ch3908
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Transcript of ch3908
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Plant Hormones Ch. 39
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• I. Plant Hormones- A compound produced by one part of the plant
• Hormones- A compound produced in one area of an organism and has an affect on an another area.
• A. Plants grow toward the light• 1. Phototropism- growth toward or away from
the light• 2. Shoot toward light= positive• 3. Differential growth of cells on opposite side
of shoot• 4. Cells on opposite side elongate faster
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• B. Coordination of growth and development - 5 major classes of hormones
• Auxins ( IAA)• Cytokinins• Gibberellins (GA)• Abscisic acid• Ethylene
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Auxin
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• 1. Auxin- promotes elongation of young shoots (Indoleacetic acid)
• a. The major site of auxin production is apical meristem
b. Affects secondary cell growth by inducing vascular cambium and secondary xylem
• c. Promotes fruit growth
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Flourescent tag used to show auxin location in a plant
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• 2. Cytokinins - stimulates cytokinesis• a. Cell division and cytokinesis• 1. Moves in xylem sap• 2. Stimulates RNA and protein synthesis• 3. Works in conjunction with auxin
b. Apical dominance1. cytokinins and auxin are antagonistic-
auxin from terminal bud causes shoot to lengthen.
2. Cytokinins from roots stimulate axillary bud
• 3. Auxin stimulates lateral root formation cytokinins restrain it.
• c. Anti-_aging - slows leaf deterioration
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Plant b has apical bud removed so axillary buds grow
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• 3. Giberellins- 80 different kinds• a. Stem elongation- produced in the roots and young
leaves• 1. stimulate cell division, growth of leaves• 2. causes bolting- rapid growth of floral
stems• b. Fruit growth- controlled by Giberellins and auxin
1. Grapes are sprayed to grow bigger• c. Germination- signals seeds to break dormancy
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Grapes on the right treated with gibberellins
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• 4. First isolated from Brassic pollen in 1979, brassinosteroids are steroids chemically similar to cholesterol and the sex hormones of animals.
– a. Brassinosteroids induce cell elongation and division in the stem
– b. They also retard leaf abscission and promote xylem differentiation
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• 5. Abscisic Acid- helps prepare plants for winter by suspending growth
• a. inhibits cell division in vascular cambium
• b. onset of seed dormancy
• c. stress hormone - closes stomata
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Without abscisic acid the mutant corn seed sprouts
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• 6. Ethylene- Gaseous hormone- induced by high auxin, inhibits growth
• a. Senescence- aging, fruit ripening and leaf abscission
• b. fruit ripening- aging cells release more ethylene• 1. spreads from fruit to fruit• 2. Leaves lose pigment• c. Leaf abscission- prevents dessication
1. leaf nutrients are sent to storage
• 2. short days and cool temperature
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The triple response to an obstacle induces ethylene production
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The change in balance of auxin and ethylene causes abscission
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• II. Plant Movement• A. Tropism- growth toward stimuli• 1. Phototropism- see early note• 2. Gravitropism- orientation of plant in
response to gravity• a. roots down, stems up• 3. Thigmotropism- response to touch- may be
increased ethylene
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Phototropism
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Gravitropism
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Thigmotropism
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Far red light inhibits germination while red light inhances it
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Sleep movments
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• III. Control of daily and Seasonal responses• A. Biological clocks - circadian rhythms- plants have sleep
movements and opening and closing of stomata.• 1. Circadian rhythm- physiological cycle (24hrs)• a. most are cued to dark and light• b. Once off it could take days to reset (jet lag)• B. Photoperiodism- plants response to day length• 1. Photoperiodism and flowering- control
a. short- day= light shorter than critical period ( late summer, fall, winter)
b. long-day= light period longer than a critical period (late spring/summer)
• c. day-neutral= unaffected by day length.
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Flowering signal (florigen)
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