The Influence of Ethylene and Tissue Age on the Sensitivity of Xanthi Tobacco Leaves to a Trichoderma viride Xylanase

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Plant and Cell Physiology, 1995, Vol. 36, No. 8 1669-1676
© 1995

The Influence of Ethylene and Tissue Age on the Sensitivity of Xanthi Tobacco Leaves to a Trichoderma viride Xylanase

Bryan A. Bailey¹, Adi Avni² and James D. Anderson

Weed Science Lab, USDA/ARS, Beltsville Agriculture Research Center (E) Beltsville, MD 20705, U.S.A.
¹ Biocontrol of Plant Diseases Laboratory, USDA/ARS, Beltsville Agriculture Research Center (W) Present address: Beltsville, MD 20705, U.S.A.
² Department of Botany, Tel Aviv University Present address: Tel Aviv, Israel

A xylanase produced by Trichoderma viride induced defense responsesincluding ethylene biosynthesis and necrosis in Nicotiana tabacumcv. Xanthi leaves. Ethylene pretreatment accentuated the levelof ethylene and necrosis produced in response to xylanase. Thesensitivity of leaves to xylanase and ethylene was influencedby tissue age. Young leaves were relatively insensitive to bothethylene and xylanase. Mature leaves were relatively insensitiveto xylanase but became very sensitive to xylanase after treatmentwith ethylene. Senescing leaves were more sensitive to xylanasethan young or mature leaves. Ethylene alone had little if anyeffect on ethylene biosynthesis or ACC synthase transcript levelsin the absence of xylanase treatment but stimulated accumulationof pathogenesis related protein PR-1 basic transcripts directly.Ethylene-pretreated leaves subsequently treated with xylanasehad greatly elevated ACC synthase transcript levels comparedto levels in xylanase treated air-pretreated leaves. The timecourse of PR-1 basic transcript accumulation in response toethylene was similar to the time course for ethylene enhanced-sensitivityto xylanase as expressed by ethylene biosynthesis, ACC synthasetranscript level and necrosis. All the measured effects of ethylenewere lost within a similar time frame of 48 h after removingplants from the ethylene atmosphere. A second ethylene treatmentof tobacco plants, following the loss of the initial ethylenetreatment, restored the enhanced sensitivity of the tissuesto xylanase. The continual presence of ethylene is requiredfor maintenance of the effects of ethylene studied here and,the timing of the induction and subsequent loss of the ethyleneeffects are closely coordinated whether at the molecular orwhole tissue level.

(Received August 2, 1995; Accepted October 7, 1995)
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