1. miRNA-mediated auxin signalling repression during Vat -mediated aphid resistance in Cucumis melo
- Author
-
Gary A. Thompson, Sampurna Sattar, and Charles Addo-Quaye
- Subjects
0106 biological sciences ,0301 basic medicine ,chemistry.chemical_classification ,Physiology ,fungi ,Antibiosis ,food and beverages ,Plant Science ,R gene ,Biology ,Transport inhibitor ,biology.organism_classification ,01 natural sciences ,Cell biology ,03 medical and health sciences ,030104 developmental biology ,chemistry ,Transcription (biology) ,Auxin ,Aphis gossypii ,Botany ,Gene ,Psychological repression ,010606 plant biology & botany - Abstract
Resistance to Aphis gossypii in melon is attributed to the presence of the single dominant R gene virus aphid transmission (Vat), which is biologically expressed as antibiosis, antixenosis and tolerance. However, the mechanism of resistance is poorly understood at the molecular level. Aphid-induced transcriptional changes, including differentially expressed miRNA profiles that correspond to resistance interaction have been reported in melon. The potential regulatory roles of miRNAs in Vat-mediated aphid resistance were further revealed by identifying the specific miRNA degradation targets. A total of 70 miRNA:target pairs, including 28 novel miRNA:target pairs, for the differentially expressed miRNAs were identified: 11 were associated with phytohormone regulation, including six miRNAs that potentially regulate auxin interactions. A model for a redundant regulatory system of miRNA-mediated auxin insensitivity is proposed that incorporates auxin perception, auxin modification and auxin-regulated transcription. Chemically inhibiting the transport inhibitor response-1 (TIR-1) auxin receptor in susceptible melon tissues provides in vivo support for the model of auxin-mediated impacts on A. gossypii resistance.
- Published
- 2016