ABC Model of Flower development
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Oct 22, 2023
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About This Presentation
The ABC model of flower development is a scientific model of the process by which flowering plants produce a pattern of gene expression in meristems that
Slide Content
Flowering Model
VIDANBIOLOGY
VIDANBIOLOGY
FLOWERING GENES IN Arabidopsis thaliana
❑Arabidopsis thaliana is long day plant (LDP) and a
member of family Brassicaceae (Mustard family) widely
used as genetic model in plants.
❑Flower is modified shoot of limited growth.
❑Flowering requires reprogramming of Shoot Apical
Meristem (SAM).
❑Biological function of a flower is to help in reproduction.
❑Genetic analysis have identified 4 Classes of genes
which control flowering in Arabidopsis thaliana.
VIDANBIOLOGY
❑Arabidopsis thaliana is long day plant (LDP) and a
member of family Brassicaceae (Mustard family) widely
used as genetic model in plants.
❑Flower is modified shoot of limited growth.
❑Flowering requires reprogramming of Shoot Apical
Meristem (SAM).
❑Biological function of a flower is to help in reproduction.
❑Genetic analysis have identified 4 Classes of genes
which control flowering in Arabidopsis thaliana.
VIDANBIOLOGY
Class 1
Floral meristem
identity gene
Class 2
Shoot meristem
identity gene
Class 4
Boundary setting Gene/
Cadastral gene
Class 3
Floral organ
identity gene
Flowering gene
in Arabidopsis
thalianaVIDANBIOLOGY
Floral meristem
identity gene
Class 2
Shoot meristem
identity gene
Class 4
Boundary setting Gene/
Cadastral gene
Class 3
Floral organ
identity gene
Flowering gene
in Arabidopsis
thalianaVIDANBIOLOGY
FLORAL MERISTEM IDENTITY GENES
There Are 6 Floral meristem identity gene identified in
Arabidopsis thaliana
These genes Are
expressed in
early floral stage.
LFY (leafy) Gene
AP1 (Apetala 1) Gene
CAL (Cauliflower) Gene
AP2 (Apetala 2) Gene
FUL (Fruitful) Gene
UFO Gene
FUNCTION
CONVERTS VEGETATIVE
SHOOT MERISTEM INTO
FLORAL MERISTEM i.e.
CONVERT VEGETATIVE
SHOOT INTO FLOWER
MERISTEM.
Class 1
VIDANBIOLOGY
There Are 6 Floral meristem identity gene identified in
Arabidopsis thaliana
These genes Are
expressed in
early floral stage.
LFY (leafy) Gene
AP1 (Apetala 1) Gene
CAL (Cauliflower) Gene
AP2 (Apetala 2) Gene
FUL (Fruitful) Gene
UFO Gene
FUNCTION
CONVERTS VEGETATIVE
SHOOT MERISTEM INTO
FLORAL MERISTEM i.e.
CONVERT VEGETATIVE
SHOOT INTO FLOWER
MERISTEM.
Class 1
VIDANBIOLOGY
SHOOT MERISTEM IDENTITY GENESClass-2
Shoot Meristem Identity Genes identified in Arabidopsis thalianaare:
1. TFL 1 (Terminal Flower 1)
2. TFL 2 (Terminal Flower 2)
FUNCTION:
❑IT HAS OPPOSITE EFFECT OF CLASS 1
GENES (FLORAL MERISTEM IDENTITY GENES).
❑ACTS ON SAM TO REPRESS THE FLORAL TRANSITION AND MAINTAINS VEGETATIVE GROWTH
i.e.IT PREVENTS TRANSITION OF INFLORESCENCE SHOOT INTO FLORAL SHOOT.
Vegetative
meristem
Inflorescence
meristem
Flower
meristem
VIDANBIOLOGY
Shoot Meristem Identity Genes identified in Arabidopsis thalianaare:
1. TFL 1 (Terminal Flower 1)
2. TFL 2 (Terminal Flower 2)
FUNCTION:
❑IT HAS OPPOSITE EFFECT OF CLASS 1
GENES (FLORAL MERISTEM IDENTITY GENES).
❑ACTS ON SAM TO REPRESS THE FLORAL TRANSITION AND MAINTAINS VEGETATIVE GROWTH
i.e.IT PREVENTS TRANSITION OF INFLORESCENCE SHOOT INTO FLORAL SHOOT.
Vegetative
meristem
Inflorescence
meristem
Flower
meristem
VIDANBIOLOGY
Class-3 FLORAL ORGAN IDENTITY GENES
There are 5 Floral Organ Identity Genes identified in
Arabidopsis thaliana
These genes are organ specificso their expression leads to development
of different organs of flower like sepal, petal, stamen & carpel.
1.AP1 (APETALA 1) GENE
2.AP2 (APETALA 2) GENE
3.AP3 (APETALA 3) GENE
4.PI (PISTILLATA) GENE
5. AG (AGAMOUS) GENE
Class-A
Class-B
Class-C
VIDANBIOLOGY
There are 5 Floral Organ Identity Genes identified in
Arabidopsis thaliana
These genes are organ specificso their expression leads to development
of different organs of flower like sepal, petal, stamen & carpel.
1.AP1 (APETALA 1) GENE
2.AP2 (APETALA 2) GENE
3.AP3 (APETALA 3) GENE
4.PI (PISTILLATA) GENE
5. AG (AGAMOUS) GENE
Class-A
Class-B
Class-C
VIDANBIOLOGY
Class-4BOUNDARY SETTING GENES/ CADASTRAL GENES
They regulate Floral Organ Identity gene by setting boundaries for their
expression and thus controls the correct distribution of the floral organs.
EXAMPLE:
1. SUP (SUPERMAN) GENE
FUNCTION:
It acts to maintain boundary between 3rd and 4th whorl. It define boundary
between male reproductive organ (stamen) and female reproductive organ
(carpel) in the flower.
VIDANBIOLOGY
They regulate Floral Organ Identity gene by setting boundaries for their
expression and thus controls the correct distribution of the floral organs.
EXAMPLE:
1. SUP (SUPERMAN) GENE
FUNCTION:
It acts to maintain boundary between 3rd and 4th whorl. It define boundary
between male reproductive organ (stamen) and female reproductive organ
(carpel) in the flower.
VIDANBIOLOGY
Flowering Pathways in Arabidopsis thaliana
Vernalization Pathway
Gibberellic Acid Pathway
Autonomous Pathway
Photoperiodic Pathway
In Arabidopsis, flowering is controlled by:
All ofthese Pathways
converge to activate the
Floral Meristem Identity
genes such as LFY and
AP1 genes.
VIDANBIOLOGY
Vernalization Pathway
Gibberellic Acid Pathway
Autonomous Pathway
Photoperiodic Pathway
In Arabidopsis, flowering is controlled by:
All ofthese Pathways
converge to activate the
Floral Meristem Identity
genes such as LFY and
AP1 genes.
VIDANBIOLOGY
FRI Gene
FLC Gene
SOC1
LFY AP1
Floral organ identity Gene
FCA, FLK, FLD & LD gene
FT protein
FT gene
CO gene
FT/FD Complex
(formed)
VIN 3, VRN 1 &
VRN 2 GENE
Gibberellic
Acid
pathway
(Move to SAM &
enters nucleus)
Autonomous Pathway
Its sense plant age
It promote FLC
expression
Vernalization Pathway
Cold
Treatment
Photoperiodic
pathwayFlowering
Internal clock
+
Light
VIDANBIOLOGY
FLC Gene
SOC1
LFY AP1
Floral organ identity Gene
FCA, FLK, FLD & LD gene
FT protein
FT gene
CO gene
FT/FD Complex
(formed)
VIN 3, VRN 1 &
VRN 2 GENE
Gibberellic
Acid
pathway
(Move to SAM &
enters nucleus)
Autonomous Pathway
Its sense plant age
It promote FLC
expression
Vernalization Pathway
Cold
Treatment
Photoperiodic
pathwayFlowering
Internal clock
+
Light
VIDANBIOLOGY
FLC Gene
SOC1
LFY AP1
VIN 3, VRN 1 &
VRN 2 GENE
Vernalization Pathway
Floral organ identity Gene Flowering
Activate
Activate
Activate
Activate
Inhibit
Inhibit
Represses Flowering
These gene are represses
FLC gene epigenetically
FLC (flowering Locus C ) gene
VIN3 ( vernalization Incentive 3)
Gene
VRN 1 (Vernalization 1) Gene
VRN 2 (Vernalization 2) Gene
Chilled/Cold
Climate
VIDANBIOLOGY
SOC1
LFY AP1
VIN 3, VRN 1 &
VRN 2 GENE
Vernalization Pathway
Floral organ identity Gene Flowering
Activate
Activate
Activate
Activate
Inhibit
Inhibit
Represses Flowering
These gene are represses
FLC gene epigenetically
FLC (flowering Locus C ) gene
VIN3 ( vernalization Incentive 3)
Gene
VRN 1 (Vernalization 1) Gene
VRN 2 (Vernalization 2) Gene
Chilled/Cold
Climate
VIDANBIOLOGY
SOC 1
LFY gene
Floral organ
identity Gene
Gibberellic
Acid
pathway
Flowering
AP1
Activate
Activate
Activate
Activate
Activate
AP1 (APETALA 1) gene
LFY (LEAFY) gene
SOC1 (SUPPRESSOR OF
OVEREXPRESION OF
CONSTANTS 1) gene
VIDANBIOLOGY
LFY gene
Floral organ
identity Gene
Gibberellic
Acid
pathway
Flowering
AP1
Activate
Activate
Activate
Activate
Activate
AP1 (APETALA 1) gene
LFY (LEAFY) gene
SOC1 (SUPPRESSOR OF
OVEREXPRESION OF
CONSTANTS 1) gene
VIDANBIOLOGY
FLC Gene
SOC1
Floral organ identity Gene
FCA, FLK, FLD & LD gene
Flowering
LFY gene
AP1
Activate
Inhibit
Activate
Activate
PROMOTE
Inhibit
Sensing
of Plant
Age
FLC (FLOWERING LOCUS C)
LFY [LEAFY]
AP1[APETALA 1}
SOC1 (SUPPRESSOR OF
OVERREXPRESSION OF CONSTANTS 1)
FCA (FLOWER|NG CONTROL LOCUS A)
FLK (FLOWERING LOCUS K)
FLD (FLOWERING LOCUS D)
LD (LUMINIDEPENDENS)
PROMOTE
VIDANBIOLOGY
SOC1
Floral organ identity Gene
FCA, FLK, FLD & LD gene
Flowering
LFY gene
AP1
Activate
Inhibit
Activate
Activate
PROMOTE
Inhibit
Sensing
of Plant
Age
FLC (FLOWERING LOCUS C)
LFY [LEAFY]
AP1[APETALA 1}
SOC1 (SUPPRESSOR OF
OVERREXPRESSION OF CONSTANTS 1)
FCA (FLOWER|NG CONTROL LOCUS A)
FLK (FLOWERING LOCUS K)
FLD (FLOWERING LOCUS D)
LD (LUMINIDEPENDENS)
PROMOTE
VIDANBIOLOGY
SOC1
LFYFloral organ identity Gene
FT protein
FT geneCO gene
FT/FD Complex
(formed)
(Move from leaves SAM & enters
nucleus & forms complex with FD
protein
Photoperiodic
pathway
Flowering
AP1
(In the Companion cells of the
phloem of leaves and stem)
Activate
PROMOTE
Activate
ActivateActivate
Activate
Light & Internal
clock
(circadian Clock)
FD (FLOWERING D)
CO (CONSTANS)
FT (FLOWERING LOCUS T)
VIDANBIOLOGY
LFYFloral organ identity Gene
FT protein
FT geneCO gene
FT/FD Complex
(formed)
(Move from leaves SAM & enters
nucleus & forms complex with FD
protein
Photoperiodic
pathway
Flowering
AP1
(In the Companion cells of the
phloem of leaves and stem)
Activate
PROMOTE
Activate
ActivateActivate
Activate
Light & Internal
clock
(circadian Clock)
FD (FLOWERING D)
CO (CONSTANS)
FT (FLOWERING LOCUS T)
VIDANBIOLOGY
C St P S
S-Sepal (also known as Calyx, it protects the developing flower).
P-Petal (also known as Corolla, It attracts pollinators).
St-Stamen (It is male reproductive organ also knowas Androecium).
C-Carpel (It is female reproductive organ also knowas Gynoecium).
Anatomy of flower
VIDANBIOLOGY
S-Sepal (also known as Calyx, it protects the developing flower).
P-Petal (also known as Corolla, It attracts pollinators).
St-Stamen (It is male reproductive organ also knowas Androecium).
C-Carpel (It is female reproductive organ also knowas Gynoecium).
Anatomy of flower
VIDANBIOLOGY
Arabidopsis thaliana is long day
plant (LDP) and a member of family
Brassicaceae (Mustard family)
widely used as genetic model in
plants.
ARABIDOPSIS THALIANA
VIDANBIOLOGY
plant (LDP) and a member of family
Brassicaceae (Mustard family)
widely used as genetic model in
plants.
ARABIDOPSIS THALIANA
VIDANBIOLOGY
Class-3 FLORAL ORGAN IDENTITY GENES
There are 5 Floral Organ Identity Genes identified in
Arabidopsis thaliana
1.AP1 (APETALA 1) GENE
2.AP2 (APETALA 2) GENE
3.AP3 (APETALA 3) GENE
4.PI (PISTILLATA) GENE
5. AG (AGAMOUS) GENE
Class-A
Class-B
Class-C
➢Floral Organ Identity Genes are also called Floral Homeotic Genes
➢All accept AP2 Gene contains the same DNA binding domain MADS box.
VIDANBIOLOGY
There are 5 Floral Organ Identity Genes identified in
Arabidopsis thaliana
1.AP1 (APETALA 1) GENE
2.AP2 (APETALA 2) GENE
3.AP3 (APETALA 3) GENE
4.PI (PISTILLATA) GENE
5. AG (AGAMOUS) GENE
Class-A
Class-B
Class-C
➢Floral Organ Identity Genes are also called Floral Homeotic Genes
➢All accept AP2 Gene contains the same DNA binding domain MADS box.
VIDANBIOLOGY
Class A gene is mutually antagonist to Class C gene I.e. A and C are
antagonist to each other
➢If class A gene gets mutated then at that place class C gene will get expressed
and if class C Gene gets mutated then at that place Class A gene will get
expressed
➢Class B Genes Does not express individually
A C
VIDANBIOLOGY
antagonist to each other
➢If class A gene gets mutated then at that place class C gene will get expressed
and if class C Gene gets mutated then at that place Class A gene will get
expressed
➢Class B Genes Does not express individually
A C
VIDANBIOLOGY
Generalized
Gene
Expression
VIDANBIOLOGY
Gene
Expression
VIDANBIOLOGY
MADS BOX GENES
MADS box is a conserve sequence motif, the genes which contains this motif are
called MADS box genes. The MADS box genes encodes DNA binding MADS
domain. MADS box genes encodes transcription factors. They are both present in
animals and plants and comes under MADS box genes family.
In plants they are involved in controlling all major aspects of
development including
1-Male and Female Gametophyte Development.
2-Embryo and Seed Development.
3-Root, Flower & Fruit Development
e.g.AP1, PI, AG, SOC1 Genes etc.
VIDANBIOLOGY
MADS box is a conserve sequence motif, the genes which contains this motif are
called MADS box genes. The MADS box genes encodes DNA binding MADS
domain. MADS box genes encodes transcription factors. They are both present in
animals and plants and comes under MADS box genes family.
In plants they are involved in controlling all major aspects of
development including
1-Male and Female Gametophyte Development.
2-Embryo and Seed Development.
3-Root, Flower & Fruit Development
e.g.AP1, PI, AG, SOC1 Genes etc.
VIDANBIOLOGY
A
A+B
B+C
C
CARPEL (C)
Stamen
(C+B)or (B+C)
Wild Type
(Normal)
A gene
mutated
So, if gene A gets Mutated then there will be no
sepals and petal formation
VIDANBIOLOGY
A+B
B+C
C
CARPEL (C)
Stamen
(C+B)or (B+C)
Wild Type
(Normal)
A gene
mutated
So, if gene A gets Mutated then there will be no
sepals and petal formation
VIDANBIOLOGY
C St P S C St St C
Wild Type (Normal) A gene mutated
VIDANBIOLOGY
Wild Type (Normal) A gene mutated
VIDANBIOLOGY
A
A+B
B+C
C Wild Type
(Normal)
B gene
mutated
CARPEL (C)
Sepals (A)
So, if gene B gets Mutated then there will be
no petals and Stamen formation
VIDANBIOLOGY
A+B
B+C
C Wild Type
(Normal)
B gene
mutated
CARPEL (C)
Sepals (A)
So, if gene B gets Mutated then there will be
no petals and Stamen formation
VIDANBIOLOGY
C St P S
Wild Type (Normal) B gene mutated
C C S SVIDANBIOLOGY
Wild Type (Normal) B gene mutated
C C S SVIDANBIOLOGY
A
A+B
B+C
C
Sepals (A)
Petals (A+B)
C gene
mutated
Wild Type
(Normal)
So, if gene C gets Mutated then there will be
no Carpel and Stamen formation
VIDANBIOLOGY
A+B
B+C
C
Sepals (A)
Petals (A+B)
C gene
mutated
Wild Type
(Normal)
So, if gene C gets Mutated then there will be
no Carpel and Stamen formation
VIDANBIOLOGY
A
A+B
B+C
C Wild Type
(Normal)
B & A gene
mutated
CARPEL (C)
So, if gene B&C gets Mutated then only carpel
form in all whorl
VIDANBIOLOGY
A+B
B+C
C Wild Type
(Normal)
B & A gene
mutated
CARPEL (C)
So, if gene B&C gets Mutated then only carpel
form in all whorl
VIDANBIOLOGY
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