3.13 KEGG enrichment analysis of DEGs
KEGG analyses were performed to better understand the molecular
associations among the DEGs. Hundreds of transcripts were differentially
expressed in different anther stages of wheat attacked by T.
laevis and T. controversa . For T. laevis , during
0~150 µm, the top 20 KEGG enrichment pathways were
showed, but topmost pathways were protein processing in endoplasmic
reticulum and plant pathogen interaction (Figure S5A ). For
150~400 μm, the topmost pathways were plant hormone
signal transduction and plant pathogen interaction (FigureS5B ). For 400~700 μm and
700~1100 µm, the topmost pathway was protein processing
in endoplasmic reticulum (Figure S5CD ). Similarly, for
1100~1300 µm, the topmost pathways were protein
processing in endoplasmic reticulum and starch and sucrose metabolism
(Figure S5E ). For T. controversa , during
0~150 µm, the top 20 KEGG enrichment pathways were
demonstrated, but topmost pathways were phenylpropanoid biosynthesis,
glutathione metabolism, MAPK signaling pathway plant, protein processing
in endoplasmic reticulum and plant pathogen interaction (FigureS5F ). For 150~400 μm, the topmost pathways were
phenylpropanoid biosynthesis, glutathione metabolism and MAPK signaling
pathway plant (Figure S5G ). For 400~700 μm, the
topmost pathways were phenylpropanoid biosynthesis and glutathione
metabolism (Figure S5H ). For 700~1100 µm, the
topmost pathways were glutathione metabolism, MAPK signaling pathway
plant, amino sugar and nucleotide sugar metabolism and phenylpropanoid
biosynthesis (Figure S5I ). Similarly, for
1100~1300 µm, the topmost pathways were phenylpropanoid
biosynthesis and plant-pathogen interaction (Figure S5J ).