Table S2.

Overrepresentation analyses using MetGenMap on the differentially expressed pathways in the ArabidopsisC. australis–tobacco plant cluster

No.Significantly altered pathwayP value
Tobacco leaves (Col-0-tobacco cluster)
 113-LOX and 13-HPL pathway1.94E-05
 2JA biosynthesis1.16E-03
 3Oxygenic photosynthesis1.89E-03
 4Photosynthesis light reactions2.24E-03
 5Proline degradation II4.11E-03
 6Phenylpropanoid biosynthesis7.22E-03
 7Luteolin biosynthesis1.18E-02
 8Ammonia assimilation cycle II1.64E-02
 9Thioredoxin pathway2.26E-02
 10Free phenylpropanoid acid biosynthesis2.26E-02
 11Pyrimidine deoxyribonucleotides de novo biosynthesis4.63E-02
 12GS biosynthesis from tryptophan4.63E-02
 13Superpathway of aspartate and asparagine biosynthesis4.63E-02
Tobacco leaves (dde2-2-tobacco cluster)
 1Nitrate reduction II (assimilatory)5.32E-04
 2Ammonia assimilation cycle II5.32E-04
 3Glutamine biosynthesis I5.29E-03
 413-LOX and 13-HPL pathway7.32E-03
 5β-Caryophyllene biosynthesis1.95E-02
 6Glycolipid desaturation2.91E-02
 7Suberin biosynthesis3.74E-02
 8Allantoin degradation to glyoxylate II3.86E-02
 9Ammonium transport3.86E-02
 10Allantoin degradation to ureidoglycolate II (ammonia producing)3.86E-02
 114-Aminobutyrate degradation I3.86E-02
 12Glycolate and glyoxylate degradation II3.86E-02
 13Proline degradation II3.86E-02
Tobacco leaves (Col-0-tobacco cluster)
 1Glutamine biosynthesis I2.08E-03
 2Ammonia assimilation cycle II4.87E-03
 3Nitrate reduction II (assimilatory)4.87E-03
 4Glycolipid desaturation1.19E-02
 5β-Caryophyllene biosynthesis1.22E-03
 6Proline degradation II2.42E-03
 7Ammonium transport2.42E-02
 84-Aminobutyrate degradation I2.42E-02
 9Glycolate and glyoxylate degradation II2.42E-02
 10Asparagine biosynthesis I3.61E-02
 11Trans-cinnamoyl-CoA biosynthesis4.79E-02
 12Thioredoxin pathway4.79E-02