Identification of Soybean Proteins and Genes Differentially Regulated in Near Isogenic Lines Differing in Resistance to Aphid Infestation.

Laurent Brechenmacher, Tran Hong Nha Nguyen, Ning Zhang, Tae-Hwan Jun, Dong Xu, M A Rouf Mian, Gary Stacey
Author Information
  1. Tae-Hwan Jun: USDA-ARS, Department of Horticulture and Crop Science, The Ohio State University , 1680 Madison Avenue, Wooster, Ohio 44691, United States.
  2. M A Rouf Mian: USDA-ARS, Department of Horticulture and Crop Science, The Ohio State University , 1680 Madison Avenue, Wooster, Ohio 44691, United States.

Abstract

Soybean aphid is an important pest causing significant yield losses. The Rag2 locus confers resistance to soybean aphid biotypes 1 and 2. Transcriptomic and proteomic analyses were done over a 48 h period after aphid infestation using near isogenic lines (NILs) differing at the Rag2 locus. Comparing the Rag2 and/or rag2 lines identified 3445 proteins, of which 396 were differentially regulated between the two lines, including proteins involved in cell wall metabolism, carbohydrate metabolism, and stress response. RNA-seq transcriptomic analysis identified 2361 genes significantly regulated between the resistant and susceptible lines. Genes upregulated in the Rag2 line were annotated as being involved in cell wall, secondary, and hormone metabolism as well as in stress, signaling, and transcriptional responses. Genes downregulated in the Rag2 line were annotated as being involved in photosynthesis and carbon metabolism. Interestingly, two genes (unknown and mitochondrial protease) located within the defined Rag2 locus were expressed significantly higher in the resistant genotype. The expression of a putative NBS-LRR resistant gene within the Rag2 locus was not different between the two soybean lines, but a second NBL-LRR gene located just at the border of the defined Rag2 locus was. Therefore, this gene may be a candidate R gene controlling aphid resistance.

Keywords

MeSH Term

Animals
Aphids
Chromatography, Liquid
Gene Expression Regulation, Plant
Gene Ontology
Genetic Loci
Genome, Plant
Genotype
Metabolic Networks and Pathways
Molecular Sequence Annotation
Plant Immunity
Plants, Genetically Modified
Proteome
Glycine max
Tandem Mass Spectrometry

Chemicals

Proteome