ABA inhibits acidification of medium
• ABA inhibits plasma membrane H+ -ATPase
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Redistribution of ABA in Leaf
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Water Potential
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CAM induction
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Signaling• ABA binds to receptor• Form Reactive oxygen
species• Activate Ca+2 channels• Intracellular Ca+2 goes
up, inhibit K+ channels• Membrane depolarization
activates K+ channels out• Stomata close