Effect of Absaisic acid or absicin II on plant growth. PPT.ppt
ProfDrMJahedurRahman
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Oct 19, 2025
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About This Presentation
Growth and developmental process
Slide Content
© 2015 American Society of Plant Biologists
Adapted with permission from
RIKEN
Seed quality
Stress tolerance
Dormancy Germination
Biotic stress
response
Stomatal apertureGene expression
Development
Abscisic Acid
ABSCISIC ACID (ABA)
controls many plant
processes including stress
responses, development
and reproduction
Adapted with permission from
RIKEN
Seed quality
Stress tolerance
Dormancy Germination
Biotic stress
response
Stomatal apertureGene expression
Development
Abscisic Acid
ABSCISIC ACID (ABA)
controls many plant
processes including stress
responses, development
and reproduction
© 2015 American Society of Plant Biologists
Biosynthesis, homeostasis and
transport
Image courtesy of Michigan State University-Department of Energy Plant Research Lab; Zeevaart, J.A.D. (1980). Changes in the levels of
abscisic acid and its metabolites in excised leaf blades of Xanthium strumarium during and after water stress. Plant Physiol. 66: 672-678.
Jan Zeevaart (1930-2009) was a major
contributor to our understanding of
ABA synthesis and homeostasis.
ABA levels
increase
during stress
but decrease
when stress
is relieved
Biosynthesis, homeostasis and
transport
Image courtesy of Michigan State University-Department of Energy Plant Research Lab; Zeevaart, J.A.D. (1980). Changes in the levels of
abscisic acid and its metabolites in excised leaf blades of Xanthium strumarium during and after water stress. Plant Physiol. 66: 672-678.
Jan Zeevaart (1930-2009) was a major
contributor to our understanding of
ABA synthesis and homeostasis.
ABA levels
increase
during stress
but decrease
when stress
is relieved
© 2015 American Society of Plant Biologists
ABA is synthesized in the plastid
and cytoplasm and is derived from
zeaxanthin, a plant pigment
Reprinted from Nambara, E., and Marion-Pol, A. (2003) ABA action and interactions
in seeds. Trends Plant Sci. 8: 213-217 with permission from Elsevier.
ABA2
Zeaxanthin
ABA
Zeaxanthin is
abundant in green
tissues but can be
limiting for ABA
synthesis in roots
ABA is synthesized in the plastid
and cytoplasm and is derived from
zeaxanthin, a plant pigment
Reprinted from Nambara, E., and Marion-Pol, A. (2003) ABA action and interactions
in seeds. Trends Plant Sci. 8: 213-217 with permission from Elsevier.
ABA2
Zeaxanthin
ABA
Zeaxanthin is
abundant in green
tissues but can be
limiting for ABA
synthesis in roots
© 2015 American Society of Plant Biologists© 2015 American Society of Plant Biologists
9-cis-
expoxycarotenoids
ABA accumulation and homeostasis
are tightly controlled
[ABA]
xanthoxin
Water stress
Developmental signals
Rehydration
Developmental signals
NCED
Zeaxanthin
NCED (9-cis-epoxycarotenoid
dioxygenase) expression is
closely correlated with the rate
of ABA synthesis
Irreversible
inactivation
Reversible
inactivation
-Glc
ABA-glucosyl ester
9-cis-
expoxycarotenoids
ABA accumulation and homeostasis
are tightly controlled
[ABA]
xanthoxin
Water stress
Developmental signals
Rehydration
Developmental signals
NCED
Zeaxanthin
NCED (9-cis-epoxycarotenoid
dioxygenase) expression is
closely correlated with the rate
of ABA synthesis
Irreversible
inactivation
Reversible
inactivation
-Glc
ABA-glucosyl ester
© 2015 American Society of Plant Biologists© 2015 American Society of Plant Biologists
Well-watered
plant with
open stomata
and high
transpiration
rate
Water-stressed
plant with closed
stomata and low
transpiration rate
ABA
translocation
and root
hydraulic
signals may
be involved in
signaling from
root to shoot
ABA movement from root to shoot
may help regulate stomatal aperture
Well-watered
plant with
open stomata
and high
transpiration
rate
Water-stressed
plant with closed
stomata and low
transpiration rate
ABA
translocation
and root
hydraulic
signals may
be involved in
signaling from
root to shoot
ABA movement from root to shoot
may help regulate stomatal aperture
© 2015 American Society of Plant Biologists© 2015 American Society of Plant Biologists
Biosynthesis, homeostasis and
transport - summary
•ABA synthesis increases with drought
stress and during seed maturation
•In most but not all tissues NCED is rate
limiting for ABA synthesis
•ABA can be degraded to phaseic acid or
reversibly conjugated to ABA-GE
•ABA can be transported within the plant,
from root to shoot and from vascular tissues
to guard cells
Biosynthesis, homeostasis and
transport - summary
•ABA synthesis increases with drought
stress and during seed maturation
•In most but not all tissues NCED is rate
limiting for ABA synthesis
•ABA can be degraded to phaseic acid or
reversibly conjugated to ABA-GE
•ABA can be transported within the plant,
from root to shoot and from vascular tissues
to guard cells
© 2015 American Society of Plant Biologists
Perception and Signaling
PYR1
Phosphatase
Kinase
TF
P
P
ABA RESPONSES
PYR/RCAR receptors
PP2C Protein phosphatases
(including ABI1)
Protein kinases (including
SnRK2s and CDPKs)
ABA
The core
signaling
pathway
Perception and Signaling
PYR1
Phosphatase
Kinase
TF
P
P
ABA RESPONSES
PYR/RCAR receptors
PP2C Protein phosphatases
(including ABI1)
Protein kinases (including
SnRK2s and CDPKs)
ABA
The core
signaling
pathway
© 2015 American Society of Plant Biologists
The PYR/RCAR ABA receptors are
necessary for ABA responses
Pyrobactin-insensitive
mutants are ABA-
insensitive and so
germinate on ABA-
containing medium
From Park, S.-Y., et al., and Cutler, S.R. (2009). Abscisic acid inhibits type 2C protein phosphatases via the
PYR/PYL family of START proteins. Science 324: 1068-1071 reprinted with permission from AAAS.
Wild-type plants fail
to germinate on
ABA-containing
medium
The ABA-insensitive
mutant abi1
germinates on ABA-
containing medium
The PYR/RCAR ABA receptors are
necessary for ABA responses
Pyrobactin-insensitive
mutants are ABA-
insensitive and so
germinate on ABA-
containing medium
From Park, S.-Y., et al., and Cutler, S.R. (2009). Abscisic acid inhibits type 2C protein phosphatases via the
PYR/PYL family of START proteins. Science 324: 1068-1071 reprinted with permission from AAAS.
Wild-type plants fail
to germinate on
ABA-containing
medium
The ABA-insensitive
mutant abi1
germinates on ABA-
containing medium
© 2015 American Society of Plant Biologists© 2015 American Society of Plant Biologists
PYR/RCAR receptors bind ABA in a
complex with ABI1 or other PP2Cs
PYR1
NO ABA
PYR1
ABA
PP2C
Reprinted from Raghavendra, A.S., Gonugunta, V.K., Christmann, A., and Grill, E. (2010) ABA
perception and signalling. Trends Plant Sci. 15: 395-401 with permission from Elsevier.
PP2C
PYR/RCAR receptors bind ABA in a
complex with ABI1 or other PP2Cs
PYR1
NO ABA
PYR1
ABA
PP2C
Reprinted from Raghavendra, A.S., Gonugunta, V.K., Christmann, A., and Grill, E. (2010) ABA
perception and signalling. Trends Plant Sci. 15: 395-401 with permission from Elsevier.
PP2C
© 2015 American Society of Plant Biologists© 2015 American Society of Plant Biologists
PP2Cs interfere with the action of
SnRK2 protein kinases
In the absence of
ABA, SnRK2 protein
kinase activity is
inhibited by PP2C
phosphatases
P
PYR1
SnRK2
ABI1
NO ABA
RESPONSES
NO ABA
PP2Cs interfere with the action of
SnRK2 protein kinases
In the absence of
ABA, SnRK2 protein
kinase activity is
inhibited by PP2C
phosphatases
P
PYR1
SnRK2
ABI1
NO ABA
RESPONSES
NO ABA
© 2015 American Society of Plant Biologists© 2015 American Society of Plant Biologists
ABA / PYR1 binding sequesters
PP2C and permits SnRK2 activity
PYR1
PP2C
(ABI1)
P
SnRK2
TF
P
P
PIon
channel
PYR1, ABA and PP2C form a
complex that inactivates PP2C
This permits SnRK2 activation.
Phosphorylation targets include
SnRK2s, ion channels and
transcription factors
ABA RESPONSES
SnRK2
ABA / PYR1 binding sequesters
PP2C and permits SnRK2 activity
PYR1
PP2C
(ABI1)
P
SnRK2
TF
P
P
PIon
channel
PYR1, ABA and PP2C form a
complex that inactivates PP2C
This permits SnRK2 activation.
Phosphorylation targets include
SnRK2s, ion channels and
transcription factors
ABA RESPONSES
SnRK2
© 2015 American Society of Plant Biologists© 2015 American Society of Plant Biologists
SnRK2s are protein kinases that
promote ABA responses
Hrabak, E.M., Chan, C.W.M., Gribskov, M., Harper, J.F., Choi, J.H., Halford, N., Kudla, J., Luan, S., Nimmo, H.G., Sussman, M.R., Thomas, M., Walker-
Simmons, K., Zhu, J.-K., and Harmon, A.C. (2003). The Arabidopsis CDPK-SnRK superfamily of protein kinases. Plant Physiol. 132: 666-680.
P
SnRK2
TF
P
P
PIon
channel
ABA RESPONSES
The CPDK-SnRK
superfamily of protein
kinases
The SnRK2 subfamily
SnRK2s are protein kinases that
promote ABA responses
Hrabak, E.M., Chan, C.W.M., Gribskov, M., Harper, J.F., Choi, J.H., Halford, N., Kudla, J., Luan, S., Nimmo, H.G., Sussman, M.R., Thomas, M., Walker-
Simmons, K., Zhu, J.-K., and Harmon, A.C. (2003). The Arabidopsis CDPK-SnRK superfamily of protein kinases. Plant Physiol. 132: 666-680.
P
SnRK2
TF
P
P
PIon
channel
ABA RESPONSES
The CPDK-SnRK
superfamily of protein
kinases
The SnRK2 subfamily
© 2015 American Society of Plant Biologists© 2015 American Society of Plant Biologists
ABA signaling contributed to evolution
of drought tolerance in land plants
Reprinted from Umezawa, T., Nakashima, K., Miyakawa, T., Kuromori, T., Tanokura, M., Shinozaki, K., and Yamaguchi-Shinozaki, K. (2010). Molecular basis of the
core regulatory network in ABA responses: Sensing, signaling and transport. Plant Cell Physiol. 51: 1821-1839 with permission from the Japanese Society of Plant
Physiologists.
ABA signaling contributed to evolution
of drought tolerance in land plants
Reprinted from Umezawa, T., Nakashima, K., Miyakawa, T., Kuromori, T., Tanokura, M., Shinozaki, K., and Yamaguchi-Shinozaki, K. (2010). Molecular basis of the
core regulatory network in ABA responses: Sensing, signaling and transport. Plant Cell Physiol. 51: 1821-1839 with permission from the Japanese Society of Plant
Physiologists.
© 2015 American Society of Plant Biologists
Transcription factors (TFs) are major
targets of CDPKs and SnRK2s
Some TFs were identified biochemically
Some TFs were identified genetically
PYR1
PP2C
P
SnRK2
TF
P
ABA
ABA RESPONSES
SnRK2
CDPK
CDPKs are
cyclin-
dependent
protein kinases
Transcription factors (TFs) are major
targets of CDPKs and SnRK2s
Some TFs were identified biochemically
Some TFs were identified genetically
PYR1
PP2C
P
SnRK2
TF
P
ABA
ABA RESPONSES
SnRK2
CDPK
CDPKs are
cyclin-
dependent
protein kinases
© 2015 American Society of Plant Biologists© 2015 American Society of Plant Biologists
Transcriptional targets
Seed-
specific genes
Signaling genes
Genes involved in
ABA metabolism
Stress and dehydration -
induced genes
A major output of ABA
signaling is changes in
transcription patterns. Many of
the transcriptionally
upregulated genes have
functions in osmoprotection
Transcriptional targets
Seed-
specific genes
Signaling genes
Genes involved in
ABA metabolism
Stress and dehydration -
induced genes
A major output of ABA
signaling is changes in
transcription patterns. Many of
the transcriptionally
upregulated genes have
functions in osmoprotection
© 2015 American Society of Plant Biologists
ABA signaling - review
PYR1
Phosphatase
Kinase
TF
P
P
ABA RESPONSES
PYR/RCAR receptors
PP2C Protein phosphatases
(including ABI1)
Protein kinases (including
SnRK2s and CDPKs)
ABA
TF
P
PIon
channel
The core
signaling
pathway
ABA signaling - review
PYR1
Phosphatase
Kinase
TF
P
P
ABA RESPONSES
PYR/RCAR receptors
PP2C Protein phosphatases
(including ABI1)
Protein kinases (including
SnRK2s and CDPKs)
ABA
TF
P
PIon
channel
The core
signaling
pathway
© 2015 American Society of Plant Biologists
ABA’s roles in whole-plant
processes
•Guard cell responses
•Root growth
•Vegetative dehydration
responses and osmoprotectants
•Seed development
•Biotic stress responses
•Drought-tolerant plants
ABA’s roles in whole-plant
processes
•Guard cell responses
•Root growth
•Vegetative dehydration
responses and osmoprotectants
•Seed development
•Biotic stress responses
•Drought-tolerant plants
© 2015 American Society of Plant Biologists
C
CO
2
Guard cells are regulated portals for
gas exchange and transpiration
Sirichandra, C., Wasilewska, A., Vlad, F., Valon, C., and Leung, J. (2009a). The guard cell as a single-cell model towards
understanding drought tolerance and abscisic acid action. J. Exp. Bot. 60: 1439-1463. by permission of Oxford University Press.
Turgid guard cells
= open stomata
= gas exchange
+ transpiration
Flaccid guard cells
= closed stomata
= decreased gas exchange
+ decreased transpiration
C
CO
2
Guard cells are regulated portals for
gas exchange and transpiration
Sirichandra, C., Wasilewska, A., Vlad, F., Valon, C., and Leung, J. (2009a). The guard cell as a single-cell model towards
understanding drought tolerance and abscisic acid action. J. Exp. Bot. 60: 1439-1463. by permission of Oxford University Press.
Turgid guard cells
= open stomata
= gas exchange
+ transpiration
Flaccid guard cells
= closed stomata
= decreased gas exchange
+ decreased transpiration
© 2015 American Society of Plant Biologists© 2015 American Society of Plant Biologists
ABA regulates guard cell turgor
through complex signals
INNER WALL
A
-
A-
A
-
A
-
K
+
K
+
K
+
K
+
ABA
A
-K
+
Ca
2+
H
2
O
2
SnRK2
CDPK
Guard cell turgor is regulated by a
complex network of interacting
second messengers, pH, membrane
potential, protein phosphorylation,
ion channel activity – and more!!
PP2C
NO
ABA regulates guard cell turgor
through complex signals
INNER WALL
A
-
A-
A
-
A
-
K
+
K
+
K
+
K
+
ABA
A
-K
+
Ca
2+
H
2
O
2
SnRK2
CDPK
Guard cell turgor is regulated by a
complex network of interacting
second messengers, pH, membrane
potential, protein phosphorylation,
ion channel activity – and more!!
PP2C
NO
© 2015 American Society of Plant Biologists© 2015 American Society of Plant Biologists
Water stress and ABA promote root
growth at the expense of shoot growth
Sharp, R.E., Silk, W.K., and Hsiao, T.C. (1988). Growth of the maize primary root at low water potentials : I.
Spatial distribution of expansive growth. Plant Physiol. 87: 50-57.
Increasing water stress
Water stress and ABA promote root
growth at the expense of shoot growth
Sharp, R.E., Silk, W.K., and Hsiao, T.C. (1988). Growth of the maize primary root at low water potentials : I.
Spatial distribution of expansive growth. Plant Physiol. 87: 50-57.
Increasing water stress
© 2015 American Society of Plant Biologists© 2015 American Society of Plant Biologists
Desiccation-tolerant plants reveal
cellular mechanisms
Liu, M.-S., Chien, C.-T., and Lin, T.-P. (2008). Constitutive Components and Induced Gene Expression are Involved in the Desiccation Tolerance
of Selaginella tamariscina. Plant and Cell Physiology 49: 653-663, by permission of the Japanese Society of Plant Physiologists; Bohnert, H.J.
(2000). What makes desiccation tolerable? Genome Biology, published by BioMed Central.
Selaginella tamariscina
Watered control
Water withheld 5 days
Craterostigma
plantagineum
A few plants, such as
these “resurrection
plants” can stay alive
even when 90% of their
water content is lost
Studies of desiccation
tolerant plants contributes to
our understanding of cellular
desiccation responses
Rewatered
Rewatered
Desiccation-tolerant plants reveal
cellular mechanisms
Liu, M.-S., Chien, C.-T., and Lin, T.-P. (2008). Constitutive Components and Induced Gene Expression are Involved in the Desiccation Tolerance
of Selaginella tamariscina. Plant and Cell Physiology 49: 653-663, by permission of the Japanese Society of Plant Physiologists; Bohnert, H.J.
(2000). What makes desiccation tolerable? Genome Biology, published by BioMed Central.
Selaginella tamariscina
Watered control
Water withheld 5 days
Craterostigma
plantagineum
A few plants, such as
these “resurrection
plants” can stay alive
even when 90% of their
water content is lost
Studies of desiccation
tolerant plants contributes to
our understanding of cellular
desiccation responses
Rewatered
Rewatered
© 2015 American Society of Plant Biologists© 2015 American Society of Plant Biologists
ABA controls seed maturation,
dormancy and desiccation
Embryonic
patterning
Reserve
accumulation
Desiccation
tolerance
Reserve
mobilization
Cell
expansion
ABA
GA
Seed dormancy
and desiccation
tolerance is
correlated with
high levels of ABA
synthesis and
accumulation
Germination
involves catabolism
of ABA and
synthesis of GA
ABA controls seed maturation,
dormancy and desiccation
Embryonic
patterning
Reserve
accumulation
Desiccation
tolerance
Reserve
mobilization
Cell
expansion
ABA
GA
Seed dormancy
and desiccation
tolerance is
correlated with
high levels of ABA
synthesis and
accumulation
Germination
involves catabolism
of ABA and
synthesis of GA
© 2015 American Society of Plant Biologists© 2015 American Society of Plant Biologists
Many approaches are being investigated to
breed drought-tolerant plants:
•Modification of ABA synthesis and inactivation
to reduce transpiration
•Increased ABA sensitivity of guard cells to
reduce transpiration
•Increase root growth for better water uptake
•Drought-inducible expression of desiccation
tolerance genes
Towards drought-tolerant plants
Many approaches are being investigated to
breed drought-tolerant plants:
•Modification of ABA synthesis and inactivation
to reduce transpiration
•Increased ABA sensitivity of guard cells to
reduce transpiration
•Increase root growth for better water uptake
•Drought-inducible expression of desiccation
tolerance genes
Towards drought-tolerant plants
© 2015 American Society of Plant Biologists© 2015 American Society of Plant Biologists
ABA - summary
The hormone ABA and its signaling
pathway were instrumental in the
evolution of land plants
ABA participates in
physiological, developmental
and defense responses
throughout the plant body
Studying ABA is important
for the development of
drought-tolerant crops
ABA - summary
The hormone ABA and its signaling
pathway were instrumental in the
evolution of land plants
ABA participates in
physiological, developmental
and defense responses
throughout the plant body
Studying ABA is important
for the development of
drought-tolerant crops
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