Additional file 5: Figure S3. of Proteomic analysis highlights the role of detoxification pathways in increased tolerance to Huanglongbing disease

A list of commonly regulated proteins by HLB, comparing effects in the two Citrus genotypes. VC = Volkameriana control (healthy), VI = Volkameriana Infected, NC = Navel orange control (healthy), NI = Navel orange infected. Annotation and Citrus ID are indicated. (PDF 121 kb)

Additional file 5: Figure S3. of Proteomic analysis highlights the role of detoxification pathways in increased tolerance to Huanglongbing disease

A list of commonly regulated proteins by HLB, comparing effects in the two Citrus genotypes. VC = Volkameriana control (healthy), VI = Volkameriana Infected, NC = Navel orange control (healthy), NI = Navel orange infected. Annotation and Citrus ID are indicated. (PDF 121 kb)

Additional file 3: Figure S1. of Proteomic analysis highlights the role of detoxification pathways in increased tolerance to Huanglongbing disease

Metabolism oveview of proteomic changes in response to HLB disease, comparing effects in the two Citrus genotypes. (PDF 115Â kb)

Additional file 3: Figure S1. of Proteomic analysis highlights the role of detoxification pathways in increased tolerance to Huanglongbing disease

Metabolism oveview of proteomic changes in response to HLB disease, comparing effects in the two Citrus genotypes. (PDF 115Â kb)

Effects of the silencing of sorbitol dehydrogenase on sugar partitioning in vegetative sinks in apple

Additional file 2: Table S2. of Proteomic analysis highlights the role of detoxification pathways in increased tolerance to Huanglongbing disease

Differentially regulated host proteins in control and infected leaf tissues of Volkameriana (p-valueâ

Additional file 2: Table S2. of Proteomic analysis highlights the role of detoxification pathways in increased tolerance to Huanglongbing disease

Differentially regulated host proteins in control and infected leaf tissues of Volkameriana (p-valueâ

Additional file 1: Table S1. of Proteomic analysis highlights the role of detoxification pathways in increased tolerance to Huanglongbing disease

Differentially regulated host proteins in control and infected leaf tissues of Navel orange (p-valueâ

Additional file 1: Table S1. of Proteomic analysis highlights the role of detoxification pathways in increased tolerance to Huanglongbing disease

Differentially regulated host proteins in control and infected leaf tissues of Navel orange (p-valueâ

Additional file 4: Figure S2. of Proteomic analysis highlights the role of detoxification pathways in increased tolerance to Huanglongbing disease

HLB-differentially regulated proteins involved in secondary metabolism in the two Citrus genotypes. Each colored square represents the expression change (see color key) in a protein associated with the biosynthetic pathway. (TIF 268Â kb)

Additional file 4: Figure S2. of Proteomic analysis highlights the role of detoxification pathways in increased tolerance to Huanglongbing disease

HLB-differentially regulated proteins involved in secondary metabolism in the two Citrus genotypes. Each colored square represents the expression change (see color key) in a protein associated with the biosynthetic pathway. (TIF 268Â kb)