Pairs of best mutual orthologous modules


Sce Mod Id 1

Spo Mod Id

Homology

#Ortho

Sce Size

Spo Size/b>

Module View

Motifs View

Go Enrichment

407

41

-151.67

114

156

206

Module

Motifs

protein biosynthesis (pv = -133.205693)

214

109

-55.87

44

253

54

Module

Motifs

ribosome biogenesis and assembly (pv = -111.328575)

26

66

-32.06

45

323

165

Module

Motifs

catabolism (pv = -15.5716681694389)

25

1

-31.51

40

334

137

Module

Motifs

protein folding (pv = -13.3258336872588)

58

3

-28.58

32

152

137

Module

Motifs

amino acid metabolism (pv = -55.00063358)

241

12

-22.94

20

140

47

Module

Motifs

oxidative phosphorylation (pv = -29.73083653)

52

8

-9.44

7

101

20

Module

Motifs

DNA metabolism (pv = -22.9929439572451)

306

94

-7.82

18

140

195

Module

Motifs

nucleocytoplasmic transport (pv = -4.634970943)

286

70

-6.94

4

36

12

Module

Motifs

chromatin assembly/disassembly (pv = -12.7656133488553)

565

60

-6.61

5

26

49

Module

Motifs

cell wall organization and biogenesis (pv = -3.78847280)

256

113

-6.31

7

115

42

Module

Motifs

maintenance of fidelity during DNA dependent DNA replication (pv = -4.50223708628292)

582

84

-6.1

10

142

77

Module

Motifs

ribosome biogenesis and assembly (pv = -5.108724553)

517

122

-6.05

6

50

73

Module

Motifs

siderochrome transport (pv = -13.1151600398544)

 

Back to web supplement of  "Evolutionary mechanisms underlying conservation and change in regulatory networks", Amos Tanay,  Aviv Regev and Ron Shamir, 2004


Automaticly generated by the fng library
Computational Genomics Lab, Tel-Aviv uniresity