Co-expression analysis results by P450 (FunCat)
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Shown below is a list of P450 genes, which are co-expressed with genes placed into a Functional Category (FunCat) at MatDB. For more info on the co-expression analysis and the databases used refer to the methods page. Go to: AcylLipid Pathways list

AraCyc Pathway list


BioPathAt Pathway list


Functional Category (FunCat) list

This list is sorted by the name of CYPS, then by frequency and numbers of annotation points. You may re-sort the table using the links below.
TAIR-GO categories


KEGG Pathway list


LitPath list








Note that not all P450s have been placed in a pathway, and there may be multiple pathway entries for a given P450.













Only Pathways with more than 5 genes are shown here, to see all entries download all data as tab delimited table













__________ _______________________________________ ________ ______________________________ ______________________________
sorted by sort by sort by sort by number or frequency of sort by number or frequency of
name pathway dataset co-expressed genes scores of co-expressed genes
CYP51A2 transport routes mutant 5 28 % 27 31 %
CYP51A2 biogenesis of chloroplast mutant 9 15 % 56 15 %
CYP51A2 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 6 6 % 40 8 %
CYP51A2 transport mutant 12 7 % 63 7 %
CYP51A2 transport facilitation mutant 6 4 % 34 5 %
CYP71A13 amino acid metabolism stress 7 7 % 50 8 %
CYP71A13 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) stress 9 9 % 34 7 %
CYP71A13 glycolysis and gluconeogenesis stress 7 6 % 31 5 %
CYP71A13 C-compound and carbohydrate metabolism stress 15 6 % 61 5 %
CYP71A16 detoxification organ 8 15 % 23 14 %
CYP71A16 lipid, fatty acid and isoprenoid biosynthesis organ 5 9 % 22 7 %
CYP71A16 isoprenoid biosynthesis organ 5 8 % 22 6 %
CYP71A18 pyrimidine nucleotide metabolism mutant 5 29 % 26 35 %
CYP71A18 metabolism of energy reserves (e.g. glycogen, trehalose) mutant 6 17 % 28 17 %
CYP71A18 intracellular signalling mutant 7 13 % 28 14 %
CYP71A18 nucleotide metabolism mutant 8 13 % 38 14 %
CYP71A18 energy mutant 6 12 % 28 11 %
CYP71A18 transcription mutant 7 12 % 27 10 %
CYP71A18 biogenesis of cell wall mutant 7 11 % 20 7 %
CYP71A18 RNA synthesis mutant 5 7 % 21 7 %
CYP71A18 C-compound and carbohydrate utilization mutant 5 9 % 14 5 %
CYP71A18 biogenesis of cell wall organ 5 8 % 12 4 %
CYP71A18 transport mutant 5 3 % 12 1 %
CYP71B10 glycolysis and gluconeogenesis organ 6 5 % 28 5 %
CYP71B11 photosynthesis hormone 6 14 % 40 15 %
CYP71B14 glycolysis and gluconeogenesis organ 5 4 % 24 4 %
CYP71B15 lipid, fatty acid and isoprenoid degradation stress 5 19 % 36 28 %
CYP71B15 intracellular signalling mutant 6 11 % 19 9 %
CYP71B15 amino acid metabolism hormone 8 8 % 59 9 %
CYP71B15 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) stress 10 10 % 38 7 %
CYP71B15 amino acid metabolism stress 6 6 % 44 7 %
CYP71B15 C-compound and carbohydrate metabolism stress 17 6 % 74 6 %
CYP71B15 glycolysis and gluconeogenesis stress 6 5 % 27 4 %
CYP71B16 electron transport and membrane-associated energy conservation mutant 6 67 % 26 57 %
CYP71B16 transported compounds (substrates) mutant 8 35 % 50 42 %
CYP71B16 aerobic respiration mutant 6 40 % 40 37 %
CYP71B16 biogenesis of chloroplast mutant 21 34 % 140 36 %
CYP71B16 transport routes mutant 6 33 % 30 34 %
CYP71B16 degradation mutant 8 31 % 39 34 %
CYP71B16 protein degradation mutant 6 32 % 27 33 %
CYP71B16 photosynthesis mutant 13 30 % 86 33 %
CYP71B16 respiration mutant 6 26 % 40 30 %
CYP71B16 nitrogen and sulfur metabolism mutant 5 25 % 40 26 %
CYP71B16 aminoacyl-tRNA-synthetases mutant 5 28 % 12 24 %
CYP71B16 energy mutant 11 22 % 51 21 %
CYP71B16 protein synthesis mutant 25 20 % 120 20 %
CYP71B16 glycolysis and gluconeogenesis mutant 22 19 % 116 19 %
CYP71B16 C-compound and carbohydrate metabolism mutant 46 17 % 240 19 %
CYP71B16 nucleotide metabolism mutant 11 18 % 52 19 %
CYP71B16 transport mutant 29 17 % 154 18 %
CYP71B16 amino acid metabolism mutant 15 15 % 108 16 %
CYP71B16 stress response mutant 6 13 % 39 15 %
CYP71B16 lipid, fatty acid and isoprenoid metabolism mutant 6 15 % 37 15 %
CYP71B16 transport facilitation mutant 17 12 % 96 14 %
CYP71B16 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 11 11 % 72 14 %
CYP71B16 intracellular signalling mutant 9 16 % 27 13 %
CYP71B16 C-compound, carbohydrate catabolism mutant 6 15 % 16 11 %
CYP71B16 ribosome biogenesis mutant 17 10 % 90 10 %
CYP71B16 C-compound and carbohydrate utilization mutant 6 11 % 23 9 %
CYP71B16 biogenesis of cell wall mutant 7 11 % 24 9 %
CYP71B16 nucleotide metabolism hormone 5 8 % 22 8 %
CYP71B16 biogenesis of cell wall hormone 6 9 % 16 6 %
CYP71B17 C-compound, carbohydrate catabolism mutant 9 22 % 34 23 %
CYP71B17 degradation mutant 5 19 % 24 21 %
CYP71B17 intracellular signalling mutant 8 15 % 33 16 %
CYP71B17 biogenesis of cell wall mutant 15 23 % 44 16 %
CYP71B17 secondary metabolism mutant 10 17 % 32 13 %
CYP71B17 mRNA synthesis mutant 5 19 % 15 13 %
CYP71B17 nucleotide metabolism mutant 7 12 % 34 12 %
CYP71B17 transcription mutant 8 13 % 30 11 %
CYP71B17 energy mutant 6 12 % 28 11 %
CYP71B17 metabolism of energy reserves (e.g. glycogen, trehalose) mutant 5 14 % 18 11 %
CYP71B17 glycolysis and gluconeogenesis mutant 15 13 % 60 10 %
CYP71B17 C-compound and carbohydrate utilization mutant 7 13 % 25 10 %
CYP71B17 lipid, fatty acid and isoprenoid biosynthesis mutant 5 9 % 28 9 %
CYP71B17 RNA synthesis mutant 7 10 % 28 9 %
CYP71B17 isoprenoid biosynthesis mutant 5 8 % 28 8 %
CYP71B17 nucleotide metabolism hormone 5 8 % 22 8 %
CYP71B17 transport mutant 15 9 % 60 7 %
CYP71B17 transport facilitation mutant 13 9 % 46 7 %
CYP71B17 biogenesis of cell wall hormone 6 9 % 16 6 %
CYP71B17 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 6 6 % 28 5 %
CYP71B17 ribosome biogenesis mutant 7 4 % 42 5 %
CYP71B19 photosynthesis organ 21 48 % 142 54 %
CYP71B19 biogenesis of chloroplast organ 25 41 % 151 39 %
CYP71B19 aerobic respiration organ 5 33 % 40 37 %
CYP71B19 respiration organ 6 26 % 44 33 %
CYP71B19 energy organ 6 12 % 44 18 %
CYP71B19 glycolysis and gluconeogenesis organ 15 13 % 99 17 %
CYP71B19 transport organ 16 9 % 99 12 %
CYP71B19 C-compound and carbohydrate metabolism organ 21 8 % 130 10 %
CYP71B19 transport facilitation organ 8 6 % 50 7 %
CYP71B19 amino acid metabolism organ 5 5 % 32 5 %
CYP71B2 C-compound, carbohydrate catabolism mutant 7 17 % 28 19 %
CYP71B2 intracellular signalling mutant 7 13 % 29 14 %
CYP71B2 biogenesis of cell wall mutant 13 20 % 38 14 %
CYP71B2 nucleotide metabolism mutant 7 12 % 34 12 %
CYP71B2 secondary metabolism mutant 8 13 % 23 9 %
CYP71B2 transcription mutant 5 8 % 23 9 %
CYP71B2 transport facilitation mutant 10 7 % 36 5 %
CYP71B2 transport mutant 11 6 % 40 5 %
CYP71B20 photosynthesis organ 21 48 % 142 54 %
CYP71B20 biogenesis of chloroplast organ 25 41 % 151 39 %
CYP71B20 aerobic respiration organ 5 33 % 40 37 %
CYP71B20 respiration organ 6 26 % 44 33 %
CYP71B20 energy organ 6 12 % 44 18 %
CYP71B20 glycolysis and gluconeogenesis organ 15 13 % 99 17 %
CYP71B20 transport organ 16 9 % 99 12 %
CYP71B20 C-compound and carbohydrate metabolism organ 21 8 % 130 10 %
CYP71B20 transport facilitation organ 8 6 % 50 7 %
CYP71B20 amino acid metabolism organ 5 5 % 32 5 %
CYP71B21 lipid, fatty acid and isoprenoid degradation mutant 5 19 % 35 27 %
CYP71B21 C-compound, carbohydrate catabolism mutant 8 20 % 32 22 %
CYP71B21 degradation mutant 5 19 % 24 21 %
CYP71B21 biogenesis of cell wall mutant 16 25 % 54 20 %
CYP71B21 intracellular signalling mutant 8 15 % 33 16 %
CYP71B21 metabolism of energy reserves (e.g. glycogen, trehalose) mutant 6 17 % 22 13 %
CYP71B21 nucleotide metabolism mutant 8 13 % 36 13 %
CYP71B21 energy mutant 7 14 % 32 13 %
CYP71B21 secondary metabolism mutant 10 17 % 32 13 %
CYP71B21 mRNA synthesis mutant 5 19 % 15 13 %
CYP71B21 transcription mutant 8 13 % 30 11 %
CYP71B21 detoxification mutant 6 11 % 16 10 %
CYP71B21 lipid, fatty acid and isoprenoid biosynthesis mutant 5 9 % 28 9 %
CYP71B21 protein synthesis mutant 11 9 % 54 9 %
CYP71B21 RNA synthesis mutant 7 10 % 28 9 %
CYP71B21 nucleotide metabolism hormone 6 10 % 24 9 %
CYP71B21 isoprenoid biosynthesis mutant 5 8 % 28 8 %
CYP71B21 C-compound and carbohydrate utilization mutant 6 11 % 21 8 %
CYP71B21 transport mutant 16 9 % 64 8 %
CYP71B21 transport facilitation mutant 14 10 % 50 7 %
CYP71B21 biogenesis of cell wall hormone 7 11 % 18 7 %
CYP71B21 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 6 6 % 28 5 %
CYP71B21 ribosome biogenesis mutant 8 5 % 48 5 %
CYP71B21 C-compound and carbohydrate metabolism hormone 11 4 % 42 3 %
CYP71B21 glycolysis and gluconeogenesis hormone 5 4 % 20 3 %
CYP71B21 transport hormone 5 3 % 18 2 %
CYP71B23 detoxification stress 6 11 % 15 9 %
CYP71B23 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) stress 9 9 % 40 8 %
CYP71B23 C-compound and carbohydrate metabolism stress 11 4 % 57 5 %
CYP71B24 photosynthesis organ 9 20 % 56 21 %
CYP71B24 energy organ 5 10 % 32 13 %
CYP71B24 biogenesis of chloroplast organ 7 11 % 45 12 %
CYP71B24 glycolysis and gluconeogenesis organ 10 9 % 57 10 %
CYP71B24 transport facilitation organ 6 4 % 48 7 %
CYP71B24 transport organ 8 5 % 60 7 %
CYP71B24 C-compound and carbohydrate metabolism organ 14 5 % 74 6 %
CYP71B25 lipid, fatty acid and isoprenoid degradation mutant 5 19 % 35 27 %
CYP71B25 C-compound, carbohydrate catabolism mutant 8 20 % 32 22 %
CYP71B25 degradation mutant 5 19 % 24 21 %
CYP71B25 biogenesis of cell wall mutant 16 25 % 54 20 %
CYP71B25 intracellular signalling mutant 8 15 % 33 16 %
CYP71B25 C-compound and carbohydrate metabolism mutant 41 16 % 165 13 %
CYP71B25 metabolism of energy reserves (e.g. glycogen, trehalose) mutant 6 17 % 22 13 %
CYP71B25 nucleotide metabolism mutant 8 13 % 36 13 %
CYP71B25 energy mutant 7 14 % 32 13 %
CYP71B25 secondary metabolism mutant 10 17 % 32 13 %
CYP71B25 mRNA synthesis mutant 5 19 % 15 13 %
CYP71B25 transcription mutant 8 13 % 30 11 %
CYP71B25 lipid, fatty acid and isoprenoid biosynthesis mutant 6 11 % 32 11 %
CYP71B25 detoxification mutant 6 11 % 16 10 %
CYP71B25 isoprenoid biosynthesis mutant 6 10 % 32 9 %
CYP71B25 protein synthesis mutant 11 9 % 54 9 %
CYP71B25 RNA synthesis mutant 7 10 % 28 9 %
CYP71B25 nucleotide metabolism hormone 6 10 % 24 9 %
CYP71B25 C-compound and carbohydrate utilization mutant 6 11 % 21 8 %
CYP71B25 transport mutant 16 9 % 64 8 %
CYP71B25 transport facilitation mutant 14 10 % 50 7 %
CYP71B25 biogenesis of cell wall hormone 7 11 % 18 7 %
CYP71B25 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 7 7 % 32 6 %
CYP71B25 ribosome biogenesis mutant 8 5 % 48 5 %
CYP71B25 C-compound and carbohydrate metabolism hormone 11 4 % 42 3 %
CYP71B25 glycolysis and gluconeogenesis hormone 5 4 % 20 3 %
CYP71B25 transport hormone 5 3 % 18 2 %
CYP71B26 aerobic respiration organ 5 33 % 40 37 %
CYP71B26 respiration organ 6 26 % 44 33 %
CYP71B26 aerobic respiration mutant 5 33 % 32 30 %
CYP71B26 photosynthesis organ 10 23 % 73 28 %
CYP71B26 photosynthesis mutant 11 25 % 70 27 %
CYP71B26 biogenesis of chloroplast mutant 13 21 % 96 25 %
CYP71B26 respiration mutant 5 22 % 32 24 %
CYP71B26 biogenesis of chloroplast organ 12 20 % 86 22 %
CYP71B26 energy mutant 6 12 % 32 13 %
CYP71B26 glycolysis and gluconeogenesis mutant 12 10 % 62 10 %
CYP71B26 protein synthesis mutant 11 9 % 58 9 %
CYP71B26 amino acid metabolism mutant 7 7 % 60 9 %
CYP71B26 transport mutant 14 8 % 75 9 %
CYP71B26 transport organ 10 6 % 64 8 %
CYP71B26 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 5 5 % 36 7 %
CYP71B26 C-compound and carbohydrate metabolism organ 10 4 % 64 5 %
CYP71B26 transport facilitation mutant 6 4 % 31 5 %
CYP71B28 photosynthesis organ 20 45 % 126 48 %
CYP71B28 biogenesis of chloroplast organ 22 36 % 135 35 %
CYP71B28 protein degradation organ 5 26 % 25 30 %
CYP71B28 degradation organ 5 19 % 25 22 %
CYP71B28 glycolysis and gluconeogenesis organ 15 13 % 95 16 %
CYP71B28 energy organ 5 10 % 38 15 %
CYP71B28 C-compound and carbohydrate metabolism organ 26 10 % 146 12 %
CYP71B28 transport organ 15 9 % 85 10 %
CYP71B28 amino acid metabolism organ 7 7 % 51 8 %
CYP71B28 transport facilitation organ 9 6 % 49 7 %
CYP71B28 glycolysis and gluconeogenesis stress 6 5 % 30 5 %
CYP71B28 C-compound and carbohydrate metabolism stress 11 4 % 58 5 %
CYP71B28 protein synthesis organ 6 5 % 24 4 %
CYP71B29 detoxification organ 6 11 % 12 7 %
CYP71B30P electron transport and membrane-associated energy conservation mutant 6 67 % 26 57 %
CYP71B30P transported compounds (substrates) mutant 8 35 % 50 42 %
CYP71B30P aerobic respiration mutant 6 40 % 40 37 %
CYP71B30P biogenesis of chloroplast mutant 21 34 % 140 36 %
CYP71B30P transport routes mutant 6 33 % 30 34 %
CYP71B30P degradation mutant 8 31 % 39 34 %
CYP71B30P protein degradation mutant 6 32 % 27 33 %
CYP71B30P photosynthesis mutant 13 30 % 86 33 %
CYP71B30P respiration mutant 6 26 % 40 30 %
CYP71B30P nitrogen and sulfur metabolism mutant 5 25 % 40 26 %
CYP71B30P aminoacyl-tRNA-synthetases mutant 5 28 % 12 24 %
CYP71B30P energy mutant 11 22 % 51 21 %
CYP71B30P protein synthesis mutant 25 20 % 120 20 %
CYP71B30P glycolysis and gluconeogenesis mutant 22 19 % 116 19 %
CYP71B30P C-compound and carbohydrate metabolism mutant 46 17 % 240 19 %
CYP71B30P nucleotide metabolism mutant 11 18 % 52 19 %
CYP71B30P transport mutant 29 17 % 154 18 %
CYP71B30P amino acid metabolism mutant 15 15 % 108 16 %
CYP71B30P stress response mutant 6 13 % 39 15 %
CYP71B30P lipid, fatty acid and isoprenoid metabolism mutant 6 15 % 37 15 %
CYP71B30P transport facilitation mutant 17 12 % 96 14 %
CYP71B30P tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 11 11 % 72 14 %
CYP71B30P intracellular signalling mutant 9 16 % 27 13 %
CYP71B30P C-compound, carbohydrate catabolism mutant 6 15 % 16 11 %
CYP71B30P ribosome biogenesis mutant 17 10 % 90 10 %
CYP71B30P C-compound and carbohydrate utilization mutant 6 11 % 23 9 %
CYP71B30P biogenesis of cell wall mutant 7 11 % 24 9 %
CYP71B30P nucleotide metabolism hormone 6 10 % 24 9 %
CYP71B30P biogenesis of cell wall hormone 7 11 % 18 7 %
CYP71B30P C-compound and carbohydrate metabolism hormone 11 4 % 42 3 %
CYP71B30P glycolysis and gluconeogenesis hormone 5 4 % 20 3 %
CYP71B30P transport hormone 5 3 % 18 2 %
CYP71B31 intracellular signalling mutant 6 11 % 26 13 %
CYP71B31 nucleotide metabolism mutant 6 10 % 28 10 %
CYP71B31 biogenesis of cell wall mutant 8 13 % 22 8 %
CYP71B31 biogenesis of cell wall hormone 7 11 % 16 6 %
CYP71B34 photosynthesis organ 22 50 % 138 52 %
CYP71B34 biogenesis of chloroplast organ 23 38 % 147 38 %
CYP71B34 glycolysis and gluconeogenesis organ 15 13 % 95 16 %
CYP71B34 C-compound and carbohydrate metabolism organ 27 10 % 156 13 %
CYP71B34 transport organ 14 8 % 81 10 %
CYP71B34 amino acid metabolism organ 6 6 % 49 7 %
CYP71B34 transport facilitation organ 7 5 % 38 6 %
CYP71B34 protein synthesis organ 8 6 % 32 5 %
CYP71B34 transport mutant 5 3 % 25 3 %
CYP71B34 ribosome biogenesis organ 5 3 % 18 2 %
CYP71B34 C-compound and carbohydrate metabolism stress 5 2 % 18 1 %
CYP71B35 photosynthesis organ 18 41 % 110 42 %
CYP71B35 biogenesis of chloroplast organ 14 23 % 91 24 %
CYP71B35 glycolysis and gluconeogenesis organ 13 11 % 83 14 %
CYP71B35 C-compound and carbohydrate metabolism organ 18 7 % 107 9 %
CYP71B35 transport organ 8 5 % 53 6 %
CYP71B35 transport facilitation organ 6 4 % 39 6 %
CYP71B36 photosynthesis stress 9 20 % 40 15 %
CYP71B36 biogenesis of chloroplast stress 8 13 % 42 11 %
CYP71B36 glycolysis and gluconeogenesis stress 6 5 % 28 5 %
CYP71B36 C-compound and carbohydrate metabolism stress 11 4 % 53 4 %
CYP71B36 protein synthesis stress 7 6 % 18 3 %
CYP71B38 aminoacyl-tRNA-synthetases mutant 5 28 % 12 24 %
CYP71B38 protein synthesis mutant 15 12 % 66 11 %
CYP71B38 transport mutant 15 9 % 82 10 %
CYP71B38 photosynthesis mutant 5 11 % 24 9 %
CYP71B38 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 7 7 % 44 9 %
CYP71B38 transport facilitation mutant 8 6 % 44 7 %
CYP71B38 intracellular signalling mutant 5 9 % 12 6 %
CYP71B38 ribosome biogenesis mutant 9 5 % 50 5 %
CYP71B38 biogenesis of cell wall hormone 6 9 % 14 5 %
CYP71B4 photosynthesis organ 7 16 % 45 17 %
CYP71B4 biogenesis of chloroplast organ 9 15 % 56 15 %
CYP71B4 glycolysis and gluconeogenesis organ 6 5 % 38 6 %
CYP71B4 C-compound and carbohydrate metabolism organ 13 5 % 69 6 %
CYP71B5 biogenesis of cell wall hormone 6 9 % 14 5 %
CYP71B6 amino acid metabolism stress 8 8 % 50 8 %
CYP71B6 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 6 6 % 34 7 %
CYP71B6 C-compound and carbohydrate metabolism stress 5 2 % 21 2 %
CYP71B7 aerobic respiration mutant 6 40 % 42 39 %
CYP71B7 photosynthesis mutant 14 32 % 94 36 %
CYP71B7 respiration mutant 6 26 % 42 32 %
CYP71B7 biogenesis of chloroplast mutant 15 25 % 116 30 %
CYP71B7 transported compounds (substrates) mutant 5 22 % 30 25 %
CYP71B7 glycolysis and gluconeogenesis mutant 18 15 % 108 18 %
CYP71B7 C-compound and carbohydrate metabolism mutant 35 13 % 189 15 %
CYP71B7 intracellular signalling mutant 8 15 % 25 12 %
CYP71B7 transport mutant 16 9 % 99 12 %
CYP71B7 nucleotide metabolism mutant 6 10 % 32 11 %
CYP71B7 lipid, fatty acid and isoprenoid metabolism mutant 5 12 % 28 11 %
CYP71B7 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 9 9 % 50 10 %
CYP71B7 amino acid metabolism mutant 9 9 % 62 9 %
CYP71B7 transport facilitation mutant 10 7 % 61 9 %
CYP71B7 amino acid metabolism organ 6 6 % 44 7 %
CYP71B8 biogenesis of cell wall hormone 7 11 % 16 6 %
CYP72A11 photosynthesis organ 29 66 % 182 69 %
CYP72A11 biogenesis of chloroplast organ 37 61 % 247 64 %
CYP72A11 channel / pore class transport organ 5 33 % 30 51 %
CYP72A11 biogenesis of chloroplast mutant 23 38 % 148 38 %
CYP72A11 aerobic respiration organ 5 33 % 40 37 %
CYP72A11 protein degradation mutant 6 32 % 29 35 %
CYP72A11 photosynthesis mutant 14 32 % 92 35 %
CYP72A11 respiration organ 6 26 % 44 33 %
CYP72A11 pentose-phosphate pathway organ 5 24 % 38 32 %
CYP72A11 protein degradation organ 5 26 % 25 30 %
CYP72A11 aerobic respiration mutant 5 33 % 32 30 %
CYP72A11 transport routes mutant 5 28 % 24 28 %
CYP72A11 transported compounds (substrates) mutant 5 22 % 31 26 %
CYP72A11 glycolysis and gluconeogenesis organ 25 21 % 155 26 %
CYP72A11 degradation mutant 6 23 % 29 25 %
CYP72A11 respiration mutant 5 22 % 32 24 %
CYP72A11 degradation organ 6 23 % 27 23 %
CYP72A11 lipid, fatty acid and isoprenoid metabolism mutant 7 17 % 51 21 %
CYP72A11 biogenesis of chloroplast hormone 9 15 % 76 20 %
CYP72A11 energy organ 7 14 % 48 19 %
CYP72A11 C-compound and carbohydrate metabolism organ 42 16 % 241 19 %
CYP72A11 lipid, fatty acid and isoprenoid metabolism organ 6 15 % 47 19 %
CYP72A11 transported compounds (substrates) organ 5 22 % 22 18 %
CYP72A11 glycolysis and gluconeogenesis mutant 18 15 % 102 17 %
CYP72A11 C-compound and carbohydrate metabolism mutant 37 14 % 213 17 %
CYP72A11 secondary metabolism organ 6 10 % 40 16 %
CYP72A11 lipid, fatty acid and isoprenoid biosynthesis organ 7 13 % 46 15 %
CYP72A11 biosynthesis of phenylpropanoids mutant 5 15 % 26 15 %
CYP72A11 biosynthesis of secondary products derived from L-phenylalanine and L-tyrosine mutant 5 15 % 26 15 %
CYP72A11 transport mutant 22 13 % 127 15 %
CYP72A11 amino acid metabolism organ 12 12 % 95 14 %
CYP72A11 transport organ 21 12 % 121 14 %
CYP72A11 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 10 10 % 72 14 %
CYP72A11 isoprenoid biosynthesis organ 7 11 % 46 13 %
CYP72A11 energy mutant 5 10 % 30 12 %
CYP72A11 amino acid metabolism mutant 10 10 % 80 12 %
CYP72A11 transport facilitation mutant 12 8 % 75 11 %
CYP72A11 transport facilitation organ 12 8 % 70 10 %
CYP72A11 lipid, fatty acid and isoprenoid biosynthesis mutant 5 9 % 28 9 %
CYP72A11 protein synthesis mutant 11 9 % 56 9 %
CYP72A11 isoprenoid biosynthesis mutant 5 8 % 28 8 %
CYP72A11 protein synthesis organ 10 8 % 36 6 %
CYP72A11 transport hormone 10 6 % 49 6 %
CYP72A11 transport facilitation hormone 6 4 % 26 4 %
CYP72A11 C-compound and carbohydrate metabolism stress 7 3 % 41 3 %
CYP72A11 protein synthesis hormone 6 5 % 14 2 %
CYP72A11 ribosome biogenesis organ 6 4 % 20 2 %
CYP72A13 biogenesis of chloroplast organ 7 11 % 46 12 %
CYP72A15 energy mutant 6 12 % 28 11 %
CYP72A15 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 5 5 % 40 8 %
CYP72A15 transport mutant 11 6 % 48 6 %
CYP72A15 transport facilitation mutant 6 4 % 30 4 %
CYP72A8 transport organ 5 3 % 40 5 %
CYP73A5 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) hormone 7 7 % 40 8 %
CYP73A5 transport hormone 5 3 % 25 3 %
CYP73A5 C-compound and carbohydrate metabolism stress 5 2 % 20 2 %
CYP74A photosynthesis organ 8 18 % 47 18 %
CYP74A biogenesis of chloroplast organ 10 16 % 56 15 %
CYP74A amino acid metabolism organ 8 8 % 61 9 %
CYP74A glycolysis and gluconeogenesis organ 7 6 % 42 7 %
CYP74B2 aerobic respiration organ 5 33 % 40 37 %
CYP74B2 respiration organ 7 30 % 46 35 %
CYP74B2 photosynthesis organ 13 30 % 90 34 %
CYP74B2 biogenesis of chloroplast organ 15 25 % 93 24 %
CYP74B2 energy organ 5 10 % 34 14 %
CYP74B2 secondary metabolism hormone 6 10 % 24 10 %
CYP74B2 glycolysis and gluconeogenesis organ 7 6 % 51 9 %
CYP74B2 transport organ 9 5 % 58 7 %
CYP74B2 C-compound and carbohydrate metabolism organ 12 5 % 73 6 %
CYP74B2 transport facilitation organ 5 3 % 32 5 %
CYP76C1 C-compound and carbohydrate metabolism stress 8 3 % 52 4 %
CYP76C2 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) stress 7 7 % 42 8 %
CYP76C2 amino acid metabolism stress 5 5 % 37 6 %
CYP76C2 C-compound and carbohydrate metabolism stress 14 5 % 68 5 %
CYP76C7 glycolysis and gluconeogenesis organ 6 5 % 28 5 %
CYP76C7 C-compound and carbohydrate metabolism stress 6 2 % 24 2 %
CYP76G1 C-compound, carbohydrate catabolism mutant 7 17 % 28 19 %
CYP76G1 intracellular signalling mutant 7 13 % 29 14 %
CYP76G1 biogenesis of cell wall mutant 13 20 % 38 14 %
CYP76G1 nucleotide metabolism mutant 7 12 % 34 12 %
CYP76G1 secondary metabolism mutant 8 13 % 23 9 %
CYP76G1 transcription mutant 5 8 % 23 9 %
CYP76G1 detoxification mutant 5 9 % 14 9 %
CYP76G1 nucleotide metabolism hormone 5 8 % 22 8 %
CYP76G1 biogenesis of cell wall hormone 6 9 % 16 6 %
CYP76G1 transport facilitation mutant 10 7 % 36 5 %
CYP76G1 transport mutant 11 6 % 40 5 %
CYP77A6 biogenesis of cell wall hormone 6 9 % 14 5 %
CYP77A9 lipid, fatty acid and isoprenoid degradation mutant 5 19 % 35 27 %
CYP77A9 C-compound, carbohydrate catabolism mutant 8 20 % 32 22 %
CYP77A9 degradation mutant 5 19 % 24 21 %
CYP77A9 biogenesis of cell wall mutant 16 25 % 54 20 %
CYP77A9 intracellular signalling mutant 8 15 % 33 16 %
CYP77A9 C-compound and carbohydrate metabolism mutant 41 16 % 165 13 %
CYP77A9 metabolism of energy reserves (e.g. glycogen, trehalose) mutant 6 17 % 22 13 %
CYP77A9 nucleotide metabolism mutant 8 13 % 36 13 %
CYP77A9 energy mutant 7 14 % 32 13 %
CYP77A9 secondary metabolism mutant 10 17 % 32 13 %
CYP77A9 mRNA synthesis mutant 5 19 % 15 13 %
CYP77A9 transcription mutant 8 13 % 30 11 %
CYP77A9 detoxification mutant 6 11 % 16 10 %
CYP77A9 lipid, fatty acid and isoprenoid biosynthesis mutant 5 9 % 28 9 %
CYP77A9 protein synthesis mutant 11 9 % 54 9 %
CYP77A9 RNA synthesis mutant 7 10 % 28 9 %
CYP77A9 nucleotide metabolism hormone 6 10 % 24 9 %
CYP77A9 isoprenoid biosynthesis mutant 5 8 % 28 8 %
CYP77A9 C-compound and carbohydrate utilization mutant 6 11 % 21 8 %
CYP77A9 transport mutant 16 9 % 64 8 %
CYP77A9 transport facilitation mutant 14 10 % 50 7 %
CYP77A9 amino acid metabolism mutant 11 11 % 46 7 %
CYP77A9 biogenesis of cell wall hormone 7 11 % 18 7 %
CYP77A9 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 6 6 % 28 5 %
CYP77A9 ribosome biogenesis mutant 8 5 % 48 5 %
CYP77A9 C-compound and carbohydrate metabolism hormone 11 4 % 42 3 %
CYP77A9 glycolysis and gluconeogenesis hormone 5 4 % 20 3 %
CYP77A9 transport hormone 5 3 % 18 2 %
CYP78A10 lipid, fatty acid and isoprenoid degradation mutant 5 19 % 35 27 %
CYP78A10 C-compound, carbohydrate catabolism mutant 8 20 % 32 22 %
CYP78A10 degradation mutant 5 19 % 24 21 %
CYP78A10 biogenesis of cell wall mutant 16 25 % 54 20 %
CYP78A10 intracellular signalling mutant 8 15 % 33 16 %
CYP78A10 secondary metabolism hormone 7 12 % 36 14 %
CYP78A10 metabolism of energy reserves (e.g. glycogen, trehalose) mutant 6 17 % 22 13 %
CYP78A10 nucleotide metabolism mutant 8 13 % 36 13 %
CYP78A10 energy mutant 7 14 % 32 13 %
CYP78A10 secondary metabolism mutant 10 17 % 32 13 %
CYP78A10 mRNA synthesis mutant 5 19 % 15 13 %
CYP78A10 transcription mutant 8 13 % 30 11 %
CYP78A10 detoxification mutant 6 11 % 16 10 %
CYP78A10 intracellular signalling hormone 5 9 % 19 9 %
CYP78A10 lipid, fatty acid and isoprenoid biosynthesis mutant 5 9 % 28 9 %
CYP78A10 protein synthesis mutant 11 9 % 54 9 %
CYP78A10 RNA synthesis mutant 7 10 % 28 9 %
CYP78A10 isoprenoid biosynthesis mutant 5 8 % 28 8 %
CYP78A10 C-compound and carbohydrate utilization mutant 6 11 % 21 8 %
CYP78A10 transport mutant 16 9 % 64 8 %
CYP78A10 transport facilitation mutant 14 10 % 50 7 %
CYP78A10 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 6 6 % 28 5 %
CYP78A10 ribosome biogenesis mutant 8 5 % 48 5 %
CYP78A8 biogenesis of cell wall mutant 5 8 % 12 4 %
CYP79A2 lipid, fatty acid and isoprenoid degradation mutant 5 19 % 35 27 %
CYP79A2 C-compound, carbohydrate catabolism mutant 8 20 % 32 22 %
CYP79A2 degradation mutant 5 19 % 24 21 %
CYP79A2 biogenesis of cell wall mutant 16 25 % 54 20 %
CYP79A2 intracellular signalling mutant 8 15 % 33 16 %
CYP79A2 C-compound and carbohydrate metabolism mutant 41 16 % 165 13 %
CYP79A2 metabolism of energy reserves (e.g. glycogen, trehalose) mutant 6 17 % 22 13 %
CYP79A2 nucleotide metabolism mutant 8 13 % 36 13 %
CYP79A2 energy mutant 7 14 % 32 13 %
CYP79A2 secondary metabolism mutant 10 17 % 32 13 %
CYP79A2 mRNA synthesis mutant 5 19 % 15 13 %
CYP79A2 transcription mutant 8 13 % 30 11 %
CYP79A2 detoxification mutant 6 11 % 16 10 %
CYP79A2 glycolysis and gluconeogenesis mutant 14 12 % 58 10 %
CYP79A2 lipid, fatty acid and isoprenoid biosynthesis mutant 5 9 % 28 9 %
CYP79A2 protein synthesis mutant 11 9 % 54 9 %
CYP79A2 RNA synthesis mutant 7 10 % 28 9 %
CYP79A2 nucleotide metabolism hormone 6 10 % 24 9 %
CYP79A2 isoprenoid biosynthesis mutant 5 8 % 28 8 %
CYP79A2 C-compound and carbohydrate utilization mutant 6 11 % 21 8 %
CYP79A2 transport mutant 16 9 % 64 8 %
CYP79A2 transport facilitation mutant 14 10 % 50 7 %
CYP79A2 amino acid metabolism mutant 11 11 % 46 7 %
CYP79A2 biogenesis of cell wall hormone 7 11 % 18 7 %
CYP79A2 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 6 6 % 28 5 %
CYP79A2 ribosome biogenesis mutant 8 5 % 48 5 %
CYP79A2 C-compound and carbohydrate metabolism hormone 11 4 % 42 3 %
CYP79A2 glycolysis and gluconeogenesis hormone 5 4 % 20 3 %
CYP79A2 transport hormone 5 3 % 18 2 %
CYP79A4P electron transport and membrane-associated energy conservation mutant 6 67 % 26 57 %
CYP79A4P transported compounds (substrates) mutant 8 35 % 50 42 %
CYP79A4P aerobic respiration mutant 6 40 % 40 37 %
CYP79A4P biogenesis of chloroplast mutant 21 34 % 140 36 %
CYP79A4P transport routes mutant 6 33 % 30 34 %
CYP79A4P degradation mutant 8 31 % 39 34 %
CYP79A4P protein degradation mutant 6 32 % 27 33 %
CYP79A4P photosynthesis mutant 13 30 % 86 33 %
CYP79A4P respiration mutant 6 26 % 40 30 %
CYP79A4P nitrogen and sulfur metabolism mutant 5 25 % 40 26 %
CYP79A4P aminoacyl-tRNA-synthetases mutant 5 28 % 12 24 %
CYP79A4P energy mutant 11 22 % 51 21 %
CYP79A4P protein synthesis mutant 25 20 % 120 20 %
CYP79A4P glycolysis and gluconeogenesis mutant 22 19 % 116 19 %
CYP79A4P C-compound and carbohydrate metabolism mutant 46 17 % 240 19 %
CYP79A4P nucleotide metabolism mutant 11 18 % 52 19 %
CYP79A4P transport mutant 29 17 % 154 18 %
CYP79A4P amino acid metabolism mutant 15 15 % 108 16 %
CYP79A4P stress response mutant 6 13 % 39 15 %
CYP79A4P lipid, fatty acid and isoprenoid metabolism mutant 6 15 % 37 15 %
CYP79A4P transport facilitation mutant 17 12 % 96 14 %
CYP79A4P tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 11 11 % 72 14 %
CYP79A4P intracellular signalling mutant 9 16 % 27 13 %
CYP79A4P C-compound, carbohydrate catabolism mutant 6 15 % 16 11 %
CYP79A4P ribosome biogenesis mutant 17 10 % 90 10 %
CYP79A4P C-compound and carbohydrate utilization mutant 6 11 % 23 9 %
CYP79A4P biogenesis of cell wall mutant 7 11 % 24 9 %
CYP79A4P nucleotide metabolism hormone 6 10 % 24 9 %
CYP79A4P biogenesis of cell wall hormone 7 11 % 18 7 %
CYP79A4P C-compound and carbohydrate metabolism hormone 11 4 % 42 3 %
CYP79A4P glycolysis and gluconeogenesis hormone 5 4 % 20 3 %
CYP79A4P transport hormone 5 3 % 18 2 %
CYP79B2 amino acid metabolism stress 7 7 % 56 8 %
CYP79C5P degradation mutant 5 19 % 24 21 %
CYP79C5P C-compound, carbohydrate catabolism mutant 7 17 % 28 19 %
CYP79C5P biogenesis of cell wall mutant 14 22 % 40 14 %
CYP79C5P intracellular signalling mutant 7 13 % 29 14 %
CYP79C5P nucleotide metabolism mutant 7 12 % 34 12 %
CYP79C5P lipid, fatty acid and isoprenoid biosynthesis mutant 6 11 % 32 11 %
CYP79C5P transcription mutant 7 12 % 28 11 %
CYP79C5P isoprenoid biosynthesis mutant 6 10 % 32 9 %
CYP79C5P secondary metabolism mutant 8 13 % 23 9 %
CYP79C5P RNA synthesis mutant 6 9 % 26 8 %
CYP79C5P transport mutant 13 8 % 56 7 %
CYP79C5P transport facilitation mutant 11 8 % 42 6 %
CYP79C5P tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 7 7 % 32 6 %
CYP79C5P C-compound and carbohydrate utilization mutant 5 9 % 11 4 %
CYP79F1 amino acid metabolism organ 5 5 % 44 7 %
CYP79F2 amino acid metabolism organ 5 5 % 44 7 %
CYP81D1 amino acid metabolism hormone 7 7 % 45 7 %
CYP81D2 pyrimidine nucleotide metabolism mutant 5 29 % 26 35 %
CYP81D2 lipid, fatty acid and isoprenoid degradation mutant 5 19 % 37 29 %
CYP81D2 degradation mutant 6 23 % 30 26 %
CYP81D2 intracellular signalling mutant 11 20 % 44 21 %
CYP81D2 nucleotide metabolism mutant 9 15 % 40 14 %
CYP81D2 metabolism of energy reserves (e.g. glycogen, trehalose) mutant 5 14 % 24 14 %
CYP81D2 biogenesis of cell wall mutant 13 20 % 36 13 %
CYP81D2 C-compound, carbohydrate catabolism mutant 6 15 % 18 12 %
CYP81D2 transcription mutant 8 13 % 31 12 %
CYP81D2 secondary metabolism mutant 10 17 % 29 12 %
CYP81D2 energy mutant 5 10 % 24 10 %
CYP81D2 nucleotide metabolism hormone 6 10 % 24 9 %
CYP81D2 RNA synthesis mutant 6 9 % 25 8 %
CYP81D2 C-compound and carbohydrate utilization mutant 6 11 % 20 8 %
CYP81D2 biogenesis of cell wall hormone 7 11 % 18 7 %
CYP81D2 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 6 6 % 26 5 %
CYP81D2 C-compound and carbohydrate metabolism hormone 11 4 % 42 3 %
CYP81D2 glycolysis and gluconeogenesis hormone 5 4 % 20 3 %
CYP81D2 transport mutant 9 5 % 28 3 %
CYP81D2 transport facilitation mutant 7 5 % 20 3 %
CYP81D2 transport hormone 5 3 % 18 2 %
CYP81D40 photosynthesis mutant 22 50 % 150 57 %
CYP81D40 biogenesis of chloroplast mutant 25 41 % 167 43 %
CYP81D40 aerobic respiration mutant 5 33 % 40 37 %
CYP81D40 respiration mutant 6 26 % 44 33 %
CYP81D40 assimilation of ammonia, metabolism of the glutamate group mutant 5 24 % 39 26 %
CYP81D40 glycolysis and gluconeogenesis mutant 15 13 % 101 17 %
CYP81D40 lipid, fatty acid and isoprenoid metabolism mutant 5 12 % 40 16 %
CYP81D40 photosynthesis organ 6 14 % 41 16 %
CYP81D40 C-compound and carbohydrate metabolism mutant 27 10 % 175 14 %
CYP81D40 biogenesis of chloroplast organ 8 13 % 44 11 %
CYP81D40 amino acid metabolism mutant 9 9 % 71 11 %
CYP81D40 transport mutant 13 8 % 81 10 %
CYP81D40 transport facilitation mutant 7 5 % 51 8 %
CYP81D40 C-compound and carbohydrate metabolism stress 10 4 % 60 5 %
CYP81D6 electron transport and membrane-associated energy conservation mutant 6 67 % 26 57 %
CYP81D6 transported compounds (substrates) mutant 8 35 % 50 42 %
CYP81D6 aerobic respiration mutant 6 40 % 40 37 %
CYP81D6 biogenesis of chloroplast mutant 21 34 % 140 36 %
CYP81D6 transport routes mutant 6 33 % 30 34 %
CYP81D6 degradation mutant 8 31 % 39 34 %
CYP81D6 protein degradation mutant 6 32 % 27 33 %
CYP81D6 photosynthesis mutant 13 30 % 86 33 %
CYP81D6 respiration mutant 6 26 % 40 30 %
CYP81D6 nitrogen and sulfur metabolism mutant 5 25 % 40 26 %
CYP81D6 aminoacyl-tRNA-synthetases mutant 5 28 % 12 24 %
CYP81D6 energy mutant 11 22 % 51 21 %
CYP81D6 protein synthesis mutant 25 20 % 120 20 %
CYP81D6 glycolysis and gluconeogenesis mutant 22 19 % 116 19 %
CYP81D6 C-compound and carbohydrate metabolism mutant 46 17 % 240 19 %
CYP81D6 nucleotide metabolism mutant 11 18 % 52 19 %
CYP81D6 transport mutant 29 17 % 154 18 %
CYP81D6 amino acid metabolism mutant 15 15 % 108 16 %
CYP81D6 stress response mutant 6 13 % 39 15 %
CYP81D6 lipid, fatty acid and isoprenoid metabolism mutant 6 15 % 37 15 %
CYP81D6 transport facilitation mutant 17 12 % 96 14 %
CYP81D6 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 11 11 % 72 14 %
CYP81D6 intracellular signalling mutant 9 16 % 27 13 %
CYP81D6 C-compound, carbohydrate catabolism mutant 6 15 % 16 11 %
CYP81D6 ribosome biogenesis mutant 17 10 % 90 10 %
CYP81D6 C-compound and carbohydrate utilization mutant 6 11 % 23 9 %
CYP81D6 biogenesis of cell wall mutant 7 11 % 24 9 %
CYP81D6 nucleotide metabolism hormone 6 10 % 24 9 %
CYP81D6 biogenesis of cell wall hormone 7 11 % 18 7 %
CYP81D6 C-compound and carbohydrate metabolism hormone 11 4 % 42 3 %
CYP81D6 glycolysis and gluconeogenesis hormone 5 4 % 20 3 %
CYP81D6 transport hormone 5 3 % 18 2 %
CYP81D7 electron transport and membrane-associated energy conservation mutant 6 67 % 26 57 %
CYP81D7 transported compounds (substrates) mutant 8 35 % 50 42 %
CYP81D7 aerobic respiration mutant 6 40 % 40 37 %
CYP81D7 biogenesis of chloroplast mutant 21 34 % 140 36 %
CYP81D7 transport routes mutant 6 33 % 30 34 %
CYP81D7 degradation mutant 8 31 % 39 34 %
CYP81D7 protein degradation mutant 6 32 % 27 33 %
CYP81D7 photosynthesis mutant 13 30 % 86 33 %
CYP81D7 respiration mutant 6 26 % 40 30 %
CYP81D7 nitrogen and sulfur metabolism mutant 5 25 % 40 26 %
CYP81D7 aminoacyl-tRNA-synthetases mutant 5 28 % 12 24 %
CYP81D7 energy mutant 11 22 % 51 21 %
CYP81D7 protein synthesis mutant 25 20 % 120 20 %
CYP81D7 glycolysis and gluconeogenesis mutant 22 19 % 116 19 %
CYP81D7 C-compound and carbohydrate metabolism mutant 46 17 % 240 19 %
CYP81D7 nucleotide metabolism mutant 11 18 % 52 19 %
CYP81D7 transport mutant 29 17 % 154 18 %
CYP81D7 amino acid metabolism mutant 15 15 % 108 16 %
CYP81D7 stress response mutant 6 13 % 39 15 %
CYP81D7 lipid, fatty acid and isoprenoid metabolism mutant 6 15 % 37 15 %
CYP81D7 transport facilitation mutant 17 12 % 96 14 %
CYP81D7 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 11 11 % 72 14 %
CYP81D7 intracellular signalling mutant 9 16 % 27 13 %
CYP81D7 C-compound, carbohydrate catabolism mutant 6 15 % 16 11 %
CYP81D7 ribosome biogenesis mutant 17 10 % 90 10 %
CYP81D7 C-compound and carbohydrate utilization mutant 6 11 % 23 9 %
CYP81D7 biogenesis of cell wall mutant 7 11 % 24 9 %
CYP81D7 nucleotide metabolism hormone 6 10 % 24 9 %
CYP81D7 biogenesis of cell wall hormone 7 11 % 18 7 %
CYP81D7 C-compound and carbohydrate metabolism hormone 11 4 % 42 3 %
CYP81D7 glycolysis and gluconeogenesis hormone 5 4 % 20 3 %
CYP81D7 transport hormone 5 3 % 18 2 %
CYP81D8 lipid, fatty acid and isoprenoid degradation stress 5 19 % 36 28 %
CYP81D8 intracellular signalling hormone 5 9 % 12 6 %
CYP81D8 C-compound and carbohydrate metabolism stress 5 2 % 15 1 %
CYP81F4 aerobic respiration mutant 5 33 % 40 37 %
CYP81F4 respiration mutant 6 26 % 44 33 %
CYP81F4 photosynthesis mutant 11 25 % 85 32 %
CYP81F4 biogenesis of chloroplast mutant 13 21 % 85 22 %
CYP81F4 glycolysis and gluconeogenesis mutant 14 12 % 109 18 %
CYP81F4 detoxification organ 5 9 % 16 10 %
CYP81F4 transport mutant 9 5 % 66 8 %
CYP81F4 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) hormone 6 6 % 30 6 %
CYP81F4 amino acid metabolism hormone 5 5 % 36 5 %
CYP81F4 glycolysis and gluconeogenesis hormone 6 5 % 29 5 %
CYP81F4 C-compound and carbohydrate metabolism hormone 11 4 % 47 4 %
CYP81H1 photosynthesis organ 8 18 % 47 18 %
CYP81H1 biogenesis of chloroplast organ 7 11 % 42 11 %
CYP81H1 transport organ 5 3 % 41 5 %
CYP82C3 secondary metabolism hormone 6 10 % 32 13 %
CYP82C3 intracellular signalling mutant 6 11 % 21 10 %
CYP82G1 biogenesis of cell wall hormone 7 11 % 16 6 %
CYP83A1 photosynthesis organ 24 55 % 154 58 %
CYP83A1 biogenesis of chloroplast organ 22 36 % 149 39 %
CYP83A1 aerobic respiration organ 5 33 % 40 37 %
CYP83A1 respiration organ 6 26 % 44 33 %
CYP83A1 glycolysis and gluconeogenesis organ 19 16 % 119 20 %
CYP83A1 transported compounds (substrates) organ 5 22 % 22 18 %
CYP83A1 energy organ 6 12 % 44 18 %
CYP83A1 secondary metabolism organ 6 10 % 35 14 %
CYP83A1 C-compound and carbohydrate metabolism organ 27 10 % 154 12 %
CYP83A1 amino acid metabolism organ 9 9 % 73 11 %
CYP83A1 amino acid metabolism mutant 8 8 % 66 10 %
CYP83A1 transport organ 14 8 % 84 10 %
CYP83A1 transport facilitation organ 8 6 % 46 7 %
CYP83A1 amino acid metabolism hormone 5 5 % 30 5 %
CYP83B1 C-compound and carbohydrate utilization hormone 5 9 % 36 14 %
CYP83B1 amino acid metabolism hormone 6 6 % 44 7 %
CYP83B1 glycolysis and gluconeogenesis hormone 6 5 % 39 6 %
CYP84A1 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) stress 5 5 % 34 7 %
CYP84A1 C-compound and carbohydrate metabolism stress 6 2 % 35 3 %
CYP85A1 lipid, fatty acid and isoprenoid degradation mutant 5 19 % 35 27 %
CYP85A1 C-compound, carbohydrate catabolism mutant 8 20 % 32 22 %
CYP85A1 degradation mutant 5 19 % 24 21 %
CYP85A1 biogenesis of cell wall mutant 16 25 % 54 20 %
CYP85A1 intracellular signalling mutant 8 15 % 33 16 %
CYP85A1 C-compound and carbohydrate metabolism mutant 41 16 % 165 13 %
CYP85A1 metabolism of energy reserves (e.g. glycogen, trehalose) mutant 6 17 % 22 13 %
CYP85A1 nucleotide metabolism mutant 8 13 % 36 13 %
CYP85A1 energy mutant 7 14 % 32 13 %
CYP85A1 secondary metabolism mutant 10 17 % 32 13 %
CYP85A1 mRNA synthesis mutant 5 19 % 15 13 %
CYP85A1 transcription mutant 8 13 % 30 11 %
CYP85A1 detoxification mutant 6 11 % 16 10 %
CYP85A1 glycolysis and gluconeogenesis mutant 14 12 % 58 10 %
CYP85A1 lipid, fatty acid and isoprenoid biosynthesis mutant 5 9 % 28 9 %
CYP85A1 protein synthesis mutant 11 9 % 54 9 %
CYP85A1 RNA synthesis mutant 7 10 % 28 9 %
CYP85A1 isoprenoid biosynthesis mutant 5 8 % 28 8 %
CYP85A1 C-compound and carbohydrate utilization mutant 6 11 % 21 8 %
CYP85A1 transport mutant 16 9 % 64 8 %
CYP85A1 transport facilitation mutant 14 10 % 50 7 %
CYP85A1 amino acid metabolism mutant 11 11 % 46 7 %
CYP85A1 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 6 6 % 28 5 %
CYP85A1 ribosome biogenesis mutant 8 5 % 48 5 %
CYP86A biogenesis of cell wall hormone 6 9 % 14 5 %
CYP86A transport hormone 5 3 % 12 1 %
CYP86A1 detoxification organ 5 9 % 17 10 %
CYP86A2 channel / pore class transport organ 5 33 % 35 59 %
CYP86A2 photosynthesis mutant 21 48 % 142 54 %
CYP86A2 photosynthesis organ 19 43 % 124 47 %
CYP86A2 biogenesis of chloroplast mutant 24 39 % 161 42 %
CYP86A2 aerobic respiration mutant 6 40 % 42 39 %
CYP86A2 respiration mutant 7 30 % 46 35 %
CYP86A2 transported compounds (substrates) mutant 7 30 % 39 33 %
CYP86A2 biogenesis of chloroplast organ 19 31 % 125 32 %
CYP86A2 respiration organ 5 22 % 38 29 %
CYP86A2 degradation mutant 5 19 % 29 25 %
CYP86A2 transport ATPases mutant 6 19 % 34 22 %
CYP86A2 glycolysis and gluconeogenesis mutant 20 17 % 121 20 %
CYP86A2 C-compound, carbohydrate catabolism mutant 6 15 % 28 19 %
CYP86A2 lipid, fatty acid and isoprenoid biosynthesis mutant 7 13 % 54 18 %
CYP86A2 C-compound and carbohydrate metabolism mutant 38 14 % 221 18 %
CYP86A2 lipid, fatty acid and isoprenoid metabolism mutant 6 15 % 42 17 %
CYP86A2 transport mutant 23 14 % 141 17 %
CYP86A2 isoprenoid biosynthesis mutant 7 11 % 54 16 %
CYP86A2 energy organ 5 10 % 38 15 %
CYP86A2 transport facilitation mutant 16 11 % 101 15 %
CYP86A2 glycolysis and gluconeogenesis organ 12 10 % 85 14 %
CYP86A2 amino acid metabolism mutant 11 11 % 94 14 %
CYP86A2 C-compound and carbohydrate utilization mutant 6 11 % 34 13 %
CYP86A2 biogenesis of cell wall mutant 5 8 % 34 12 %
CYP86A2 transport organ 16 9 % 99 12 %
CYP86A2 transport facilitation organ 10 7 % 65 10 %
CYP86A2 C-compound and carbohydrate metabolism organ 15 6 % 102 8 %
CYP86A2 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 7 7 % 38 7 %
CYP86A2 nucleotide metabolism mutant 5 8 % 20 7 %
CYP86C2 biogenesis of cell wall mutant 6 9 % 18 7 %
CYP86C3 biogenesis of cell wall mutant 9 14 % 28 10 %
CYP86C3 biogenesis of cell wall hormone 6 9 % 14 5 %
CYP86C4 biogenesis of cell wall mutant 9 14 % 28 10 %
CYP88A3 electron transport and membrane-associated energy conservation mutant 5 56 % 22 48 %
CYP88A3 degradation mutant 6 23 % 31 27 %
CYP88A3 biogenesis of chloroplast mutant 7 11 % 48 12 %
CYP88A3 energy mutant 7 14 % 26 10 %
CYP88A3 protein synthesis mutant 14 11 % 64 10 %
CYP88A3 transport mutant 17 10 % 82 10 %
CYP88A3 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 8 8 % 48 9 %
CYP88A3 transport facilitation mutant 9 6 % 42 6 %
CYP88A3 intracellular signalling mutant 6 11 % 12 6 %
CYP88A3 ribosome biogenesis mutant 9 5 % 50 5 %
CYP88A4 photosynthesis stress 27 61 % 168 64 %
CYP88A4 biogenesis of chloroplast stress 29 48 % 187 49 %
CYP88A4 pentose-phosphate pathway stress 6 29 % 39 33 %
CYP88A4 aminoacyl-tRNA-synthetases stress 5 28 % 12 24 %
CYP88A4 glycolysis and gluconeogenesis stress 20 17 % 129 22 %
CYP88A4 C-compound and carbohydrate metabolism stress 40 15 % 236 19 %
CYP88A4 lipid, fatty acid and isoprenoid biosynthesis stress 6 11 % 42 14 %
CYP88A4 isoprenoid biosynthesis stress 6 10 % 42 12 %
CYP88A4 secondary metabolism stress 5 8 % 30 12 %
CYP88A4 protein synthesis stress 16 13 % 54 9 %
CYP88A4 amino acid metabolism stress 8 8 % 53 8 %
CYP88A4 nucleotide metabolism stress 5 8 % 20 7 %
CYP88A4 transport stress 10 6 % 57 7 %
CYP88A4 transport facilitation stress 6 4 % 34 5 %
CYP88A4 ribosome biogenesis stress 5 3 % 18 2 %
CYP89A2 energy organ 5 10 % 26 10 %
CYP90A1 electron transport and membrane-associated energy conservation mutant 7 78 % 32 70 %
CYP90A1 biogenesis of chloroplast mutant 29 48 % 195 51 %
CYP90A1 photosynthesis mutant 18 41 % 128 48 %
CYP90A1 photosynthesis stress 16 36 % 112 42 %
CYP90A1 photosynthesis organ 16 36 % 112 42 %
CYP90A1 biogenesis of chloroplast organ 24 39 % 157 41 %
CYP90A1 protein degradation mutant 7 37 % 31 38 %
CYP90A1 degradation mutant 8 31 % 41 35 %
CYP90A1 aerobic respiration mutant 6 40 % 36 33 %
CYP90A1 transported compounds (substrates) mutant 6 26 % 37 31 %
CYP90A1 protein degradation organ 5 26 % 25 30 %
CYP90A1 biogenesis of chloroplast stress 17 28 % 111 29 %
CYP90A1 respiration organ 5 22 % 38 29 %
CYP90A1 aminoacyl-tRNA-synthetases mutant 5 28 % 14 28 %
CYP90A1 transport routes mutant 5 28 % 24 28 %
CYP90A1 respiration mutant 6 26 % 36 27 %
CYP90A1 pentose-phosphate pathway mutant 5 24 % 30 26 %
CYP90A1 glycolysis and gluconeogenesis mutant 23 20 % 137 23 %
CYP90A1 energy mutant 11 22 % 54 22 %
CYP90A1 C-compound and carbohydrate metabolism mutant 49 19 % 270 22 %
CYP90A1 degradation organ 5 19 % 25 22 %
CYP90A1 lipid, fatty acid and isoprenoid metabolism mutant 8 20 % 53 21 %
CYP90A1 amino acid metabolism mutant 16 16 % 127 19 %
CYP90A1 transport mutant 28 16 % 155 18 %
CYP90A1 intracellular signalling mutant 9 16 % 32 16 %
CYP90A1 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 13 13 % 76 15 %
CYP90A1 biosynthesis of phenylpropanoids mutant 5 15 % 25 14 %
CYP90A1 biosynthesis of secondary products derived from L-phenylalanine and L-tyrosine mutant 5 15 % 25 14 %
CYP90A1 protein synthesis mutant 18 14 % 84 14 %
CYP90A1 transport facilitation mutant 15 10 % 91 14 %
CYP90A1 glycolysis and gluconeogenesis stress 12 10 % 81 14 %
CYP90A1 glycolysis and gluconeogenesis organ 10 9 % 75 13 %
CYP90A1 lipid, fatty acid and isoprenoid biosynthesis mutant 5 9 % 36 12 %
CYP90A1 C-compound and carbohydrate metabolism stress 25 10 % 141 11 %
CYP90A1 isoprenoid biosynthesis mutant 5 8 % 36 10 %
CYP90A1 transport organ 15 9 % 83 10 %
CYP90A1 C-compound, carbohydrate catabolism mutant 5 12 % 14 9 %
CYP90A1 nucleotide metabolism mutant 6 10 % 26 9 %
CYP90A1 C-compound and carbohydrate utilization mutant 5 9 % 24 9 %
CYP90A1 transcription mutant 5 8 % 23 9 %
CYP90A1 C-compound and carbohydrate metabolism organ 15 6 % 107 9 %
CYP90A1 biogenesis of cell wall mutant 5 8 % 18 7 %
CYP90A1 ribosome biogenesis mutant 11 7 % 58 6 %
CYP90A1 transport facilitation organ 7 5 % 38 6 %
CYP90A1 protein synthesis stress 9 7 % 32 5 %
CYP90A1 amino acid metabolism organ 5 5 % 34 5 %
CYP90A1 protein synthesis organ 6 5 % 28 5 %
CYP90A1 transport stress 5 3 % 26 3 %
CYP94D2 protein degradation mutant 6 32 % 29 35 %
CYP94D2 transported compounds (substrates) mutant 5 22 % 35 29 %
CYP94D2 degradation mutant 6 23 % 29 25 %
CYP94D2 biosynthesis of secondary products derived from L-phenylalanine and L-tyrosine mutant 5 15 % 26 15 %
CYP94D2 biosynthesis of phenylpropanoids mutant 5 15 % 26 15 %
CYP94D2 biogenesis of chloroplast mutant 11 18 % 56 15 %
CYP94D2 C-compound and carbohydrate metabolism mutant 33 13 % 176 14 %
CYP94D2 transport mutant 20 12 % 111 13 %
CYP94D2 photosynthesis mutant 7 16 % 34 13 %
CYP94D2 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 10 10 % 64 12 %
CYP94D2 protein synthesis mutant 13 10 % 66 11 %
CYP94D2 transport facilitation mutant 12 8 % 69 10 %
CYP94D2 energy mutant 6 12 % 24 10 %
CYP94D2 amino acid metabolism mutant 8 8 % 62 9 %
CYP94D2 intracellular signalling mutant 6 11 % 14 7 %
CYP94D2 nucleotide metabolism mutant 5 8 % 18 6 %
CYP94D2 ribosome biogenesis mutant 11 7 % 58 6 %
CYP96A12 photosynthesis hormone 7 16 % 50 19 %
CYP96A12 biogenesis of chloroplast hormone 7 11 % 47 12 %
CYP96A12 C-compound and carbohydrate metabolism hormone 12 5 % 82 7 %
CYP96A12 C-compound and carbohydrate metabolism stress 13 5 % 76 6 %
CYP96A12 glycolysis and gluconeogenesis hormone 5 4 % 31 5 %
CYP96A12 glycolysis and gluconeogenesis stress 5 4 % 28 5 %
CYP96A13 biogenesis of cell wall hormone 7 11 % 16 6 %
CYP96A14P lipid, fatty acid and isoprenoid degradation mutant 5 19 % 35 27 %
CYP96A14P C-compound, carbohydrate catabolism mutant 8 20 % 32 22 %
CYP96A14P degradation mutant 5 19 % 24 21 %
CYP96A14P biogenesis of cell wall mutant 16 25 % 54 20 %
CYP96A14P intracellular signalling mutant 8 15 % 33 16 %
CYP96A14P C-compound and carbohydrate metabolism mutant 41 16 % 165 13 %
CYP96A14P metabolism of energy reserves (e.g. glycogen, trehalose) mutant 6 17 % 22 13 %
CYP96A14P nucleotide metabolism mutant 8 13 % 36 13 %
CYP96A14P energy mutant 7 14 % 32 13 %
CYP96A14P secondary metabolism mutant 10 17 % 32 13 %
CYP96A14P mRNA synthesis mutant 5 19 % 15 13 %
CYP96A14P transcription mutant 8 13 % 30 11 %
CYP96A14P detoxification mutant 6 11 % 16 10 %
CYP96A14P lipid, fatty acid and isoprenoid biosynthesis mutant 5 9 % 28 9 %
CYP96A14P protein synthesis mutant 11 9 % 54 9 %
CYP96A14P RNA synthesis mutant 7 10 % 28 9 %
CYP96A14P nucleotide metabolism hormone 6 10 % 24 9 %
CYP96A14P isoprenoid biosynthesis mutant 5 8 % 28 8 %
CYP96A14P C-compound and carbohydrate utilization mutant 6 11 % 21 8 %
CYP96A14P transport mutant 16 9 % 64 8 %
CYP96A14P transport facilitation mutant 14 10 % 50 7 %
CYP96A14P biogenesis of cell wall hormone 7 11 % 18 7 %
CYP96A14P tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 6 6 % 28 5 %
CYP96A14P ribosome biogenesis mutant 8 5 % 48 5 %
CYP96A14P C-compound and carbohydrate metabolism hormone 11 4 % 42 3 %
CYP96A14P glycolysis and gluconeogenesis hormone 5 4 % 20 3 %
CYP96A14P transport hormone 5 3 % 18 2 %
CYP96A15 biogenesis of cell wall hormone 7 11 % 16 6 %
CYP96A2 biogenesis of cell wall hormone 7 11 % 16 6 %
CYP96A5 secondary metabolism mutant 5 8 % 26 10 %
CYP96A5 intracellular signalling mutant 5 9 % 12 6 %
CYP97A3 photosynthesis organ 29 66 % 184 70 %
CYP97A3 photosynthesis stress 24 55 % 153 58 %
CYP97A3 biogenesis of chloroplast organ 32 52 % 209 54 %
CYP97A3 biogenesis of chloroplast mutant 29 48 % 191 50 %
CYP97A3 photosynthesis mutant 19 43 % 127 48 %
CYP97A3 aerobic respiration organ 5 33 % 40 37 %
CYP97A3 respiration organ 6 26 % 44 33 %
CYP97A3 pentose-phosphate pathway organ 6 29 % 39 33 %
CYP97A3 pentose-phosphate pathway stress 6 29 % 39 33 %
CYP97A3 biogenesis of chloroplast stress 21 34 % 127 33 %
CYP97A3 assimilation of ammonia, metabolism of the glutamate group mutant 5 24 % 39 26 %
CYP97A3 photosynthesis hormone 10 23 % 65 25 %
CYP97A3 glycolysis and gluconeogenesis organ 24 21 % 143 24 %
CYP97A3 glycolysis and gluconeogenesis stress 20 17 % 127 21 %
CYP97A3 lipid, fatty acid and isoprenoid metabolism mutant 7 17 % 51 21 %
CYP97A3 lipid, fatty acid and isoprenoid metabolism organ 6 15 % 49 20 %
CYP97A3 energy organ 7 14 % 48 19 %
CYP97A3 transported compounds (substrates) organ 5 22 % 22 18 %
CYP97A3 biogenesis of chloroplast hormone 10 16 % 67 17 %
CYP97A3 C-compound and carbohydrate metabolism organ 40 15 % 213 17 %
CYP97A3 C-compound and carbohydrate metabolism stress 36 14 % 210 17 %
CYP97A3 glycolysis and gluconeogenesis mutant 18 15 % 99 17 %
CYP97A3 C-compound and carbohydrate metabolism mutant 35 13 % 203 16 %
CYP97A3 secondary metabolism organ 6 10 % 40 16 %
CYP97A3 lipid, fatty acid and isoprenoid biosynthesis mutant 5 9 % 44 15 %
CYP97A3 amino acid metabolism mutant 12 12 % 97 15 %
CYP97A3 C-compound, carbohydrate catabolism organ 5 12 % 21 14 %
CYP97A3 isoprenoid biosynthesis mutant 5 8 % 44 13 %
CYP97A3 transport organ 17 10 % 107 13 %
CYP97A3 secondary metabolism stress 5 8 % 28 11 %
CYP97A3 transport mutant 14 8 % 83 10 %
CYP97A3 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 8 8 % 46 9 %
CYP97A3 transport facilitation organ 9 6 % 58 9 %
CYP97A3 glycolysis and gluconeogenesis hormone 8 7 % 49 8 %
CYP97A3 protein synthesis stress 15 12 % 50 8 %
CYP97A3 amino acid metabolism organ 7 7 % 52 8 %
CYP97A3 protein synthesis organ 13 10 % 42 7 %
CYP97A3 transport stress 10 6 % 55 6 %
CYP97A3 transport facilitation mutant 7 5 % 43 6 %
CYP97A3 C-compound and carbohydrate metabolism hormone 11 4 % 65 5 %
CYP97A3 transport facilitation stress 6 4 % 28 4 %
CYP97A3 protein synthesis hormone 9 7 % 24 4 %
CYP97A3 ribosome biogenesis organ 6 4 % 20 2 %
CYP97A3 ribosome biogenesis stress 5 3 % 18 2 %
CYP97B3 electron transport and membrane-associated energy conservation mutant 7 78 % 32 70 %
CYP97B3 photosynthesis organ 25 57 % 164 62 %
CYP97B3 biogenesis of chloroplast organ 34 56 % 225 58 %
CYP97B3 biogenesis of chloroplast mutant 25 41 % 162 42 %
CYP97B3 transported compounds (substrates) mutant 8 35 % 47 39 %
CYP97B3 photosynthesis mutant 15 34 % 102 39 %
CYP97B3 protein degradation mutant 7 37 % 31 38 %
CYP97B3 aerobic respiration organ 5 33 % 40 37 %
CYP97B3 degradation mutant 8 31 % 41 35 %
CYP97B3 respiration organ 7 30 % 46 35 %
CYP97B3 transport routes mutant 6 33 % 30 34 %
CYP97B3 aerobic respiration mutant 6 40 % 36 33 %
CYP97B3 protein degradation organ 5 26 % 25 30 %
CYP97B3 photosynthesis stress 12 27 % 74 28 %
CYP97B3 respiration mutant 6 26 % 36 27 %
CYP97B3 aminoacyl-tRNA-synthetases mutant 5 28 % 12 24 %
CYP97B3 energy mutant 12 24 % 58 23 %
CYP97B3 glycolysis and gluconeogenesis organ 21 18 % 137 23 %
CYP97B3 lipid, fatty acid and isoprenoid metabolism mutant 8 20 % 55 22 %
CYP97B3 degradation organ 5 19 % 25 22 %
CYP97B3 C-compound and carbohydrate metabolism mutant 50 19 % 265 21 %
CYP97B3 protein synthesis mutant 26 21 % 120 20 %
CYP97B3 glycolysis and gluconeogenesis mutant 22 19 % 116 19 %
CYP97B3 transported compounds (substrates) organ 5 22 % 22 18 %
CYP97B3 transport mutant 29 17 % 155 18 %
CYP97B3 amino acid metabolism mutant 16 16 % 115 17 %
CYP97B3 biogenesis of chloroplast stress 13 21 % 65 17 %
CYP97B3 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 14 14 % 86 17 %
CYP97B3 energy organ 5 10 % 40 16 %
CYP97B3 C-compound and carbohydrate metabolism organ 35 13 % 198 16 %
CYP97B3 lipid, fatty acid and isoprenoid metabolism organ 5 12 % 39 16 %
CYP97B3 nucleotide metabolism mutant 10 17 % 42 15 %
CYP97B3 lipid, fatty acid and isoprenoid biosynthesis mutant 5 9 % 44 15 %
CYP97B3 transport facilitation mutant 16 11 % 91 14 %
CYP97B3 glycolysis and gluconeogenesis stress 12 10 % 79 13 %
CYP97B3 isoprenoid biosynthesis mutant 5 8 % 44 13 %
CYP97B3 intracellular signalling mutant 8 15 % 25 12 %
CYP97B3 transport organ 18 11 % 95 11 %
CYP97B3 C-compound and carbohydrate metabolism stress 22 8 % 135 11 %
CYP97B3 amino acid metabolism organ 8 8 % 65 10 %
CYP97B3 ribosome biogenesis mutant 17 10 % 90 10 %
CYP97B3 secondary metabolism mutant 5 8 % 24 10 %
CYP97B3 C-compound, carbohydrate catabolism mutant 5 12 % 14 9 %
CYP97B3 transcription mutant 5 8 % 23 9 %
CYP97B3 C-compound and carbohydrate utilization mutant 5 9 % 22 8 %
CYP97B3 transport facilitation organ 9 6 % 44 7 %
CYP97B3 biogenesis of cell wall mutant 6 9 % 16 6 %
CYP97B3 protein synthesis organ 9 7 % 34 6 %
CYP97B3 protein synthesis stress 6 5 % 22 4 %
CYP97B3 ribosome biogenesis organ 5 3 % 18 2 %
CYP97C1 photosynthesis organ 25 57 % 152 58 %
CYP97C1 biogenesis of chloroplast organ 29 48 % 185 48 %
CYP97C1 photosynthesis stress 17 39 % 112 42 %
CYP97C1 biogenesis of chloroplast stress 18 30 % 111 29 %
CYP97C1 pentose-phosphate pathway organ 5 24 % 33 28 %
CYP97C1 respiration organ 5 22 % 36 27 %
CYP97C1 aminoacyl-tRNA-synthetases organ 5 28 % 12 24 %
CYP97C1 glycolysis and gluconeogenesis organ 19 16 % 117 20 %
CYP97C1 C-compound and carbohydrate metabolism organ 29 11 % 178 14 %
CYP97C1 glycolysis and gluconeogenesis stress 10 9 % 67 11 %
CYP97C1 C-compound and carbohydrate metabolism stress 20 8 % 123 10 %
CYP97C1 protein synthesis organ 17 14 % 56 9 %
CYP97C1 biogenesis of chloroplast hormone 5 8 % 35 9 %
CYP97C1 protein synthesis stress 14 11 % 52 8 %
CYP97C1 transport organ 11 6 % 64 8 %
CYP97C1 transport facilitation organ 7 5 % 43 6 %
CYP97C1 nucleotide metabolism organ 5 8 % 16 6 %
CYP97C1 transport stress 6 4 % 27 3 %
CYP97C1 ribosome biogenesis organ 6 4 % 20 2 %
CYP97C1 ribosome biogenesis stress 5 3 % 18 2 %
CYP98A3 C-compound and carbohydrate metabolism hormone 9 3 % 49 4 %
CYP98A3 transport hormone 5 3 % 24 3 %
CYP98A8 biogenesis of cell wall mutant 9 14 % 26 9 %
CYP98A8 nucleotide metabolism hormone 6 10 % 24 9 %
CYP98A8 biogenesis of cell wall hormone 7 11 % 18 7 %
CYP98A8 C-compound and carbohydrate metabolism hormone 11 4 % 42 3 %
CYP98A8 glycolysis and gluconeogenesis hormone 5 4 % 20 3 %
CYP98A8 transport hormone 5 3 % 18 2 %
CYP98A9 biogenesis of cell wall mutant 9 14 % 26 9 %
CYP703A2 nucleotide metabolism hormone 6 10 % 24 9 %
CYP703A2 biogenesis of cell wall hormone 7 11 % 18 7 %
CYP703A2 glycolysis and gluconeogenesis hormone 5 4 % 20 3 %
CYP703A2 transport hormone 5 3 % 18 2 %
CYP704B1 nucleotide metabolism hormone 6 10 % 24 9 %
CYP704B1 biogenesis of cell wall hormone 7 11 % 18 7 %
CYP704B1 C-compound and carbohydrate metabolism hormone 11 4 % 42 3 %
CYP704B1 glycolysis and gluconeogenesis hormone 5 4 % 20 3 %
CYP704B1 transport hormone 5 3 % 18 2 %
CYP705A1 detoxification organ 8 15 % 15 9 %
CYP705A12 detoxification organ 7 13 % 21 13 %
CYP705A13 detoxification organ 10 18 % 27 17 %
CYP705A13 secondary metabolism organ 5 8 % 18 7 %
CYP705A2 nucleotide metabolism mutant 6 10 % 28 10 %
CYP705A2 biogenesis of cell wall mutant 7 11 % 18 7 %
CYP705A20 protein synthesis hormone 5 4 % 26 4 %
CYP705A24 biogenesis of cell wall mutant 8 13 % 24 9 %
CYP705A25 detoxification organ 10 18 % 27 17 %
CYP705A25 secondary metabolism organ 5 8 % 18 7 %
CYP705A32 degradation mutant 5 19 % 24 21 %
CYP705A32 intracellular signalling mutant 8 15 % 31 15 %
CYP705A32 nucleotide metabolism mutant 7 12 % 34 12 %
CYP705A32 biogenesis of cell wall mutant 12 19 % 32 12 %
CYP705A32 C-compound, carbohydrate catabolism mutant 5 12 % 16 11 %
CYP705A32 secondary metabolism mutant 8 13 % 23 9 %
CYP705A32 transport facilitation mutant 10 7 % 36 5 %
CYP705A32 transport mutant 11 6 % 40 5 %
CYP705A5 detoxification organ 5 9 % 17 10 %
CYP705A5 glycolysis and gluconeogenesis mutant 8 7 % 62 10 %
CYP705A5 lipid, fatty acid and isoprenoid biosynthesis mutant 5 9 % 25 8 %
CYP705A5 isoprenoid biosynthesis mutant 5 8 % 25 7 %
CYP705A8 detoxification organ 8 15 % 15 9 %
CYP706A3 biogenesis of cell wall hormone 7 11 % 16 6 %
CYP706A5 photosynthesis organ 24 55 % 148 56 %
CYP706A5 photosynthesis mutant 21 48 % 144 55 %
CYP706A5 biogenesis of chloroplast organ 31 51 % 207 54 %
CYP706A5 biogenesis of chloroplast mutant 30 49 % 195 51 %
CYP706A5 photosynthesis stress 17 39 % 107 41 %
CYP706A5 aerobic respiration mutant 6 40 % 36 33 %
CYP706A5 protein degradation mutant 5 26 % 27 33 %
CYP706A5 pentose-phosphate pathway stress 5 24 % 33 28 %
CYP706A5 photosynthesis hormone 12 27 % 74 28 %
CYP706A5 respiration mutant 6 26 % 36 27 %
CYP706A5 respiration organ 5 22 % 36 27 %
CYP706A5 transported compounds (substrates) mutant 5 22 % 31 26 %
CYP706A5 degradation mutant 5 19 % 27 23 %
CYP706A5 biogenesis of chloroplast stress 13 21 % 79 21 %
CYP706A5 biogenesis of chloroplast hormone 10 16 % 73 19 %
CYP706A5 C-compound and carbohydrate metabolism mutant 38 14 % 232 19 %
CYP706A5 transported compounds (substrates) organ 5 22 % 22 18 %
CYP706A5 glycolysis and gluconeogenesis organ 18 15 % 109 18 %
CYP706A5 lipid, fatty acid and isoprenoid metabolism mutant 7 17 % 44 18 %
CYP706A5 glycolysis and gluconeogenesis mutant 17 15 % 103 17 %
CYP706A5 secondary metabolism organ 6 10 % 40 16 %
CYP706A5 glycolysis and gluconeogenesis stress 14 12 % 93 16 %
CYP706A5 metabolism of energy reserves (e.g. glycogen, trehalose) stress 5 14 % 26 15 %
CYP706A5 energy mutant 6 12 % 36 15 %
CYP706A5 transport mutant 19 11 % 112 13 %
CYP706A5 energy organ 5 10 % 32 13 %
CYP706A5 transport organ 18 11 % 108 13 %
CYP706A5 C-compound and carbohydrate metabolism stress 27 10 % 153 12 %
CYP706A5 C-compound and carbohydrate metabolism organ 26 10 % 152 12 %
CYP706A5 lipid, fatty acid and isoprenoid biosynthesis mutant 5 9 % 36 12 %
CYP706A5 amino acid metabolism mutant 9 9 % 73 11 %
CYP706A5 glycolysis and gluconeogenesis hormone 12 10 % 65 11 %
CYP706A5 C-compound and carbohydrate utilization mutant 5 9 % 28 11 %
CYP706A5 energy stress 5 10 % 26 10 %
CYP706A5 isoprenoid biosynthesis mutant 5 8 % 36 10 %
CYP706A5 transport facilitation organ 11 8 % 67 10 %
CYP706A5 amino acid metabolism organ 8 8 % 66 10 %
CYP706A5 transport facilitation mutant 10 7 % 64 10 %
CYP706A5 C-compound and carbohydrate metabolism hormone 22 8 % 119 10 %
CYP706A5 biogenesis of cell wall mutant 5 8 % 26 9 %
CYP706A5 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 6 6 % 38 7 %
CYP706A5 nucleotide metabolism mutant 5 8 % 20 7 %
CYP706A5 amino acid metabolism hormone 5 5 % 37 6 %
CYP706A5 protein synthesis organ 7 6 % 30 5 %
CYP706A5 transport hormone 7 4 % 39 5 %
CYP706A5 protein synthesis stress 7 6 % 20 3 %
CYP706A5 ribosome biogenesis organ 5 3 % 18 2 %
CYP706A7 detoxification organ 5 9 % 16 10 %
CYP708A2 detoxification organ 6 11 % 19 12 %
CYP708A2 lipid, fatty acid and isoprenoid biosynthesis organ 5 9 % 22 7 %
CYP708A2 isoprenoid biosynthesis organ 5 8 % 22 6 %
CYP708A3 photosynthesis organ 15 34 % 102 39 %
CYP708A3 aerobic respiration organ 5 33 % 40 37 %
CYP708A3 respiration organ 6 26 % 44 33 %
CYP708A3 biogenesis of chloroplast organ 17 28 % 109 28 %
CYP708A3 energy organ 5 10 % 34 14 %
CYP708A3 glycolysis and gluconeogenesis organ 10 9 % 65 11 %
CYP708A3 transport organ 10 6 % 63 7 %
CYP708A3 C-compound and carbohydrate metabolism organ 16 6 % 89 7 %
CYP709B3 photosynthesis organ 28 64 % 178 67 %
CYP709B3 biogenesis of chloroplast organ 32 52 % 207 54 %
CYP709B3 aerobic respiration organ 5 33 % 40 37 %
CYP709B3 respiration organ 6 26 % 44 33 %
CYP709B3 pentose-phosphate pathway organ 5 24 % 38 32 %
CYP709B3 photosynthesis mutant 12 27 % 83 31 %
CYP709B3 glycolysis and gluconeogenesis organ 23 20 % 149 25 %
CYP709B3 photosynthesis stress 8 18 % 61 23 %
CYP709B3 biogenesis of chloroplast mutant 15 25 % 80 21 %
CYP709B3 energy organ 7 14 % 48 19 %
CYP709B3 transported compounds (substrates) organ 5 22 % 22 18 %
CYP709B3 C-compound and carbohydrate metabolism organ 35 13 % 203 16 %
CYP709B3 lipid, fatty acid and isoprenoid metabolism organ 5 12 % 39 16 %
CYP709B3 biogenesis of chloroplast hormone 7 11 % 54 14 %
CYP709B3 secondary metabolism organ 5 8 % 34 14 %
CYP709B3 photosynthesis hormone 5 11 % 34 13 %
CYP709B3 transport organ 16 9 % 98 11 %
CYP709B3 amino acid metabolism organ 8 8 % 60 9 %
CYP709B3 transport facilitation organ 8 6 % 49 7 %
CYP709B3 biogenesis of chloroplast stress 5 8 % 26 7 %
CYP709B3 C-compound and carbohydrate metabolism hormone 12 5 % 76 6 %
CYP709B3 glycolysis and gluconeogenesis stress 6 5 % 36 6 %
CYP709B3 glycolysis and gluconeogenesis hormone 6 5 % 34 6 %
CYP709B3 protein synthesis organ 8 6 % 32 5 %
CYP709B3 C-compound and carbohydrate metabolism stress 12 5 % 62 5 %
CYP709B3 ribosome biogenesis organ 5 3 % 18 2 %
CYP710A1 pentose-phosphate pathway stress 5 24 % 26 22 %
CYP710A1 amino acid metabolism stress 6 6 % 49 7 %
CYP710A1 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) stress 7 7 % 26 5 %
CYP710A1 C-compound and carbohydrate metabolism stress 15 6 % 61 5 %
CYP710A3 secondary metabolism hormone 6 10 % 18 7 %
CYP710A4 secondary metabolism hormone 6 10 % 18 7 %
CYP715A1 secondary metabolism hormone 6 10 % 32 13 %
CYP715A1 intracellular signalling mutant 5 9 % 12 6 %
CYP716A2 intracellular signalling mutant 7 13 % 35 17 %
CYP716A2 C-compound, carbohydrate catabolism mutant 5 12 % 18 12 %
CYP716A2 detoxification organ 6 11 % 19 12 %
CYP716A2 nucleotide metabolism mutant 6 10 % 28 10 %
CYP716A2 biogenesis of cell wall mutant 10 16 % 26 9 %
CYP720A1 C-compound and carbohydrate utilization mutant 5 9 % 19 7 %
CYP724A1 mRNA synthesis organ 5 19 % 20 17 %
CYP724A1 nucleotide metabolism organ 5 8 % 25 9 %
CYP724A1 nucleotide metabolism hormone 6 10 % 24 9 %
CYP724A1 transcription organ 6 10 % 22 8 %
CYP724A1 RNA synthesis organ 6 9 % 22 7 %
CYP724A1 biogenesis of cell wall hormone 7 11 % 18 7 %
CYP724A1 protein synthesis organ 11 9 % 38 6 %
CYP724A1 C-compound and carbohydrate metabolism hormone 11 4 % 42 3 %
CYP724A1 glycolysis and gluconeogenesis hormone 5 4 % 20 3 %
CYP724A1 ribosome biogenesis organ 6 4 % 28 3 %
CYP724A1 transport hormone 5 3 % 18 2 %
CYP734A1 biogenesis of cell wall mutant 7 11 % 18 7 %
CYP735A1 degradation mutant 6 23 % 28 24 %
CYP735A1 C-compound, carbohydrate catabolism mutant 7 17 % 28 19 %
CYP735A1 biogenesis of cell wall mutant 14 22 % 40 14 %
CYP735A1 intracellular signalling mutant 7 13 % 29 14 %
CYP735A1 metabolism of energy reserves (e.g. glycogen, trehalose) mutant 6 17 % 22 13 %
CYP735A1 energy mutant 7 14 % 32 13 %
CYP735A1 mRNA synthesis mutant 5 19 % 15 13 %
CYP735A1 nucleotide metabolism mutant 7 12 % 34 12 %
CYP735A1 secondary metabolism mutant 9 15 % 30 12 %
CYP735A1 transcription mutant 8 13 % 30 11 %
CYP735A1 lipid, fatty acid and isoprenoid biosynthesis mutant 5 9 % 28 9 %
CYP735A1 RNA synthesis mutant 7 10 % 28 9 %
CYP735A1 isoprenoid biosynthesis mutant 5 8 % 28 8 %
CYP735A1 nucleotide metabolism hormone 5 8 % 22 8 %
CYP735A1 transport mutant 16 9 % 64 8 %
CYP735A1 transport facilitation mutant 14 10 % 50 7 %
CYP735A1 biogenesis of cell wall hormone 6 9 % 18 7 %
CYP735A1 tricarboxylic-acid pathway (citrate cycle, Krebs cycle, TCA cycle) mutant 6 6 % 28 5 %
CYP735A1 C-compound and carbohydrate utilization mutant 5 9 % 11 4 %
CYP735A1 ribosome biogenesis mutant 6 4 % 36 4 %
CYP735A2 C-compound, carbohydrate catabolism mutant 6 15 % 24 16 %
CYP735A2 intracellular signalling mutant 7 13 % 29 14 %
CYP735A2 biogenesis of cell wall mutant 12 19 % 36 13 %
CYP735A2 nucleotide metabolism mutant 8 13 % 36 13 %
CYP735A2 lipid, fatty acid and isoprenoid biosynthesis mutant 5 9 % 28 9 %
CYP735A2 isoprenoid biosynthesis mutant 5 8 % 28 8 %
CYP735A2 secondary metabolism mutant 7 12 % 19 8 %
CYP735A2 transport facilitation mutant 9 6 % 30 4 %
CYP735A2 transport mutant 10 6 % 34 4 %










page created by Juergen Ehlting 03/20/06