22 in-text art, p. 650 ethylene. figure 22.5 the triple response in arabidopsis
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22 In-Text Art, p. 650 Ethylene
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Figure 22.5 The triple response in Arabidopsis
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Figure 22.1 Triple response of etiolated pea seedlings
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Figure 22.2 Ethylene biosynthetic pathway and the Yang cycle
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Figure 22.3 ACC concentrations, ACC oxidase activity, and ethylene during ripening of apples
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Figure 22.4 Two inhibitors that block ethylene binding to its receptor
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Figure 22.6 Screen for the etr1 mutant of Arabidopsis
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Figure 22.9 Screen for Arabidopsis mutants that constitutively display the triple response
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Figure 22.20 Schematic view of the roles of auxin and ethylene during leaf abscission
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Figure 22.19 Effect of ethylene on abscission in birch (Betula pendula)
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Figure 22.17 Inhibition of flower senescence by inhibition of ethylene action
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Figure 22.11 Ethylene production and respiration
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Figure 22.7 Schematic diagram of five ethylene receptor proteins and their functional domains
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Figure 22.8 Model for ethylene receptor action based on the phenotype of receptor mutants
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Figure 22.8 Model for ethylene receptor action; (A) Wild type
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Figure 22.8 Model for ethylene receptor action; (B) In the absence of ethylene
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Figure 22.8 Model for ethylene receptor action; (C) A missense mutation
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Figure 22.8 Model for ethylene receptor action; (D) Disruption mutations
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Figure 22.10 Model of ethylene signaling in Arabidopsis
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Figure 22.10 Model of ethylene signaling in Arabidopsis
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Figure 22.13 Amounts of ACC in the xylem sap and ethylene production in the petiole
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Figure 22.16 Promotion of root hair formation by ethylene in lettuce seedlings
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Figure 22.18 Formation of the abscission layer of jewelweed (Impatiens)
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22 In-Text Art, p. 667 Ethephon releases ethylene slowly by a chemical reaction