photosynthesis and plant hormones. plant structure ●obtaining raw materials o sunlight leaves =...
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PHOTOSYNTHESIS AND PLANT HORMONES
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Plant Structure
● Obtaining raw materials
o sunlight leaves = solar collectors
o CO2
stomates = gas exchange● Found under leaves
o H2O uptake from roots
o Nutrients N, P, K, S, Mg, Fe… uptake from roots
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Plant Structure
● Chloroplasts
o double membrane
o stroma
o thylakoid sacs
o grana stacks
● Chlorophyll & ETC in thylakoid membrane
● H+ gradient built up within thylakoid sac
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Pigments● chlorophyll & accessory pigments● “photosystem”
o embedded in thylakoid membrane● structure function
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Light: Absorption Spectrum● Photosynthesis gets energy by absorbing
wavelengths of lighto chlorophyll a (dominant pigment)
absorbs best in red & blue wavelengths & least in green
o other pigments with different structures absorb light of different wavelengths
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Photosynthesis
● Light reactions (light-dependent reactions)
o energy production reactionso convert solar energy to chemical energyo ATP & NADPH
● Calvin cycle (light-independent reactions)
o sugar production reactionso uses chemical energy (ATP & NADPH) to reduce CO2
& synthesize C6H12O6
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Light Reactions
● Electron Transport Chain (like cell respiration!)
o membrane-bound proteins in organelle
o electron acceptor NADPH
o proton (H+)
gradient across
inner membrane
o ATP synthase
enzyme
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Photosystems
● act as light-gathering “antenna complex”● Photosystem II
o chlorophyll a
o P680 = absorbs 680nm
o wavelength red light● Photosystem I
o chlorophyll bo P700 = absorbs 700nmo wavelength red light
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ETC of Photosynthesis● ETC produces from light energy
o ATP & NADPH NADPH (stored energy) goes to Calvin cycle
o PS II absorbs light excited electron passes from chlorophyll to
“primary electron acceptor” at the REACTION CENTER.● splits H2O (Photolysis!!)● O2 released to atmosphere● ATP is produced for later use
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Noncyclic Photophosphorylation
● Light reactions elevate electrons in 2 steps (PS II & PS I)o PS II generates energy as
ATPo PS I generates reducing
power as NADPH
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Cyclic Photophosphorylation
● If PS I can’t pass electron to NADP, it cycles back to PS II & makes more ATP, but no NADPHo coordinates light
reactions to Calvin cycleo Calvin cycle uses more
ATP than NADPH
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Light Reactions to Calvin Cycle
● Calvin cycle
o Chloroplast stromao Need products of light reactions to drive
synthesis reactions
ATP
NADPH
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Calvin Cycle
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Factors that Affect Photosynthesis
● Enzymes are responsible for several photosynthetic processes, therefore, temperature and pH can affect the rate of photosynthesis.
● The amount and type of light can affect the rate.● A shortage of any of the reactants,CO2 and/or
H2O, can affect the rate.
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Alternative Mechanisms
● Photorespiration● � Metabolic pathway which:
Uses O2 & produces CO2
Uses ATP
No sugar production (rubisco binds O2 à breakdown of
RuBP) �Occurs on hot, dry bright days when stomata close
(conserve H2O)
�Why? Early atmosphere: low O2, high CO2?
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Evolutionary Adaptations
● Problem with C3 Plants:
o CO2 fixed to 3-C compound in Calvin cycle
o Ex. Rice, wheat, soybeans
o Hot, dry days: partially close stomata, ↓CO2
o �Photorespiration
o ↓ photosynthetic output (no sugars made)
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Evolutionary Adaptations
● C4 Plants:
o CO2 fixed to 4-C compound
o Ex. corn, sugarcane, grass
o Hot, dry days à stomata close
o �2 cell types = mesophyll & bundle sheath cells
�mesophyll : PEP carboxylase fixes CO2 (4-C), pump
CO2 to bundle sheath
�bundle sheath: CO2 used in Calvin cycle
o ↓photorespiration, ↑sugar production
o WHY? Advantage in hot, sunny areas
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Evolutionary Adaptations
● CAM Plants:
o Crassulacean acid metabolism (CAM)
NIGHT: stomata open à CO2 enters à converts to
organic acid, stored in mesophyll cells
DAY: stomata closed à light reactions supply ATP,
NADPH; CO2 released from organic acids for Calvin
cycle
o Ex. cacti, pineapples, succulent (H2O-storing) plants
o WHY? Advantage in arid conditions
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Supporting a Biosphere
● On global scale, photosynthesis is the most important processfor the continuation of life on Earth
o each year photosynthesis synthesizes 160 billion tons of carbohydrate
o heterotrophs are dependent on plants as food source for fuel & raw materials
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Plant Hormones
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Plant Hormones
● Auxin – stimulate cell elongation à phototropism & gravitropism (high concentrations = herbicide)
● Cytokinins – cell division (cytokinesis) & differentiation● Gibberellins – stem elongation, leaf growth, germination, flowering,
fruit development
● Abscisic Acid – slows growth; closes stomata during H2O stress;
promote dormancy● Ethylene – promote fruit ripening (positive feedback!); involved in
apoptosis (shed leaves, death of annuals)
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Effects of Gibberellins on Length
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Ethylene Gas on Ripening
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Plant Movement
● Tropisms: growth responses à SLOW
o �Phototropism – light (auxin)
● � Gravitropism – gravity (auxin)
● � Thigmotropism – touch● Turgor movement: allow plant to make relatively rapid &
reversible responses
o �Venus fly trap, mimosa leaves, “sleep” movement
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Positive Gravitropism
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Thigmotropism
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Responses to Light
● �Plants can detect direction, intensity, & wavelenth of light
● �Phytochromes: light receptors, absorbs mostly red lighto Regulate seed germination, shade avoidance
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Biological Clocks
● Circadian rhythm: biological clockso Persist w/o environmental cueso Frequency = 24 hours
● Phytochrome system + Biological clock = plant can determine time of year based on amount of light/darkness
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Photoperiodism
● Short-day plants: flower when nights are long (mums, poinsettia)
● Long-day plant: flower when nights are short (spinach, iris, veggies)
● Day-neutral plant: unaffected by photoperiod (tomatoes, rice, dandelions)
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Response to Stress
● Drought (H2O deficit):
o close stomao release abscisic acid to
keep stoma closedo Inhibit growtho roll leaves à reduce SA
& transpirationo deeper roots
● Flooding (O2 deprivation):
● release ethylene à root cell death à air tubes formed to
provide O2 to submerged
roots
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Response to Stress
● Excess Salt:o cell membrane – impede
salt uptakeo produce solutes to ↓ψ -
retain H2O
● Heat:o evap. cooling via
transpirationo heat shock proteins –
prevent denaturation
● Cold:o alter lipid composition
of membrane (↑unsat. fatty acids, ↑fluidity)
o increase cytoplasmic solutes
o antifreeze proteins
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Response to Stress
● Herbivores:o physical (thorns)o chemicals (garlic,
mint)o recruit predatory
animals (parasitoid wasps)
● Pathogens:o 1st line of defense =
epidermiso 2nd line = pathogen
recognition, host-specific