Project description:The study aims to identify and analyze the miRNAs in Bemisia tabaci that feed on Nicotiana tabacum cv. NC89 plants. This allows for the investigation of insect miRNAs that play important physiological roles in Bemisia tabaci. Additionally, it enables the analysis and identification of miRNAs that are transferred from Nicotiana tabacum to Bemisia tabaci. These data can further help us understand the role of miRNAs in the interaction between Bemisia tabaci and its host plants.
Project description:We investigated the transcriptional response to thiamethoxam in the Bemisia tabaci using Illumina sequencing technology. A total of 1,338 genes were differently expressed in the thiamethoxam-resistant whiteflies.
Project description:To investigated the stage-specific gene expression response to thiamethoxam in the Bemisia tabaci, we have designed the Agilent eArray platform to identify stage-regulated gene expression towards thiamethoxam exposure.
Project description:The saliva from Bemisia tabaci (MED biotype) adults was collected using an artificial feeding system and analyzed using an LC-MS/MS proteomics analysis.
Project description:To investigated the stage-specific gene expression response to thiamethoxam in the Bemisia tabaci, we have designed the Agilent eArray platform to identify stage-regulated gene expression towards thiamethoxam exposure. All the B biotype Bemisia tabaci were maintained on cabbage. Thiamethoxam susceptible (TH-S) was cultured without exposure to any chemical insecticides, Thiamethoxam resistance (TH-R) strain exhibited >70-fold resistance to thiamethoxam in comparision to the TH-S strain. Eggs were incubated in 24hours collected as one sample. The fourth nymphs were collected as another sample. The one-day-old unmated adult females were collected as the third samples. Both of the samples were collected from the TH-R, TH-S strains, respectively
