Abstract: An Aphis glycines resistance Rag2 gene is provided herein, along with methods for identifying its presence using marker-assisted selection. A cultivar of G. max having resistance to Aphis glycines conferred by the Rag2 gene has been identified. The Rag2 gene, as well as the methods, aphid-resistant varieties, and markers disclosed herein may be used to breed new elite lines expressing soybean aphid resistance.

Abstract: Aphis glycines resistance (RAG) genes are provided by this invention, along with methods for identifying their presence using marker-assisted selection. Varieties of G. max and G. soja having resistance to A. glycines have been identified. The RAG genes, as well as the methods, aphid-resistant varieties, and markers disclosed herein may be used to breed new elite lines expressing soybean aphid resistance.

Abstract: Provided herein are isolated nucleic acid molecules representing a genetically defined region of the genome of the aphid resistant soybean plant (Glycine max) cultivar PI 200538 that confers resistance to soybean aphid (Aphis glycines). Within the region is a gene encoding the aphid resistance protein Rag2. Also provided herein are methods for conferring aphid resistance on a plant or enhancing aphid resistance in a plant by transforming it to contain and express such nucleic acid sequences encoding Rag2 aphid resistance or introgressing DNA encoding the trait into the plant by plant breeding. Further provided are polymorphic markers useful for identifying plant germplasm containing aphid resistance, and methods for using such markers.

Abstract: Aphis glycines resistance (RAG) genes are provided by this invention, along with methods for identifying their presence using marker-assisted selection. Varieties of G. max and G. soja having resistance to A. glycines have been identified. The RAG genes, as well as the methods, aphid-resistant varieties, and markers disclosed herein may be used to breed new elite lines expressing soybean aphid resistance.

Abstract: Aphis glycines resistance (RAG) genes are provided by this invention, along with methods for identifying their presence using marker-assisted selection. Varieties of G. max and G. soja having resistance to A. glycines have been identified. The RAG genes, as well as the methods, aphid-resistant varieties, and markers disclosed herein may be used to breed new elite lines expressing soybean aphid resistance.

Abstract: An Aphis glycines resistance Rag2 gene is provided herein, along with methods for identifying its presence using marker-assisted selection. A cultivar of G. max having resistance to Aphis glycines conferred by the Rag2 gene has been identified. The Rag2 gene, as well as the methods, aphid-resistant varieties, and markers disclosed herein may be used to breed new elite lines expressing soybean aphid resistance.

Abstract: An Aphis glycines resistance Rag2 gene is provided herein, along with methods for identifying its presence using marker-assisted selection. A cultivar of G. max having resistance to Aphis glycines conferred by the Rag2 gene has been identified. The Rag2 gene, as well as the methods, aphid-resistant varieties, and markers disclosed herein may be used to breed new elite lines expressing soybean aphid resistance.

Abstract: An Aphis glycines resistance Rag2 gene is provided herein, along with methods for identifying its presence using marker-assisted selection. A cultivar of G. max having resistance to Aphis glycines conferred by the Rag2 gene has been identified. The Rag2 gene, as well as the methods, aphid-resistant varieties, and markers disclosed herein may be used to breed new elite lines expressing soybean aphid resistance.