CFinderM000121's details annotation
1.Tissue preferential analysis
root  culm  leaf  shoot  sheath  rhizome  bud  panicle  
     
2.Stress differential analysis
     
     

Protein:Yellow color--query protein     Green color--interaction proteins.
Interaction line:
Pink--proteins own interaction and positive co-expression relationship with target protein     Blue--proteins own interaction and negative co-expression relationship with target protein     Orange--proteins own interaction and protein-protein relationship with target protein
This network produced by cytoscapeweb

1.Module annotation (GSEA enrichment result)

Function AnnotationFDRGene Ontolog
proton-transporting ATP synthase complex, catalytic core F(1),0.003931966GO:0045261
ATP synthesis coupled proton transport,0.007633314GO:0015986
Terpenoid_backbone_biosynthesis0.011322866KEGG
hydrogen ion transporting ATP synthase activity, rotational mechanism,0.035652493GO:0046933
transferase activity, transferring alkyl or aryl (other than methyl) groups,0.035652493GO:0016765
proton-transporting ATPase activity, rotational mechanism,0.035652493GO:0046961

2.Module member annotation

Gene IDAnnotationArabidopsis ortholog (Blast e-value)
PH01000090G0360Undecaprenyl pyrophosphate synthetase family proteinAT5G58770 (2.20E-51)
PH01000271G0610Nucleic acid-binding proteins superfamilyAT1G71720 (1.70E-60)
PH01000390G0450ankyrin repeat proteinAT5G66055 (2.40E-73)
PH01000783G0510plastid transcriptionally active7AT5G24314 (1.10E-32)
PH01002211G0300Metallopeptidase M24 family proteinAT3G05350 (1.20E-60)
PH01002871G0080P-loop containing nucleoside triphosphate hydrolases superfamily proteinAT3G57180 (7.00E-170)
PH01004232G0040gamma subunit of Mt ATP synthaseAT2G33040 (2.60E-71)

3.Direct connection functional modules

Module IDFunction AnnotationOverlap condition
CFinderM001548protein methyltransferase activity,
proton-transporting ATP synthase complex, catalytic core F(1),
clathrin adaptor complex,
proton-transporting ATPase activity, rotational mechanism,
O-methyltransferase activity,
hydrogen ion transporting ATP synthase activity, rotational mechanism,
protein methylation,
ATP synthesis coupled proton transport,
details

4.Expression profilings