| Literature DB >> 32057749 |
Deyi Yu1, Peng Huang2, Yongwen Lin3, Jinai Yao2, Yanyang Lan4, Komivi Senyo Akutse5, Xiangyu Hou2.
Abstract
Gynaikothrips uzeli gall thrips are protected from insecticide exposure by their leaf gall habitat. A biocontrol strategy based on entomopathogenic fungi is an alternative approach for the control of G. uzeli. Higher temperatures can promote the reproduction and spread of pests; however, the impact of higher temperatures on biological control is unclear. We studied the immunocompetence of thrips from different latitudes and determined the effect of degree days on thrips immunity. We examined the potential impact of temperature on the biocontrol provided by entomopathogenic fungi. Beauveria bassiana pathogenicity against thrips increased with decreasing latitude, suggesting that immunity of thrips increased as latitude increased. The phenoloxidase activity of G. uzeli increased with increasing latitude but there was no significant change in hemocyte concentration. This indicated that the humoral immunity of thrips was significantly associated with degree days, and this was confirmed by transcriptome data. Transcriptome and RT-PCR results showed that the expression of key genes in eight toll pathways increased with increasing latitude. The relative expression of key genes in the Toll pathway of thrips and the activity of phenoloxidase decreased with increasing degree days that are characteristic of lower latitudes. These changes led to a decrease in humoral immunity. The immunity of G. uzeli against entomopathogenic fungi increased as degree days characteristic of lower latitudes decreased. Increased temperatures associated with lower latitude may therefore increase biocontrol efficacy. This study clarified immune level changes and molecular mechanisms of thrips under different degree days.Entities:
Keywords: Degree day; Entomopathogenic fungi; Gall thrips; Immunocompetence; Latitudes; Toll pathway
Mesh:
Year: 2020 PMID: 32057749 DOI: 10.1016/j.jip.2020.107343
Source DB: PubMed Journal: J Invertebr Pathol ISSN: 0022-2011 Impact factor: 2.841