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BMC Genomics


Title:Effects of sugarcane aphid herbivory on transcriptional responses of resistant and susceptible sorghum
Author(s):Kiani M; Szczepaniec A;
Address:"Department of Entomology, Texas A&M AgriLife Research, 6500 Amarillo Blvd. W, Amarillo, TX, 79106, USA. Mahnaz.kianifariz@ag.tamu.edu. Department of Entomology, Texas A&M AgriLife Research, 6500 Amarillo Blvd. W, Amarillo, TX, 79106, USA"
Journal Title:BMC Genomics
Year:2018
Volume:20181026
Issue:1
Page Number:774 -
DOI: 10.1186/s12864-018-5095-x
ISSN/ISBN:1471-2164 (Electronic) 1471-2164 (Linking)
Abstract:"BACKGROUND: Sugarcane aphid (Melanaphis sacchari) outbreaks in sorghum that were first reported in 2013 are now the most significant threat to this crop in all major sorghum production areas in the U.S. The outcomes of interactions between sugarcane aphid and sorghum and thus the severity of the outbreaks depend on sorghum genotype and potentially also on the phenology of sorghum. Mechanisms underlying these interactions are not known, however. Thus, the goal of this research was to characterize transcriptional changes in a commercially available resistant and a susceptible genotype of sorghum at 2- and 6-wk post-emergence exposed to M. sacchari herbivory. The effects of sorghum age and genotype on the daily change in aphid densities were also evaluated in separate greenhouse experiments. RESULTS: A higher number of diffentially expressed genes (DEGs) was recovered from the 2-wk plants exposed to aphid herbivory compared to the 6-wk plants across genotypes. Further, gene ontology and pathway analysis indicated a suite of transcriptional changes in the resistant genotype that were weak or absent in the susceptible sorghum. Specifically, the aphid-resistant genotype exposed to M. sacchari up-regulated several genes involved in defense, which was particularly evident in the 2-wk plants that showed the most robust transcriptional responses. These transcriptional changes in the younger resistant sorghum were characterized by induction of hormone-signaling pathways, pathways coding for secondary metabolites, glutathion metabolism, and plant-pathogen interaction. Furthermore, the 2-wk resistant plants appeared to compensate for the effects of oxidative stress induced by sugarcane aphid herbivory with elevated expression of genes involved in detoxification. These transcriptional responses were reflected in the aphid population growth, which was significantly faster in the susceptible and older sorghum than in the resistant and younger plants. CONCLUSION: This experiment provided the first insights into molecular mechanisms underlying lower population growth of M. sacchari on the resistant sorghum genotype. Further, it appears that the younger resistant sorghum was able to mount a robust defense response following aphid herbivory, which was much weaker in the older sorghum. Several pathways and specific genes provide specific clues into the mechanisms underlying host plant resistance to this invasive insect"
Keywords:"Animals Aphids/*physiology Computational Biology Disease Resistance/*genetics *Disease Susceptibility Gene Expression Profiling Gene Expression Regulation, Plant Gene Ontology Gene Regulatory Networks *Herbivory Host-Parasite Interactions/genetics Metabol;"
Notes:"MedlineKiani, Mahnaz Szczepaniec, Adrianna eng TEX09638/USDA NIFA/ 3072-22000-016-00D/USDA-ARS/ England 2018/10/28 BMC Genomics. 2018 Oct 26; 19(1):774. doi: 10.1186/s12864-018-5095-x"

 
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