0000000001312525
AUTHOR
David Dolan
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)
Proteomic analysis highlights the role of detoxification pathways in increased tolerance to Huanglongbing disease.
Background Huanglongbing (HLB) disease is still the greatest threat to citriculture worldwide. Although there is not any resistance source in the Citrus germplasm, a certain level of moderated tolerance is present. A large-scale analysis of proteomic responses of Citrus may help: 1) clarifying physiological and molecular effects of disease progression, 2) validating previous data at transcriptomic level, and 3) identifying biomarkers for development of early diagnostics, short-term therapeutics and long-term genetic resistance. Results In this work we have conducted a proteomic analysis of mature leaves of two Citrus genotypes with well-known differing tolerances to HLB: Navel orange (highl…
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)
Molecular Responses to Small Regulating Molecules against Huanglongbing Disease
Huanglongbing (HLB; citrus greening) is the most devastating disease of citrus worldwide. No cure is yet available for this disease and infected trees generally decline after several months. Disease management depends on early detection of symptoms and chemical control of insect vectors. In this work, different combinations of organic compounds were tested for the ability to modulate citrus molecular responses to HLB disease beneficially. Three small-molecule regulating compounds were tested: 1) L-arginine, 2) 6-benzyl-adenine combined with gibberellins, and 3) sucrose combined with atrazine. Each treatment contained K-phite mineral solution and was tested at two different concentrations. T…
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)