Terpene Production Varies in Pinus thunbergii Parl. with Different Levels of Resistance, with Potential Effects on Pinewood Nematode Behavior

Author:

Wang Xin-Yu,Wu Xiao-QinORCID,Wen Tong-Yue,Feng Ya-Qi,Zhang Yan

Abstract

Determining the mechanisms of pine wilt disease (PWD) resistance in Pinus is a popular research topic, but information on volatile organic substances (VOS) and their role in PWD is lacking. Whether the difference in VOS among Pinus thunbergii parl. that have different levels of resistance with pine wood nematodes (PWNs) is the reason for the differing resistance needs to be studied. In this study, resistant P. thunbergii introduced from Japan and susceptible P. thunbergii native to China were used to investigate the effects of different lines inoculated with PWN. We determined the expression levels of the terpene synthesis-related genes geranylgeranyl diphosphate synthase (GGPPS), 3-hydroxy-3-methylglutaryl-coenzyme A reductase 1 (HMDH1), two kinds of alpha-farnesene synthase (PT) genes. The types and the relative percentage content of terpenoids in the pine needles were also determined by gas chromatography coupled with mass spectrometry (GC-MS). Results show that the growth, population size and migration of PWNs were significantly inhibited. The expression of terpene synthesis genes in the resistant P. thunbergii was higher than that in the susceptible one. The analysis of terpenoids revealed a total of 41 terpenoids, of which resistant P. thunbergii contained 39 and susceptible P. thunbergii only 28; 14 terpenoids were specific to resistant P. thunbergii, in which 8 of the terpenoids were constitutive terpenes and 6 were inducible terpenes. There were 3 terpenes unique to the susceptible P. thunbergii, and only 1 inducible terpene. Our results showed that the reduction in the expression of disease symptom and suppression of PWNs in resistant P. thunbergii was likely related to differences in the types and content of resistance-related substances in the trees. This study does not specifically connect elevated compounds in resistant P. thunbergii to resistance to PWN and assays should be conducted to establish direct effects of terpenoids on pinewood nematode activity and reproduction.

Publisher

MDPI AG

Subject

Forestry

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