Silencing Threonine Deaminase and JAR4 in Nicotiana attenuata Impairs Jasmonic Acid-Isoleucine-Mediated Defenses against Manduca sexta

doi:10.1105/tpc.106.041103

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Silencing Threonine Deaminase and JAR4 in Nicotiana attenuata Impairs Jasmonic Acid-Isoleucine-Mediated Defenses against Manduca sexta

Jin-Ho Kang ¹, Lei Wang ¹, Ashok Giri ¹, and Ian T. Baldwin ¹^*

¹ Department of Molecular Ecology, Max-Planck-Institute of Chemical Ecology, D-07745 Jena, Germany

^* To whom correspondence should be addressed. E-mail: baldwin{at}ice.mpg.de.

Threonine deaminase (TD) catalyzes the conversion of Thr to ${alpha}$ -keto butyrate in Ile biosynthesis; however, its dramatic upregulationin leaves after herbivore attack suggests a role in defense.In Nicotiana attenuata, strongly silenced TD transgenic plantswere stunted, whereas mildly silenced TD transgenic plants hadnormal growth but were highly susceptible to Manduca sexta attack.The herbivore susceptibility was associated with the reducedlevels of jasmonic acid-isoleucine (JA-Ile), trypsin proteinaseinhibitors, and nicotine. Adding [¹³C₄]Thr to wounds treatedwith oral secretions revealed that TD supplies Ile for JA-Ilesynthesis. Applying Ile or JA-Ile to the wounds of TD-silencedplants restored herbivore resistance. Silencing JASMONATE-RESISTANT4(JAR4), the N. attenuata homolog of the JA-Ile-conjugating enzymeJAR1, by virus-induced gene silencing confirmed that JA-Ileplays important roles in activating plant defenses. TD may alsofunction in the insect gut as an antinutritive defense protein,decreasing the availability of Thr, because continuous supplementationof TD-silenced plants with large amounts (2 mmol) of Thr, butnot Ile, increased M. sexta growth. However, the fact that theherbivore resistance of both TD- and JAR-silenced plants wascompletely restored by signal quantities (0.6 µmol) ofJA-Ile treatment suggests that TD's defensive role can be attributedmore to signaling than to antinutritive defense.

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