MOESM11 of Comparative proteomic analysis reveals different responses in porcine lymph nodes to virulent and attenuated homologous African swine fever virus strains

Additional file 11. Canonical pathways and functions significantly regulated by attenuated ASFV in porcine lymph node at 31 dpi. The analysis is derived from the Ingenuity Pathways Analysis

MOESM6 of Comparative proteomic analysis reveals different responses in porcine lymph nodes to virulent and attenuated homologous African swine fever virus strains

Additional file 6. Canonical pathways and functions significantly regulated by virulent ASFV in porcine lymph node at 1 dpi. The analysis is derived from the Ingenuity Pathways Analysis

MOESM7 of Comparative proteomic analysis reveals different responses in porcine lymph nodes to virulent and attenuated homologous African swine fever virus strains

Additional file 7. Canonical pathways and functions significantly regulated by attenuated ASFV in porcine lymph node at 3 dpi. The analysis is derived from the Ingenuity Pathways Analysis

MOESM1 of Comparative proteomic analysis reveals different responses in porcine lymph nodes to virulent and attenuated homologous African swine fever virus strains

Additional file 1. Differentially regulated proteins in response to ASFV infection (1 dpi). Changes of expression of all proteins altered after this time after infection

MOESM10 of Comparative proteomic analysis reveals different responses in porcine lymph nodes to virulent and attenuated homologous African swine fever virus strains

Additional file 10. Canonical pathways and functions significantly regulated by virulent ASFV in porcine lymph node at 7 dpi. The analysis is derived from the Ingenuity Pathways Analysis