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Plant Responses

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Title: Plant Responses


1
Plant Responses
  • AP Biology Chapter 39

2
Respond to the environment
  • Plants have cellular receptors that detect
    changes in the environment

Potato grown in the dark w/ long shoots
Potato after exposure to light
Etiolationadaptions for growing in darkness
De-etiolationadaptions for growing in light
(greening)
3
Signal Transduction Pathways (involved w/
de-etiolation)
  • Reception
  • Extracellular chemicals change the shape of
    membrane proteins
  • Phytochrome in cytoplasm
  • Transduction
  • Second messengers (small molecules) amplify the
    signal and transfer it from receptor to other
    proteins to carry out the response
  • Cyclic GMP Ca2 activate kinases, cytoskeletal
    proteins, or specific ion channels (phosphotases
    turn things off)
  • Response
  • The product of the transduction regulates
    the gene expression and
    usually increased enzyme
    activity or activated transcription
    factors

4
LE 39-3
CELL WALL
CYTOPLASM
Reception
Transduction
Response
Signal Transduction Pathways
Activation of cellular responses
Relay molecules
Receptor
Hormone or environmental stimulus
Plasma membrane
5
Phototropism
  • Plant response towards light (positive) or away
    from light (negative)
  • Tropism is plant growth towards or away from
    stimuli

6
LE 39-5b
Darwin and Darwin (1880)
Phototropism occurs only when the tip is
illuminated!
Light
Base covered by opaque shield
Tip covered by trans- parent cap
Tip covered by opaque cap
Tip removed
7
LE 39-5c
Phototropism occurs when the tip is separated by
a permeable barrier but not an impermeable barrier
Boysen-Jensen (1913)
Light
Tip separated by mica
Tip separated by gelatin block
8
Frits Went Experiment
Agar block gathered chemicals from tip over time.
When place directly on top, the grass grew
straight. When place to one side, the grass bent
on the side opposite the chemical. The chemical
was named AUXIN!
Dark
Light
9
Gravitropism
  • Plant response to gravity
  • Roots undergo positive whereas shoots undergo
    negative

10
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11
Thigmotropism
  • Plant response to touch
  • Sensitive plant (loss of turgor pressure in plant
    motor organs causes leaflets to fold together
    quickly)
  • Tendrils of many vines climbing plants coil
    around objects

12
Hormones
  • Control growth development of plants
  • Signaling molecule produced in small amounts in
    one part of an organism and sent to other parts
    where it binds to a receptor and triggers
    responses

13
Auxin
  • a hormone that promotes cell elongation
  • Responsible for phototropisms (due to unequal
    distributions)
  • Enhances apical dominance (suppresses the
    development of axial buds)
  • Indoleacetic acids (IAA) is a naturally occurring
    auxin.
  • In rooting powder it causes faster root
    development
  • In strong doses can be a weed killer
  • Synthetic auxins can induce a tomato plant to
    make fruit without pollination (seedless)

14
Cytokinins
  • Interact with auxins to stimulate cell division
    (cytokinesis) and cell differentiations
  • Also delay senescence (aging) by inhibiting
    protein breakdown
  • Produced in roots and travels up with xylem sap

15
Gibberellins
  • Act in concert with auxins to promote stem
    elongation
  • Induces bolting
  • Rapid growth of a tall flower stalk ensuring
    pollination seed dispersal
  • Also causes seeds to break dormancy after seed is
    imbibed with water

16
Abscisic Acid (ABA)
  • Inhibits growth
  • Promotes seed dormancy until conditions are
    favorable (enough water to wash away or prolonged
    exposure to light or cold weather deactivate it)
  • Ratio of ABA to gibberellins determines seed
    dormancy or germination
  • Drought tolerance
  • Stomates closes

Insufficient ABA in tomato seeds
17
Ethylene
  • Gaseous hormone responsible for effects caused by
    stress, senescence, leaf abscission fruit
    ripening
  • Triple Response growing tip runs into rock,
    ethylene gets released, stem elongation slows,
    stem thickens, stem begins to grow horizontally
    until amount of ethylene lessens (no more hard
    surface).
  • Senescence programmed death of certain cells or
    organs or the entire plant, but will salvage
    materials if possible (Apoptosis)
  • Leaf abscission leaves falling off and a scar
    forms to protect the tree
  • Fruit ripening fruits will mature in the
    presence of ethylene (Positive Feedbackmore
    ripening causes more ethylene production)
  • Fruit sellers pick perishable fruit early and
    then spray it with ethylene when they are needed
    to ripen.

18
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21
Response to Light
  • Blue light photoreceptors
  • Initiate phototropism light-induced opening of
    stomata
  • Phytochromes (red light)
  • Regulate, De-etoiliation, seed germination,
    shade avoidance
  • In seed germination the last flash of light
    determines the responseredgerminate
    far-redinhibition
  • In shade avoidance the ratio of red to far-red
    can tell the plant to grow taller or to grow more
    laterally to maximize photosynthesis

22
Plants Biological Clocks
  • Plants have circadian rhythms too!
  • Whether in constant light or dark
  • The ratio of phytochrome red to far-red helps the
    plant reset its biological clock (like us
    adjusting to jet lag)
  • Photoperiodism is a physiological response to
    photoperiod (lengths of night day)

23
Response to Dangers
  • Against herbivores
  • Can have thorns
  • Can produce distasteful or toxic compounds
  • Some can even recruit predatory animals
  • Against pathogens
  • Primary defense is epidermis/periderm
  • Secondary defense is recognition of pathogen
    derived molecules called elicitors by R (disease
    Resistant) proteins
  • Hypersensitive response causes cell tissue
    death near the infection site
  • Systemic Acquired Resistance substance is
    produced around infection site and sent by phloem
    throughout the plant that activates a signal
    transduction pathway that induces resistance to
    pathogens

24
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