Plant Growth Regulators

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Plant Growth Regulators

• Chemical Messengers

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Hormones

• In plants, many behavioral patterns and functions
  are controlled by hormones. These are chemical
  messengers influencing many patterns of plant
  development.
• Plant hormones a natural substance (produced by
  plant) that acts to control plant activities.
  Chemical messengers.

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Hormones

• Are produced in one part of a plant and then
  transported to other parts, where they initiate a
  response.
• They are stored in regions where stimulus are and
  then released for transport through either phloem
  or mesophyll when the appropriate stimulus occurs.

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Growth Regulators

• Plant growth regulators include plant hormones
  (natural synthetic), but also include
  non-nutrient chemicals not found naturally in
  plants that when applied to plants, influence
  their growth and development.

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Growth Regulators

• 5 recognized groups of natural plant hormones and
  growth regulators.
• 1. Auxins
• 2. Gibberellins
• 3. Cytokinins
• 4. Ethylene
• 5. Abscissic acid

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Auxins

• Influence plant growth found in leaves and
  stems growth regulators and hormones
• Cell enlargement or elongation located in
  meristems and shoot tips (terminal lateral
  buds). Auxins move mainly from apex (top) down.
• Lengthening of the internodes and influence the
  developing embryos in the seed.

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What happens when auxin is added to a stem. The
stem will bend away from the auxin. It elongates
faster on the extra auxin side.
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Auxins

• Apical dominance high levels of auxin in the
  stem just above lateral buds block their growth
  (blockage of growth of lateral buds by presence
  of terminal buds). If shoot tip is removed. The
  auxin level behind the lateral buds is reduced
  and the lateral buds begin to grow. (the auxin
  which formed the blockage to keep lateral buds
  small is reduced so they can grow)

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Auxins

• Photo (light) and geotropism (gravity) involved
  in tropism responses positive responses
• Flower initiation and development
• Root initiation and development (rootone) used
  on cuttings to help stimulate root growth

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Auxins (IAA)

• Plant Growth Regulators - Indobutyric acid
  (IBA)(synthetic), napthaleneacetic acid
  (NAA)(synthetic), 2,4-dichlorophenoxyacetic acid
  (2-4D)(synthetic)
• Hormone - indoleactic acid (IAA)(naturally
  occurring).

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Auxin
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Gibberellins (GA)

• Gibberellic Acid
• Have a regulatory function
• Are produced in the shoot apex primarily in the
  leaf primordial (leaf bud) and root system
• Stimulates stem growth dramatically

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Gibberellins (GA)

• Stimulates cell division, cell elongation (or
  both) and controls enzyme secretions. Ex dwarf
  cultivars can be treated with GA and grow to
  normal heights indicates dwarf species lack
  normal levels of GA

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Gibberellins

• Involved in overcoming dormancy in seeds and
  buds.
• GA translocates easily in the plant (able to move
  freely) in both directions because produced in
  not only shoot apex but also in the root
  structure.

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Gibberellins

• Used commercially in
• Increasing fruit size of seedless grapes
• Stimulating seed germination seedling growth

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Gibberellins

• Promoting male flowers in cucumbers for seed
  production.
• Overcoming cold requirements for some seed,
  application of GA foregoes the cold requirements
  (some seed require to be frozen or placed in the
  refrigerator for a period of time before they
  will germinate).

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Cytokinins

• Promotes cell division
• Found in all tissues with considerable cell
  division.
• Ex embryos (seeds) and germinating seeds, young
  developing fruits

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Cytokinins

• Roots supply cytokinins upward to the shoots.
• Interact with auxins to influence differentiation
  of tissues (may be used to stimulate bud
  formation).

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Cytokinins

• As roots begin to grow actively in the spring,
  they produce large amounts of cytokinins that are
  transported to the shoot, where they cause the
  dormant buds to become active and expand.

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Cytokinins

• Tissue cultures use cytokinins to induce shoot
  development
• Cytokinins may slow or prevent leaf senescence
  (leaf ageing or leaf fall).

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Cytokinin
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Ethylene

• Gaseous hormone
• Produced in the actively growing meristems of the
  plant, in senescing ripening or ageing fruits, in
  senescing (ageing or dying) flowers, in
  germinating seeds and in certain plant tissues as
  a response to bending, wounding or bruising.
• Ethylene as a gas, diffuses readily throughout
  the plant.

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Ethylene

• May promote leaf senescing and abscission (leaf
  fall).
• Increases female flowers in cucumbers
  (economically - will increase fruit production).
• Degreening of oranges, lemons and grapefruit
  ethylene gas breaks down chlorophyll and lets
  colors show through.

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Inhibitors

• Abscisic Acid (ABA)
• Widespread in plant body moves readily through
  plant
• ABA appears to be synthesized (made) by the
  leaves.
• Interacts with other hormones in the plant,
  counteracting the growth promoting the effects
  of auxins gibberellins.

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Abscisic Acid

• Involved with leaf and fruit abscission (fall),
  onset of dormancy in seeds and onset of dormancy
  (rest period) in perennial flowers and shrubs
• ABA is effective in inducing closure of stomata
  in leaves, indicating a role in the stress
  physiology in plants. (ex increases in ABA
  following water, heat and high salinity stress to
  the plant)

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• www.wwcc.edu/ace/files/Plant Growth
  Regulators.ppt

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