Co-expression analysis results by P450 (AraCyc data)			CYPedia Home
Shown below is a list of P450 genes, which are co-expressed with genes placed into 'Arabidopsis thaliana Biochemical Pathways' (AraCyc) at TAIR. For more info on the co-expression analysis and the databases used refer to the methods page.		Go to:	AcylLipid Pathway list
			AraCyc Pathways
			BioPath Pathway list
			FunCat list
This list is sorted by the name of P450s, then by the frequency and number 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	sterol biosynthesis	mutant	5	25	%	50	32	%
CYP51A2	fatty acid biosynthesis -- initial steps	mutant	6	19	%	30	19	%
CYP71A12	tryptophan biosynthesis	stress	10	38	%	78	56	%
CYP71A12	tryptophan biosynthesis	mutant	8	31	%	64	46	%
CYP71A13	tryptophan biosynthesis	stress	10	38	%	78	56	%
CYP71A13	tryptophan biosynthesis	mutant	8	31	%	64	46	%
CYP71A13	leucine biosynthesis	stress	5	14	%	20	11	%
CYP71A18	tryptophan biosynthesis	mutant	8	31	%	52	37	%
CYP71A18	tryptophan biosynthesis	hormone	7	27	%	48	34	%
CYP71A18	lipases pathway	mutant	6	23	%	39	28	%
CYP71A18	triacylglycerol degradation	mutant	11	21	%	30	24	%
CYP71A18	jasmonic acid biosynthesis	mutant	5	28	%	28	23	%
CYP71A18	biosynthesis of pyrimidine ribonucleotides	mutant	5	22	%	16	17	%
CYP71A18	trehalose biosynthesis III	mutant	5	16	%	22	15	%
CYP71A18	lignin biosynthesis	mutant	5	11	%	30	12	%
CYP71A18	trehalose biosynthesis II	mutant	5	9	%	22	9	%
CYP71A18	chlorophyll biosynthesis	mutant	5	10	%	24	9	%
CYP71A18	glycerol degradation II	mutant	5	11	%	16	8	%
CYP71A18	trehalose biosynthesis I	mutant	5	7	%	22	7	%
CYP71A18	de novo biosynthesis of purine nucleotides I	mutant	5	6	%	18	6	%
CYP71B10	TCA cycle variation VII	organ	5	7	%	28	8	%
CYP71B11	superpathway of serine and glycine biosynthesis II	hormone	5	23	%	23	29	%
CYP71B11	photorespiration	hormone	6	18	%	29	23	%
CYP71B11	glycine biosynthesis I	hormone	5	12	%	23	16	%
CYP71B15	tryptophan biosynthesis	stress	10	38	%	78	56	%
CYP71B15	tryptophan biosynthesis	mutant	10	38	%	70	50	%
CYP71B15	tryptophan biosynthesis	hormone	9	35	%	68	49	%
CYP71B15	triacylglycerol degradation	mutant	6	11	%	25	20	%
CYP71B15	alanine biosynthesis II	stress	5	20	%	22	19	%
CYP71B15	sulfate assimilation III	hormone	6	18	%	44	19	%
CYP71B15	cysteine biosynthesis I	hormone	5	13	%	35	19	%
CYP71B15	lignin biosynthesis	hormone	5	11	%	30	12	%
CYP71B15	lignin biosynthesis	mutant	5	11	%	30	12	%
CYP71B16	threonine degradation	mutant	10	48	%	37	54	%
CYP71B16	carotenoid biosynthesis	mutant	5	50	%	46	50	%
CYP71B16	methylglyoxal degradation	mutant	5	36	%	25	47	%
CYP71B16	isoleucine degradation III	mutant	5	42	%	31	46	%
CYP71B16	aerobic respiration -- electron donors reaction list	mutant	10	45	%	34	39	%
CYP71B16	valine degradation II	mutant	5	29	%	23	35	%
CYP71B16	cysteine biosynthesis I	mutant	10	26	%	60	33	%
CYP71B16	Calvin cycle	mutant	10	26	%	56	32	%
CYP71B16	chlorophyll biosynthesis	mutant	10	19	%	80	30	%
CYP71B16	photorespiration	mutant	6	18	%	38	30	%
CYP71B16	sulfate assimilation III	mutant	9	27	%	62	27	%
CYP71B16	glyoxylate cycle	mutant	6	26	%	38	27	%
CYP71B16	leucine degradation II	mutant	5	24	%	31	26	%
CYP71B16	ascorbate glutathione cycle	mutant	5	31	%	25	26	%
CYP71B16	TCA cycle -- aerobic respiration	mutant	10	21	%	56	25	%
CYP71B16	tryptophan biosynthesis	mutant	6	23	%	34	24	%
CYP71B16	acetyl-CoA assimilation	mutant	7	22	%	42	24	%
CYP71B16	leucine biosynthesis	mutant	8	22	%	42	24	%
CYP71B16	mixed acid fermentation	mutant	8	23	%	38	23	%
CYP71B16	TCA cycle variation VIII	mutant	10	20	%	56	23	%
CYP71B16	isoleucine degradation I	mutant	5	21	%	31	23	%
CYP71B16	gluconeogenesis	mutant	9	20	%	50	22	%
CYP71B16	carbon monoxide dehydrogenase pathway	mutant	7	25	%	17	22	%
CYP71B16	glycine biosynthesis I	mutant	5	12	%	31	21	%
CYP71B16	biosynthesis of proto- and siroheme	mutant	7	17	%	42	20	%
CYP71B16	trehalose biosynthesis III	mutant	5	16	%	29	20	%
CYP71B16	non-phosphorylated glucose degradation	mutant	6	19	%	20	20	%
CYP71B16	acetate fermentation	mutant	15	22	%	54	19	%
CYP71B16	serine-isocitrate lyase pathway	mutant	7	16	%	44	19	%
CYP71B16	glycolysis IV	mutant	12	19	%	50	19	%
CYP71B16	phenylalanine degradation I	mutant	5	19	%	24	18	%
CYP71B16	fatty acid biosynthesis -- initial steps	mutant	5	16	%	28	18	%
CYP71B16	valine degradation I	mutant	5	15	%	23	17	%
CYP71B16	glycerol degradation II	mutant	9	20	%	34	17	%
CYP71B16	de novo biosynthesis of purine nucleotides II	mutant	5	14	%	20	17	%
CYP71B16	tRNA charging pathway	mutant	9	19	%	22	17	%
CYP71B16	fructose degradation (anaerobic)	mutant	11	17	%	44	17	%
CYP71B16	TCA cycle variation IV	mutant	7	16	%	36	17	%
CYP71B16	TCA cycle variation VII	mutant	10	14	%	56	16	%
CYP71B16	oxidative branch of the pentose phosphate pathway	mutant	6	19	%	20	16	%
CYP71B16	sorbitol fermentation	mutant	11	17	%	44	16	%
CYP71B16	leucine degradation I	mutant	5	12	%	31	13	%
CYP71B16	trehalose biosynthesis II	mutant	5	9	%	29	12	%
CYP71B16	de novo biosynthesis of purine nucleotides I	mutant	10	11	%	38	12	%
CYP71B16	colanic acid building blocks biosynthesis	mutant	7	13	%	27	11	%
CYP71B16	galactose degradation I	mutant	6	13	%	21	11	%
CYP71B16	lactose degradation IV	mutant	8	11	%	31	11	%
CYP71B16	dTDP-rhamnose biosynthesis	mutant	6	14	%	18	10	%
CYP71B16	glycolysis I	mutant	12	9	%	50	9	%
CYP71B16	trehalose biosynthesis I	mutant	5	7	%	29	9	%
CYP71B17	trans-zeatin biosynthesis	mutant	7	88	%	36	86	%
CYP71B17	lipases pathway	mutant	7	27	%	47	34	%
CYP71B17	gibberellin biosynthesis	mutant	5	42	%	23	27	%
CYP71B17	sucrose degradation III	mutant	5	31	%	22	27	%
CYP71B17	triacylglycerol degradation	mutant	15	28	%	32	26	%
CYP71B17	de novo biosynthesis of purine nucleotides II	mutant	5	14	%	22	18	%
CYP71B17	trehalose biosynthesis III	mutant	7	22	%	26	18	%
CYP71B17	non-phosphorylated glucose degradation	mutant	5	16	%	18	18	%
CYP71B17	dTDP-rhamnose biosynthesis	mutant	6	14	%	30	17	%
CYP71B17	cellulose biosynthesis	mutant	6	14	%	34	16	%
CYP71B17	TCA cycle variation IV	mutant	8	18	%	34	16	%
CYP71B17	galactose degradation I	mutant	6	13	%	29	15	%
CYP71B17	TCA cycle -- aerobic respiration	mutant	8	17	%	34	15	%
CYP71B17	lactose degradation IV	mutant	10	14	%	43	15	%
CYP71B17	TCA cycle variation VIII	mutant	8	16	%	34	14	%
CYP71B17	colanic acid building blocks biosynthesis	mutant	6	11	%	29	12	%
CYP71B17	mixed acid fermentation	mutant	5	14	%	20	12	%
CYP71B17	trehalose biosynthesis II	mutant	7	13	%	26	11	%
CYP71B17	glycerol degradation II	mutant	6	13	%	20	10	%
CYP71B17	tRNA charging pathway	mutant	5	11	%	13	10	%
CYP71B17	chlorophyll biosynthesis	mutant	9	17	%	26	10	%
CYP71B17	TCA cycle variation VII	mutant	8	11	%	34	10	%
CYP71B17	biosynthesis of proto- and siroheme	mutant	6	15	%	20	10	%
CYP71B17	Calvin cycle	mutant	5	13	%	17	10	%
CYP71B17	trehalose biosynthesis I	mutant	7	9	%	26	8	%
CYP71B17	de novo biosynthesis of purine nucleotides I	mutant	5	6	%	22	7	%
CYP71B19	superpathway of serine and glycine biosynthesis II	organ	9	41	%	38	49	%
CYP71B19	carotenoid biosynthesis	organ	5	50	%	44	48	%
CYP71B19	photorespiration	organ	13	38	%	56	44	%
CYP71B19	glyceraldehyde 3-phosphate degradation	organ	5	22	%	35	33	%
CYP71B19	Calvin cycle	organ	8	21	%	56	32	%
CYP71B19	glycine biosynthesis I	organ	9	21	%	38	26	%
CYP71B19	gluconeogenesis	organ	8	18	%	57	25	%
CYP71B19	mannitol degradation	organ	5	20	%	24	25	%
CYP71B19	sorbitol degradation	organ	5	19	%	24	24	%
CYP71B19	acetate fermentation	organ	10	15	%	56	20	%
CYP71B19	fructose degradation (anaerobic)	organ	9	14	%	52	20	%
CYP71B19	glycolysis IV	organ	9	14	%	52	19	%
CYP71B19	chlorophyll biosynthesis	organ	6	12	%	50	19	%
CYP71B19	sorbitol fermentation	organ	9	14	%	52	18	%
CYP71B19	cysteine biosynthesis II	organ	6	26	%	14	18	%
CYP71B19	serine biosynthesis	organ	6	23	%	14	15	%
CYP71B19	serine-isocitrate lyase pathway	organ	5	11	%	32	14	%
CYP71B19	UDP-glucose conversion	organ	5	13	%	17	11	%
CYP71B19	glucose conversion	organ	5	13	%	17	11	%
CYP71B19	glycolysis I	organ	9	7	%	52	10	%
CYP71B19	galactose degradation I	organ	5	10	%	17	9	%
CYP71B19	lactose degradation IV	organ	7	10	%	25	9	%
CYP71B19	cysteine biosynthesis I	organ	6	15	%	14	8	%
CYP71B19	colanic acid building blocks biosynthesis	organ	5	9	%	17	7	%
CYP71B2	trans-zeatin biosynthesis	mutant	6	75	%	27	64	%
CYP71B2	gibberellin biosynthesis	mutant	5	42	%	23	27	%
CYP71B2	sucrose degradation III	mutant	5	31	%	22	27	%
CYP71B2	lipases pathway	mutant	6	23	%	37	27	%
CYP71B2	triacylglycerol degradation	mutant	11	21	%	24	19	%
CYP71B2	non-phosphorylated glucose degradation	mutant	5	16	%	18	18	%
CYP71B2	dTDP-rhamnose biosynthesis	mutant	5	12	%	25	15	%
CYP71B2	trehalose biosynthesis III	mutant	5	16	%	18	13	%
CYP71B2	mixed acid fermentation	mutant	5	14	%	20	12	%
CYP71B2	cellulose biosynthesis	mutant	6	14	%	26	12	%
CYP71B2	colanic acid building blocks biosynthesis	hormone	5	9	%	28	12	%
CYP71B2	TCA cycle variation IV	mutant	6	13	%	24	11	%
CYP71B2	TCA cycle -- aerobic respiration	mutant	6	13	%	24	11	%
CYP71B2	TCA cycle variation VIII	mutant	6	12	%	24	10	%
CYP71B2	tRNA charging pathway	mutant	5	11	%	13	10	%
CYP71B2	biosynthesis of proto- and siroheme	mutant	6	15	%	20	10	%
CYP71B2	lactose degradation IV	mutant	7	10	%	26	9	%
CYP71B2	chlorophyll biosynthesis	mutant	8	15	%	24	9	%
CYP71B2	glycerol degradation II	mutant	5	11	%	18	9	%
CYP71B2	lactose degradation IV	hormone	5	7	%	22	8	%
CYP71B2	trehalose biosynthesis II	mutant	5	9	%	18	8	%
CYP71B2	TCA cycle variation VII	mutant	6	9	%	24	7	%
CYP71B2	trehalose biosynthesis I	mutant	5	7	%	18	6	%
CYP71B20	superpathway of serine and glycine biosynthesis II	organ	9	41	%	38	49	%
CYP71B20	carotenoid biosynthesis	organ	5	50	%	44	48	%
CYP71B20	photorespiration	organ	13	38	%	56	44	%
CYP71B20	glyceraldehyde 3-phosphate degradation	organ	5	22	%	35	33	%
CYP71B20	Calvin cycle	organ	8	21	%	56	32	%
CYP71B20	glycine biosynthesis I	organ	9	21	%	38	26	%
CYP71B20	gluconeogenesis	organ	8	18	%	57	25	%
CYP71B20	mannitol degradation	organ	5	20	%	24	25	%
CYP71B20	sorbitol degradation	organ	5	19	%	24	24	%
CYP71B20	acetate fermentation	organ	10	15	%	56	20	%
CYP71B20	fructose degradation (anaerobic)	organ	9	14	%	52	20	%
CYP71B20	glycolysis IV	organ	9	14	%	52	19	%
CYP71B20	chlorophyll biosynthesis	organ	6	12	%	50	19	%
CYP71B20	sorbitol fermentation	organ	9	14	%	52	18	%
CYP71B20	cysteine biosynthesis II	organ	6	26	%	14	18	%
CYP71B20	serine biosynthesis	organ	6	23	%	14	15	%
CYP71B20	serine-isocitrate lyase pathway	organ	5	11	%	32	14	%
CYP71B20	UDP-glucose conversion	organ	5	13	%	17	11	%
CYP71B20	glucose conversion	organ	5	13	%	17	11	%
CYP71B20	glycolysis I	organ	9	7	%	52	10	%
CYP71B20	galactose degradation I	organ	5	10	%	17	9	%
CYP71B20	lactose degradation IV	organ	7	10	%	25	9	%
CYP71B20	cysteine biosynthesis I	organ	6	15	%	14	8	%
CYP71B20	colanic acid building blocks biosynthesis	organ	5	9	%	17	7	%
CYP71B21	trans-zeatin biosynthesis	mutant	7	88	%	36	86	%
CYP71B21	phenylalanine biosynthesis II	mutant	5	23	%	34	36	%
CYP71B21	lipases pathway	mutant	7	27	%	47	34	%
CYP71B21	alanine biosynthesis II	mutant	5	20	%	34	30	%
CYP71B21	gibberellin biosynthesis	mutant	5	42	%	23	27	%
CYP71B21	sucrose degradation III	mutant	5	31	%	22	27	%
CYP71B21	de novo biosynthesis of pyrimidine ribonucleotides	mutant	5	23	%	24	26	%
CYP71B21	triacylglycerol degradation	mutant	15	28	%	32	26	%
CYP71B21	biosynthesis of pyrimidine ribonucleotides	mutant	5	22	%	24	26	%
CYP71B21	trehalose biosynthesis III	mutant	8	25	%	30	21	%
CYP71B21	de novo biosynthesis of purine nucleotides II	mutant	5	14	%	22	18	%
CYP71B21	mixed acid fermentation	mutant	6	17	%	30	18	%
CYP71B21	non-phosphorylated glucose degradation	mutant	5	16	%	18	18	%
CYP71B21	dTDP-rhamnose biosynthesis	mutant	6	14	%	30	17	%
CYP71B21	cellulose biosynthesis	mutant	6	14	%	34	16	%
CYP71B21	TCA cycle variation IV	mutant	8	18	%	34	16	%
CYP71B21	sorbitol fermentation	mutant	11	17	%	44	16	%
CYP71B21	galactose degradation I	mutant	6	13	%	29	15	%
CYP71B21	TCA cycle -- aerobic respiration	mutant	8	17	%	34	15	%
CYP71B21	lactose degradation IV	mutant	10	14	%	43	15	%
CYP71B21	TCA cycle variation VIII	mutant	8	16	%	34	14	%
CYP71B21	trehalose biosynthesis II	mutant	8	15	%	30	13	%
CYP71B21	colanic acid building blocks biosynthesis	mutant	6	11	%	29	12	%
CYP71B21	tRNA charging pathway	mutant	6	13	%	15	11	%
CYP71B21	glycerol degradation II	mutant	6	13	%	20	10	%
CYP71B21	chlorophyll biosynthesis	mutant	9	17	%	26	10	%
CYP71B21	TCA cycle variation VII	mutant	8	11	%	34	10	%
CYP71B21	biosynthesis of proto- and siroheme	mutant	6	15	%	20	10	%
CYP71B21	Calvin cycle	mutant	5	13	%	17	10	%
CYP71B21	trehalose biosynthesis I	mutant	8	11	%	30	9	%
CYP71B21	de novo biosynthesis of purine nucleotides I	mutant	6	7	%	28	9	%
CYP71B22	tryptophan biosynthesis	mutant	5	19	%	34	24	%
CYP71B23	TCA cycle -- aerobic respiration	stress	5	11	%	24	11	%
CYP71B23	TCA cycle variation VIII	stress	5	10	%	24	10	%
CYP71B23	TCA cycle variation VII	stress	5	7	%	24	7	%
CYP71B24	superpathway of serine and glycine biosynthesis II	organ	8	36	%	32	41	%
CYP71B24	photorespiration	organ	10	29	%	42	33	%
CYP71B24	jasmonic acid biosynthesis	organ	5	28	%	35	29	%
CYP71B24	cysteine biosynthesis II	organ	8	35	%	22	28	%
CYP71B24	glycine biosynthesis I	organ	8	19	%	32	22	%
CYP71B24	Calvin cycle	organ	6	16	%	36	20	%
CYP71B24	serine biosynthesis	organ	7	27	%	18	19	%
CYP71B24	cysteine biosynthesis I	organ	8	21	%	22	12	%
CYP71B24	fructose degradation (anaerobic)	organ	5	8	%	22	8	%
CYP71B24	glycolysis IV	organ	5	8	%	22	8	%
CYP71B24	lactose degradation IV	organ	6	8	%	23	8	%
CYP71B24	acetate fermentation	organ	5	7	%	22	8	%
CYP71B24	sorbitol fermentation	organ	5	8	%	22	8	%
CYP71B24	glycolysis I	organ	5	4	%	22	4	%
CYP71B25	trans-zeatin biosynthesis	mutant	7	88	%	36	86	%
CYP71B25	phenylalanine biosynthesis II	mutant	5	23	%	34	36	%
CYP71B25	lipases pathway	mutant	7	27	%	47	34	%
CYP71B25	alanine biosynthesis II	mutant	5	20	%	34	30	%
CYP71B25	gibberellin biosynthesis	mutant	5	42	%	23	27	%
CYP71B25	sucrose degradation III	mutant	5	31	%	22	27	%
CYP71B25	de novo biosynthesis of pyrimidine ribonucleotides	mutant	5	23	%	24	26	%
CYP71B25	triacylglycerol degradation	mutant	15	28	%	32	26	%
CYP71B25	biosynthesis of pyrimidine ribonucleotides	mutant	5	22	%	24	26	%
CYP71B25	trehalose biosynthesis III	mutant	8	25	%	30	21	%
CYP71B25	de novo biosynthesis of purine nucleotides II	mutant	5	14	%	22	18	%
CYP71B25	mixed acid fermentation	mutant	6	17	%	30	18	%
CYP71B25	non-phosphorylated glucose degradation	mutant	5	16	%	18	18	%
CYP71B25	dTDP-rhamnose biosynthesis	mutant	6	14	%	30	17	%
CYP71B25	cellulose biosynthesis	mutant	6	14	%	34	16	%
CYP71B25	TCA cycle variation IV	mutant	8	18	%	34	16	%
CYP71B25	sorbitol fermentation	mutant	11	17	%	44	16	%
CYP71B25	galactose degradation I	mutant	6	13	%	29	15	%
CYP71B25	TCA cycle -- aerobic respiration	mutant	8	17	%	34	15	%
CYP71B25	lactose degradation IV	mutant	10	14	%	43	15	%
CYP71B25	TCA cycle variation VIII	mutant	8	16	%	34	14	%
CYP71B25	trehalose biosynthesis II	mutant	8	15	%	30	13	%
CYP71B25	colanic acid building blocks biosynthesis	mutant	6	11	%	29	12	%
CYP71B25	glycerol degradation II	mutant	6	13	%	20	10	%
CYP71B25	tRNA charging pathway	mutant	5	11	%	13	10	%
CYP71B25	chlorophyll biosynthesis	mutant	9	17	%	26	10	%
CYP71B25	TCA cycle variation VII	mutant	8	11	%	34	10	%
CYP71B25	biosynthesis of proto- and siroheme	mutant	6	15	%	20	10	%
CYP71B25	Calvin cycle	mutant	5	13	%	17	10	%
CYP71B25	trehalose biosynthesis I	mutant	8	11	%	30	9	%
CYP71B25	de novo biosynthesis of purine nucleotides I	mutant	6	7	%	28	9	%
CYP71B26	Calvin cycle	mutant	10	26	%	56	32	%
CYP71B26	chlorophyll biosynthesis	mutant	5	10	%	46	17	%
CYP71B26	tRNA charging pathway	mutant	5	11	%	14	11	%
CYP71B28	carotenoid biosynthesis	organ	6	60	%	52	57	%
CYP71B28	superpathway of serine and glycine biosynthesis II	organ	10	45	%	40	51	%
CYP71B28	photorespiration	organ	13	38	%	52	41	%
CYP71B28	Calvin cycle	organ	10	26	%	62	35	%
CYP71B28	glycine biosynthesis I	organ	10	23	%	40	28	%
CYP71B28	cysteine biosynthesis II	organ	7	30	%	16	20	%
CYP71B28	gluconeogenesis	organ	7	16	%	44	19	%
CYP71B28	formaldehyde assimilation I (serine pathway)	organ	5	15	%	28	18	%
CYP71B28	serine biosynthesis	organ	7	27	%	16	17	%
CYP71B28	chlorophyll biosynthesis	organ	5	10	%	44	17	%
CYP71B28	phenylalanine degradation I	organ	5	19	%	22	16	%
CYP71B28	acetate fermentation	organ	8	12	%	44	16	%
CYP71B28	serine-isocitrate lyase pathway	organ	6	13	%	36	16	%
CYP71B28	fructose degradation (anaerobic)	organ	7	11	%	40	15	%
CYP71B28	glycolysis IV	organ	7	11	%	40	15	%
CYP71B28	sorbitol fermentation	organ	7	11	%	40	14	%
CYP71B28	phenylalanine degradation I	stress	5	19	%	18	13	%
CYP71B28	cysteine biosynthesis I	organ	7	18	%	16	9	%
CYP71B28	glycolysis I	organ	7	5	%	40	7	%
CYP71B28	lactose degradation IV	organ	5	7	%	21	7	%
CYP71B30P	threonine degradation	mutant	10	48	%	37	54	%
CYP71B30P	carotenoid biosynthesis	mutant	5	50	%	46	50	%
CYP71B30P	methylglyoxal degradation	mutant	5	36	%	25	47	%
CYP71B30P	isoleucine degradation III	mutant	5	42	%	31	46	%
CYP71B30P	aerobic respiration -- electron donors reaction list	mutant	10	45	%	34	39	%
CYP71B30P	valine degradation II	mutant	5	29	%	23	35	%
CYP71B30P	cysteine biosynthesis I	mutant	10	26	%	60	33	%
CYP71B30P	Calvin cycle	mutant	10	26	%	56	32	%
CYP71B30P	chlorophyll biosynthesis	mutant	10	19	%	80	30	%
CYP71B30P	photorespiration	mutant	6	18	%	38	30	%
CYP71B30P	sulfate assimilation III	mutant	9	27	%	62	27	%
CYP71B30P	glyoxylate cycle	mutant	6	26	%	38	27	%
CYP71B30P	leucine degradation II	mutant	5	24	%	31	26	%
CYP71B30P	ascorbate glutathione cycle	mutant	5	31	%	25	26	%
CYP71B30P	TCA cycle -- aerobic respiration	mutant	10	21	%	56	25	%
CYP71B30P	tryptophan biosynthesis	mutant	6	23	%	34	24	%
CYP71B30P	acetyl-CoA assimilation	mutant	7	22	%	42	24	%
CYP71B30P	leucine biosynthesis	mutant	8	22	%	42	24	%
CYP71B30P	mixed acid fermentation	mutant	8	23	%	38	23	%
CYP71B30P	TCA cycle variation VIII	mutant	10	20	%	56	23	%
CYP71B30P	isoleucine degradation I	mutant	5	21	%	31	23	%
CYP71B30P	gluconeogenesis	mutant	9	20	%	50	22	%
CYP71B30P	carbon monoxide dehydrogenase pathway	mutant	7	25	%	17	22	%
CYP71B30P	glycine biosynthesis I	mutant	5	12	%	31	21	%
CYP71B30P	biosynthesis of proto- and siroheme	mutant	7	17	%	42	20	%
CYP71B30P	trehalose biosynthesis III	mutant	5	16	%	29	20	%
CYP71B30P	non-phosphorylated glucose degradation	mutant	6	19	%	20	20	%
CYP71B30P	acetate fermentation	mutant	15	22	%	54	19	%
CYP71B30P	serine-isocitrate lyase pathway	mutant	7	16	%	44	19	%
CYP71B30P	glycolysis IV	mutant	12	19	%	50	19	%
CYP71B30P	phenylalanine degradation I	mutant	5	19	%	24	18	%
CYP71B30P	fatty acid biosynthesis -- initial steps	mutant	5	16	%	28	18	%
CYP71B30P	valine degradation I	mutant	5	15	%	23	17	%
CYP71B30P	glycerol degradation II	mutant	9	20	%	34	17	%
CYP71B30P	de novo biosynthesis of purine nucleotides II	mutant	5	14	%	20	17	%
CYP71B30P	tRNA charging pathway	mutant	9	19	%	22	17	%
CYP71B30P	fructose degradation (anaerobic)	mutant	11	17	%	44	17	%
CYP71B30P	TCA cycle variation IV	mutant	7	16	%	36	17	%
CYP71B30P	TCA cycle variation VII	mutant	10	14	%	56	16	%
CYP71B30P	oxidative branch of the pentose phosphate pathway	mutant	6	19	%	20	16	%
CYP71B30P	sorbitol fermentation	mutant	11	17	%	44	16	%
CYP71B30P	leucine degradation I	mutant	5	12	%	31	13	%
CYP71B30P	trehalose biosynthesis II	mutant	5	9	%	29	12	%
CYP71B30P	de novo biosynthesis of purine nucleotides I	mutant	10	11	%	38	12	%
CYP71B30P	colanic acid building blocks biosynthesis	mutant	7	13	%	27	11	%
CYP71B30P	galactose degradation I	mutant	6	13	%	21	11	%
CYP71B30P	lactose degradation IV	mutant	8	11	%	31	11	%
CYP71B30P	dTDP-rhamnose biosynthesis	mutant	6	14	%	18	10	%
CYP71B30P	glycolysis I	mutant	12	9	%	50	9	%
CYP71B30P	trehalose biosynthesis I	mutant	5	7	%	29	9	%
CYP71B31	non-phosphorylated glucose degradation	mutant	5	16	%	18	18	%
CYP71B31	glycerol degradation II	mutant	5	11	%	18	9	%
CYP71B34	carotenoid biosynthesis	organ	6	60	%	52	57	%
CYP71B34	superpathway of serine and glycine biosynthesis II	organ	8	36	%	36	46	%
CYP71B34	Calvin cycle	organ	12	32	%	66	37	%
CYP71B34	photorespiration	organ	10	29	%	46	36	%
CYP71B34	glycine biosynthesis I	organ	8	19	%	36	25	%
CYP71B34	mannitol degradation	organ	5	20	%	24	25	%
CYP71B34	chlorophyll biosynthesis	organ	8	15	%	64	24	%
CYP71B34	sorbitol degradation	organ	5	19	%	24	24	%
CYP71B34	gluconeogenesis	organ	7	16	%	44	19	%
CYP71B34	serine-isocitrate lyase pathway	organ	7	16	%	44	19	%
CYP71B34	acetyl-CoA assimilation	organ	5	16	%	32	18	%
CYP71B34	formaldehyde assimilation I (serine pathway)	organ	5	15	%	28	18	%
CYP71B34	oxidative branch of the pentose phosphate pathway	organ	5	16	%	22	17	%
CYP71B34	threonine degradation	mutant	5	24	%	12	17	%
CYP71B34	fructose degradation (anaerobic)	organ	8	13	%	42	16	%
CYP71B34	glycolysis IV	organ	8	13	%	42	16	%
CYP71B34	cysteine biosynthesis II	organ	5	22	%	12	15	%
CYP71B34	acetate fermentation	organ	8	12	%	42	15	%
CYP71B34	sorbitol fermentation	organ	8	12	%	42	15	%
CYP71B34	TCA cycle variation IV	organ	5	11	%	32	15	%
CYP71B34	TCA cycle variation VIII	organ	5	10	%	32	13	%
CYP71B34	serine biosynthesis	organ	5	19	%	12	13	%
CYP71B34	TCA cycle variation VII	organ	5	7	%	32	9	%
CYP71B34	Calvin cycle	mutant	5	13	%	16	9	%
CYP71B34	lactose degradation IV	organ	6	8	%	23	8	%
CYP71B34	colanic acid building blocks biosynthesis	organ	5	9	%	19	8	%
CYP71B34	glycolysis I	organ	8	6	%	42	8	%
CYP71B34	cysteine biosynthesis I	organ	5	13	%	12	7	%
CYP71B35	photorespiration	organ	12	35	%	62	48	%
CYP71B35	carotenoid biosynthesis	organ	5	50	%	44	48	%
CYP71B35	superpathway of serine and glycine biosynthesis II	organ	8	36	%	36	46	%
CYP71B35	Calvin cycle	organ	11	29	%	60	34	%
CYP71B35	mannitol degradation	organ	5	20	%	28	29	%
CYP71B35	sorbitol degradation	organ	5	19	%	28	28	%
CYP71B35	glycine biosynthesis I	organ	8	19	%	36	25	%
CYP71B35	chlorophyll biosynthesis	organ	7	13	%	54	20	%
CYP71B35	cysteine biosynthesis II	organ	6	26	%	16	20	%
CYP71B35	fructose degradation (anaerobic)	organ	9	14	%	50	19	%
CYP71B35	glycolysis IV	organ	9	14	%	50	19	%
CYP71B35	acetate fermentation	organ	9	13	%	50	18	%
CYP71B35	sorbitol fermentation	organ	9	14	%	50	18	%
CYP71B35	serine biosynthesis	organ	6	23	%	16	17	%
CYP71B35	gluconeogenesis	organ	6	13	%	38	17	%
CYP71B35	glycolysis I	organ	9	7	%	50	9	%
CYP71B35	cysteine biosynthesis I	organ	6	15	%	16	9	%
CYP71B35	lactose degradation IV	organ	5	7	%	19	7	%
CYP71B36	tRNA charging pathway	stress	5	11	%	12	9	%
CYP71B36	Calvin cycle	stress	5	13	%	15	8	%
CYP71B38	aerobic respiration -- electron donors reaction list	mutant	6	27	%	20	23	%
CYP71B38	leucine biosynthesis	mutant	7	19	%	40	23	%
CYP71B38	acetyl-CoA assimilation	mutant	5	16	%	30	17	%
CYP71B38	TCA cycle -- aerobic respiration	mutant	6	13	%	36	16	%
CYP71B38	tRNA charging pathway	mutant	8	17	%	20	15	%
CYP71B38	TCA cycle variation VIII	mutant	6	12	%	36	15	%
CYP71B38	serine-isocitrate lyase pathway	mutant	5	11	%	32	14	%
CYP71B38	Calvin cycle	mutant	5	13	%	20	11	%
CYP71B38	TCA cycle variation VII	mutant	6	9	%	36	10	%
CYP71B4	carotenoid biosynthesis	organ	5	50	%	44	48	%
CYP71B4	superpathway of serine and glycine biosynthesis II	organ	5	23	%	24	31	%
CYP71B4	photorespiration	organ	7	21	%	34	27	%
CYP71B4	Calvin cycle	organ	6	16	%	40	23	%
CYP71B4	threonine degradation	hormone	5	24	%	14	20	%
CYP71B4	cysteine biosynthesis II	organ	5	22	%	14	18	%
CYP71B4	glycine biosynthesis I	organ	5	12	%	24	17	%
CYP71B4	cysteine biosynthesis I	organ	5	13	%	14	8	%
CYP71B6	tryptophan biosynthesis	stress	10	38	%	78	56	%
CYP71B6	tryptophan biosynthesis	hormone	8	31	%	58	41	%
CYP71B6	acetyl-CoA assimilation	mutant	5	16	%	30	17	%
CYP71B6	TCA cycle -- aerobic respiration	mutant	6	13	%	34	15	%
CYP71B6	TCA cycle variation VIII	mutant	5	10	%	30	12	%
CYP71B6	tRNA charging pathway	mutant	5	11	%	12	9	%
CYP71B6	TCA cycle variation VII	mutant	5	7	%	30	9	%
CYP71B7	photorespiration	mutant	8	24	%	45	35	%
CYP71B7	Calvin cycle	mutant	11	29	%	62	35	%
CYP71B7	ascorbate glutathione cycle	mutant	5	31	%	31	33	%
CYP71B7	cysteine biosynthesis II	mutant	5	22	%	24	30	%
CYP71B7	superpathway of serine and glycine biosynthesis II	mutant	5	23	%	23	29	%
CYP71B7	serine biosynthesis	mutant	5	19	%	24	26	%
CYP71B7	cysteine biosynthesis I	mutant	8	21	%	46	25	%
CYP71B7	threonine degradation	mutant	5	24	%	16	23	%
CYP71B7	glycine biosynthesis I	mutant	6	14	%	32	22	%
CYP71B7	glycerol degradation II	mutant	8	18	%	44	22	%
CYP71B7	acetate fermentation	mutant	12	18	%	60	21	%
CYP71B7	fructose degradation (anaerobic)	mutant	10	16	%	56	21	%
CYP71B7	glycolysis IV	mutant	10	16	%	56	21	%
CYP71B7	leucine biosynthesis	mutant	7	19	%	36	20	%
CYP71B7	sulfate assimilation III	organ	6	18	%	46	20	%
CYP71B7	sorbitol fermentation	mutant	10	15	%	56	20	%
CYP71B7	gluconeogenesis	mutant	6	13	%	44	19	%
CYP71B7	sulfate assimilation III	mutant	6	18	%	44	19	%
CYP71B7	TCA cycle -- aerobic respiration	mutant	8	17	%	42	19	%
CYP71B7	acetyl-CoA assimilation	mutant	6	19	%	32	18	%
CYP71B7	TCA cycle variation VIII	mutant	7	14	%	40	17	%
CYP71B7	serine-isocitrate lyase pathway	mutant	6	13	%	38	16	%
CYP71B7	galactose degradation I	mutant	7	15	%	27	14	%
CYP71B7	oxidative branch of the pentose phosphate pathway	mutant	5	16	%	18	14	%
CYP71B7	colanic acid building blocks biosynthesis	mutant	8	14	%	33	14	%
CYP71B7	UDP-glucose conversion	mutant	5	13	%	21	14	%
CYP71B7	glucose conversion	mutant	5	13	%	21	13	%
CYP71B7	lactose degradation IV	mutant	9	13	%	37	13	%
CYP71B7	dTDP-rhamnose biosynthesis	mutant	6	14	%	22	13	%
CYP71B7	mixed acid fermentation	mutant	5	14	%	20	12	%
CYP71B7	TCA cycle variation VII	mutant	8	11	%	42	12	%
CYP71B7	glycolysis I	mutant	10	8	%	56	10	%
CYP71B7	TCA cycle variation IV	mutant	5	11	%	22	10	%
CYP72A11	carotenoid biosynthesis	organ	7	70	%	62	67	%
CYP72A11	glycine degradation I	organ	6	67	%	24	67	%
CYP72A11	glycine degradation I	mutant	5	56	%	22	61	%
CYP72A11	photorespiration	organ	13	38	%	64	50	%
CYP72A11	carotenoid biosynthesis	mutant	5	50	%	46	50	%
CYP72A11	chlorophyll biosynthesis	organ	17	33	%	130	49	%
CYP72A11	superpathway of serine and glycine biosynthesis II	organ	9	41	%	38	49	%
CYP72A11	Calvin cycle	organ	15	39	%	86	49	%
CYP72A11	carotenoid biosynthesis	hormone	5	50	%	44	48	%
CYP72A11	valine biosynthesis	mutant	5	31	%	30	46	%
CYP72A11	isoleucine biosynthesis I	mutant	5	31	%	30	46	%
CYP72A11	TCA cycle variation II	mutant	5	29	%	32	38	%
CYP72A11	photorespiration	mutant	8	24	%	48	38	%
CYP72A11	mannitol degradation	organ	7	28	%	36	37	%
CYP72A11	glyceraldehyde 3-phosphate degradation	organ	6	26	%	39	36	%
CYP72A11	Calvin cycle	mutant	12	32	%	64	36	%
CYP72A11	sorbitol degradation	organ	7	27	%	36	36	%
CYP72A11	formylTHF biosynthesis	mutant	5	28	%	30	35	%
CYP72A11	biosynthesis of proto- and siroheme	organ	11	27	%	70	34	%
CYP72A11	superpathway of serine and glycine biosynthesis II	mutant	5	23	%	26	33	%
CYP72A11	threonine degradation	mutant	6	29	%	23	33	%
CYP72A11	ascorbate glutathione cycle	organ	5	31	%	28	29	%
CYP72A11	cysteine biosynthesis I	organ	12	31	%	54	29	%
CYP72A11	gluconeogenesis	organ	10	22	%	65	29	%
CYP72A11	jasmonic acid biosynthesis	organ	5	28	%	35	29	%
CYP72A11	cysteine biosynthesis II	organ	8	35	%	22	28	%
CYP72A11	glyoxylate cycle	mutant	5	22	%	38	27	%
CYP72A11	sulfate assimilation III	organ	8	24	%	61	26	%
CYP72A11	fatty acid biosynthesis -- initial steps	mutant	7	22	%	42	26	%
CYP72A11	cysteine biosynthesis II	mutant	5	22	%	21	26	%
CYP72A11	glycine biosynthesis I	organ	9	21	%	38	26	%
CYP72A11	fatty acid elongation -- unsaturated	mutant	5	28	%	24	26	%
CYP72A11	fructose degradation (anaerobic)	organ	12	19	%	68	26	%
CYP72A11	glycolysis IV	organ	12	19	%	68	25	%
CYP72A11	atty acid elongation -- unsaturated	mutant	5	26	%	24	25	%
CYP72A11	acetate fermentation	organ	13	19	%	70	25	%
CYP72A11	chlorophyll biosynthesis	mutant	8	15	%	64	24	%
CYP72A11	glycine biosynthesis I	mutant	6	14	%	35	24	%
CYP72A11	sorbitol fermentation	organ	12	18	%	68	24	%
CYP72A11	oxidative branch of the pentose phosphate pathway	organ	7	22	%	30	24	%
CYP72A11	fatty acid elongation -- saturated	mutant	5	25	%	24	23	%
CYP72A11	leucine biosynthesis	mutant	6	16	%	40	23	%
CYP72A11	acetyl-CoA assimilation	organ	6	19	%	39	22	%
CYP72A11	gluconeogenesis	mutant	8	18	%	50	22	%
CYP72A11	mixed acid fermentation	mutant	6	17	%	36	22	%
CYP72A11	phenylalanine degradation I	mutant	5	19	%	30	22	%
CYP72A11	formaldehyde assimilation I (serine pathway)	mutant	5	15	%	34	22	%
CYP72A11	acetyl-CoA assimilation	mutant	5	16	%	38	22	%
CYP72A11	TCA cycle -- aerobic respiration	mutant	7	15	%	48	22	%
CYP72A11	TCA cycle variation VIII	mutant	8	16	%	52	21	%
CYP72A11	carbon monoxide dehydrogenase pathway	mutant	5	18	%	16	21	%
CYP72A11	biosynthesis of proto- and siroheme	mutant	7	17	%	42	20	%
CYP72A11	cysteine biosynthesis I	mutant	7	18	%	37	20	%
CYP72A11	carbon monoxide dehydrogenase pathway	organ	6	21	%	15	19	%
CYP72A11	TCA cycle variation IV	mutant	7	16	%	42	19	%
CYP72A11	serine biosynthesis	organ	7	27	%	18	19	%
CYP72A11	serine-isocitrate lyase pathway	organ	7	16	%	44	19	%
CYP72A11	serine-isocitrate lyase pathway	mutant	6	13	%	44	19	%
CYP72A11	sulfate assimilation III	mutant	6	18	%	42	18	%
CYP72A11	formaldehyde assimilation I (serine pathway)	organ	5	15	%	28	18	%
CYP72A11	acetate fermentation	mutant	12	18	%	46	16	%
CYP72A11	glycerol degradation II	organ	5	11	%	32	16	%
CYP72A11	oxidative branch of the pentose phosphate pathway	mutant	6	19	%	20	16	%
CYP72A11	TCA cycle variation IV	organ	6	13	%	34	16	%
CYP72A11	lactose degradation IV	organ	10	14	%	43	15	%
CYP72A11	TCA cycle variation VII	mutant	8	11	%	52	15	%
CYP72A11	UDP-glucose conversion	organ	6	15	%	23	15	%
CYP72A11	glucose conversion	mutant	5	13	%	23	15	%
CYP72A11	glucose conversion	organ	6	15	%	23	15	%
CYP72A11	galactose degradation I	mutant	6	13	%	27	14	%
CYP72A11	fructose degradation (anaerobic)	mutant	9	14	%	38	14	%
CYP72A11	glycolysis IV	mutant	9	14	%	38	14	%
CYP72A11	TCA cycle variation VIII	organ	6	12	%	34	14	%
CYP72A11	fatty acid biosynthesis -- initial steps	organ	5	16	%	22	14	%
CYP72A11	aerobic respiration -- electron donors reaction list	mutant	5	23	%	12	14	%
CYP72A11	TCA cycle -- aerobic respiration	organ	5	11	%	30	14	%
CYP72A11	glycerol degradation II	mutant	7	16	%	26	13	%
CYP72A11	dTDP-rhamnose biosynthesis	organ	6	14	%	22	13	%
CYP72A11	glycolysis I	organ	12	9	%	68	13	%
CYP72A11	lactose degradation IV	mutant	8	11	%	35	12	%
CYP72A11	galactose degradation I	organ	6	13	%	23	12	%
CYP72A11	cellulose biosynthesis	mutant	5	11	%	26	12	%
CYP72A11	colanic acid building blocks biosynthesis	mutant	6	11	%	27	11	%
CYP72A11	TCA cycle variation VII	organ	6	9	%	34	10	%
CYP72A11	colanic acid building blocks biosynthesis	organ	6	11	%	23	10	%
CYP72A11	tRNA charging pathway	organ	5	11	%	12	9	%
CYP72A11	glycolysis I	mutant	9	7	%	38	7	%
CYP72A13	carotenoid biosynthesis	organ	5	50	%	44	48	%
CYP72A15	carotenoid biosynthesis	organ	5	50	%	44	48	%
CYP72A15	threonine degradation	mutant	5	24	%	21	30	%
CYP72A15	photorespiration	mutant	6	18	%	38	30	%
CYP72A15	aerobic respiration -- electron donors reaction list	mutant	5	23	%	18	20	%
CYP72A8	tryptophan biosynthesis	hormone	8	31	%	58	41	%
CYP72A8	photorespiration	organ	6	18	%	32	25	%
CYP72A8	sulfate assimilation III	hormone	6	18	%	44	19	%
CYP72A8	cysteine biosynthesis I	hormone	5	13	%	35	19	%
CYP73A5	suberin biosynthesis	stress	6	33	%	60	46	%
CYP73A5	suberin biosynthesis	hormone	6	33	%	60	46	%
CYP73A5	lignin biosynthesis	stress	11	25	%	110	44	%
CYP73A5	flavonoid biosynthesis	hormone	6	22	%	52	42	%
CYP73A5	suberin biosynthesis	organ	5	28	%	50	38	%
CYP73A5	lignin biosynthesis	hormone	9	20	%	82	33	%
CYP73A5	lignin biosynthesis	organ	7	16	%	70	28	%
CYP73A5	aerobic respiration -- electron donors reaction list	hormone	5	23	%	18	20	%
CYP74A	lipoxygenase pathway	hormone	7	58	%	49	61	%
CYP74A	tryptophan biosynthesis	hormone	11	42	%	72	51	%
CYP74A	tryptophan biosynthesis	mutant	10	38	%	70	50	%
CYP74A	lipoxygenase pathway	stress	5	42	%	39	49	%
CYP74A	jasmonic acid biosynthesis	hormone	7	39	%	49	40	%
CYP74A	jasmonic acid biosynthesis	stress	5	28	%	39	32	%
CYP74A	sulfate assimilation III	organ	8	24	%	69	30	%
CYP74A	cysteine biosynthesis I	organ	8	21	%	44	24	%
CYP74A	photorespiration	organ	6	18	%	25	20	%
CYP74A	cysteine biosynthesis II	organ	5	22	%	14	18	%
CYP74A	lactose degradation IV	organ	6	8	%	27	10	%
CYP74B2	photorespiration	organ	6	18	%	22	17	%
CYP76C2	acetyl-CoA assimilation	stress	5	16	%	32	18	%
CYP76C2	TCA cycle -- aerobic respiration	stress	6	13	%	36	16	%
CYP76C2	TCA cycle variation VIII	stress	5	10	%	32	13	%
CYP76C2	lignin biosynthesis	stress	5	11	%	26	10	%
CYP76C2	TCA cycle variation VII	stress	5	7	%	32	9	%
CYP76G1	trans-zeatin biosynthesis	mutant	7	88	%	36	86	%
CYP76G1	gibberellin biosynthesis	mutant	5	42	%	23	27	%
CYP76G1	sucrose degradation III	mutant	5	31	%	22	27	%
CYP76G1	triacylglycerol degradation	mutant	13	25	%	28	23	%
CYP76G1	lipases pathway	mutant	5	19	%	27	20	%
CYP76G1	de novo biosynthesis of purine nucleotides II	mutant	5	14	%	22	18	%
CYP76G1	non-phosphorylated glucose degradation	mutant	5	16	%	18	18	%
CYP76G1	dTDP-rhamnose biosynthesis	mutant	5	12	%	26	15	%
CYP76G1	trehalose biosynthesis III	mutant	5	16	%	18	13	%
CYP76G1	mixed acid fermentation	mutant	5	14	%	20	12	%
CYP76G1	TCA cycle variation IV	mutant	6	13	%	24	11	%
CYP76G1	lactose degradation IV	mutant	8	11	%	31	11	%
CYP76G1	TCA cycle -- aerobic respiration	mutant	6	13	%	24	11	%
CYP76G1	TCA cycle variation VIII	mutant	6	12	%	24	10	%
CYP76G1	tRNA charging pathway	mutant	5	11	%	13	10	%
CYP76G1	biosynthesis of proto- and siroheme	mutant	6	15	%	20	10	%
CYP76G1	chlorophyll biosynthesis	mutant	8	15	%	24	9	%
CYP76G1	glycerol degradation II	mutant	5	11	%	18	9	%
CYP76G1	trehalose biosynthesis II	mutant	5	9	%	18	8	%
CYP76G1	de novo biosynthesis of purine nucleotides I	mutant	5	6	%	22	7	%
CYP76G1	TCA cycle variation VII	mutant	6	9	%	24	7	%
CYP76G1	trehalose biosynthesis I	mutant	5	7	%	18	6	%
CYP77A9	trans-zeatin biosynthesis	mutant	7	88	%	36	86	%
CYP77A9	phenylalanine biosynthesis II	mutant	5	23	%	34	36	%
CYP77A9	lipases pathway	mutant	7	27	%	47	34	%
CYP77A9	alanine biosynthesis II	mutant	5	20	%	34	30	%
CYP77A9	gibberellin biosynthesis	mutant	5	42	%	23	27	%
CYP77A9	sucrose degradation III	mutant	5	31	%	22	27	%
CYP77A9	de novo biosynthesis of pyrimidine ribonucleotides	mutant	5	23	%	24	26	%
CYP77A9	triacylglycerol degradation	mutant	15	28	%	32	26	%
CYP77A9	biosynthesis of pyrimidine ribonucleotides	mutant	5	22	%	24	26	%
CYP77A9	trehalose biosynthesis III	mutant	8	25	%	30	21	%
CYP77A9	de novo biosynthesis of purine nucleotides II	mutant	5	14	%	22	18	%
CYP77A9	mixed acid fermentation	mutant	6	17	%	30	18	%
CYP77A9	non-phosphorylated glucose degradation	mutant	5	16	%	18	18	%
CYP77A9	dTDP-rhamnose biosynthesis	mutant	6	14	%	30	17	%
CYP77A9	cellulose biosynthesis	mutant	6	14	%	34	16	%
CYP77A9	TCA cycle variation IV	mutant	8	18	%	34	16	%
CYP77A9	sorbitol fermentation	mutant	11	17	%	44	16	%
CYP77A9	galactose degradation I	mutant	6	13	%	29	15	%
CYP77A9	TCA cycle -- aerobic respiration	mutant	8	17	%	34	15	%
CYP77A9	lactose degradation IV	mutant	10	14	%	43	15	%
CYP77A9	TCA cycle variation VIII	mutant	8	16	%	34	14	%
CYP77A9	fructose degradation (anaerobic)	mutant	10	16	%	34	13	%
CYP77A9	trehalose biosynthesis II	mutant	8	15	%	30	13	%
CYP77A9	acetate fermentation	mutant	10	15	%	36	13	%
CYP77A9	glycolysis IV	mutant	10	16	%	34	13	%
CYP77A9	colanic acid building blocks biosynthesis	mutant	6	11	%	29	12	%
CYP77A9	tRNA charging pathway	mutant	6	13	%	15	11	%
CYP77A9	glycerol degradation II	mutant	6	13	%	20	10	%
CYP77A9	chlorophyll biosynthesis	mutant	9	17	%	26	10	%
CYP77A9	TCA cycle variation VII	mutant	8	11	%	34	10	%
CYP77A9	biosynthesis of proto- and siroheme	mutant	6	15	%	20	10	%
CYP77A9	Calvin cycle	mutant	5	13	%	17	10	%
CYP77A9	trehalose biosynthesis I	mutant	8	11	%	30	9	%
CYP77A9	de novo biosynthesis of purine nucleotides I	mutant	6	7	%	28	9	%
CYP77A9	glycolysis I	mutant	10	8	%	34	6	%
CYP78A10	trans-zeatin biosynthesis	mutant	7	88	%	36	86	%
CYP78A10	phenylalanine biosynthesis II	mutant	5	23	%	34	36	%
CYP78A10	lipases pathway	mutant	7	27	%	47	34	%
CYP78A10	alanine biosynthesis II	mutant	5	20	%	34	30	%
CYP78A10	gibberellin biosynthesis	mutant	5	42	%	23	27	%
CYP78A10	sucrose degradation III	mutant	5	31	%	22	27	%
CYP78A10	de novo biosynthesis of pyrimidine ribonucleotides	mutant	5	23	%	24	26	%
CYP78A10	triacylglycerol degradation	mutant	15	28	%	32	26	%
CYP78A10	biosynthesis of pyrimidine ribonucleotides	mutant	5	22	%	24	26	%
CYP78A10	triacylglycerol degradation	hormone	8	15	%	30	24	%
CYP78A10	trehalose biosynthesis III	mutant	8	25	%	30	21	%
CYP78A10	de novo biosynthesis of purine nucleotides II	mutant	5	14	%	22	18	%
CYP78A10	mixed acid fermentation	mutant	6	17	%	30	18	%
CYP78A10	non-phosphorylated glucose degradation	mutant	5	16	%	18	18	%
CYP78A10	dTDP-rhamnose biosynthesis	mutant	6	14	%	30	17	%
CYP78A10	cellulose biosynthesis	mutant	6	14	%	34	16	%
CYP78A10	TCA cycle variation IV	mutant	8	18	%	34	16	%
CYP78A10	sorbitol fermentation	mutant	11	17	%	44	16	%
CYP78A10	galactose degradation I	mutant	6	13	%	29	15	%
CYP78A10	TCA cycle -- aerobic respiration	mutant	8	17	%	34	15	%
CYP78A10	lactose degradation IV	mutant	10	14	%	43	15	%
CYP78A10	TCA cycle variation VIII	mutant	8	16	%	34	14	%
CYP78A10	trehalose biosynthesis II	mutant	8	15	%	30	13	%
CYP78A10	colanic acid building blocks biosynthesis	mutant	6	11	%	29	12	%
CYP78A10	tRNA charging pathway	mutant	6	13	%	15	11	%
CYP78A10	glycerol degradation II	mutant	6	13	%	20	10	%
CYP78A10	chlorophyll biosynthesis	mutant	9	17	%	26	10	%
CYP78A10	TCA cycle variation VII	mutant	8	11	%	34	10	%
CYP78A10	biosynthesis of proto- and siroheme	mutant	6	15	%	20	10	%
CYP78A10	Calvin cycle	mutant	5	13	%	17	10	%
CYP78A10	trehalose biosynthesis I	mutant	8	11	%	30	9	%
CYP78A10	de novo biosynthesis of purine nucleotides I	mutant	6	7	%	28	9	%
CYP79A2	trans-zeatin biosynthesis	mutant	7	88	%	36	86	%
CYP79A2	phenylalanine biosynthesis II	mutant	5	23	%	34	36	%
CYP79A2	lipases pathway	mutant	7	27	%	47	34	%
CYP79A2	alanine biosynthesis II	mutant	5	20	%	34	30	%
CYP79A2	gibberellin biosynthesis	mutant	5	42	%	23	27	%
CYP79A2	sucrose degradation III	mutant	5	31	%	22	27	%
CYP79A2	de novo biosynthesis of pyrimidine ribonucleotides	mutant	5	23	%	24	26	%
CYP79A2	triacylglycerol degradation	mutant	15	28	%	32	26	%
CYP79A2	biosynthesis of pyrimidine ribonucleotides	mutant	5	22	%	24	26	%
CYP79A2	trehalose biosynthesis III	mutant	8	25	%	30	21	%
CYP79A2	de novo biosynthesis of purine nucleotides II	mutant	5	14	%	22	18	%
CYP79A2	mixed acid fermentation	mutant	6	17	%	30	18	%
CYP79A2	non-phosphorylated glucose degradation	mutant	5	16	%	18	18	%
CYP79A2	dTDP-rhamnose biosynthesis	mutant	6	14	%	30	17	%
CYP79A2	cellulose biosynthesis	mutant	6	14	%	34	16	%
CYP79A2	TCA cycle variation IV	mutant	8	18	%	34	16	%
CYP79A2	sorbitol fermentation	mutant	11	17	%	44	16	%
CYP79A2	galactose degradation I	mutant	6	13	%	29	15	%
CYP79A2	TCA cycle -- aerobic respiration	mutant	8	17	%	34	15	%
CYP79A2	lactose degradation IV	mutant	10	14	%	43	15	%
CYP79A2	TCA cycle variation VIII	mutant	8	16	%	34	14	%
CYP79A2	fructose degradation (anaerobic)	mutant	10	16	%	34	13	%
CYP79A2	trehalose biosynthesis II	mutant	8	15	%	30	13	%
CYP79A2	acetate fermentation	mutant	10	15	%	36	13	%
CYP79A2	glycolysis IV	mutant	10	16	%	34	13	%
CYP79A2	colanic acid building blocks biosynthesis	mutant	6	11	%	29	12	%
CYP79A2	tRNA charging pathway	mutant	6	13	%	15	11	%
CYP79A2	glycerol degradation II	mutant	6	13	%	20	10	%
CYP79A2	chlorophyll biosynthesis	mutant	9	17	%	26	10	%
CYP79A2	TCA cycle variation VII	mutant	8	11	%	34	10	%
CYP79A2	biosynthesis of proto- and siroheme	mutant	6	15	%	20	10	%
CYP79A2	Calvin cycle	mutant	5	13	%	17	10	%
CYP79A2	trehalose biosynthesis I	mutant	8	11	%	30	9	%
CYP79A2	de novo biosynthesis of purine nucleotides I	mutant	6	7	%	28	9	%
CYP79A2	glycolysis I	mutant	10	8	%	34	6	%
CYP79A4P	threonine degradation	mutant	10	48	%	37	54	%
CYP79A4P	carotenoid biosynthesis	mutant	5	50	%	46	50	%
CYP79A4P	methylglyoxal degradation	mutant	5	36	%	25	47	%
CYP79A4P	isoleucine degradation III	mutant	5	42	%	31	46	%
CYP79A4P	aerobic respiration -- electron donors reaction list	mutant	10	45	%	34	39	%
CYP79A4P	valine degradation II	mutant	5	29	%	23	35	%
CYP79A4P	cysteine biosynthesis I	mutant	10	26	%	60	33	%
CYP79A4P	Calvin cycle	mutant	10	26	%	56	32	%
CYP79A4P	chlorophyll biosynthesis	mutant	10	19	%	80	30	%
CYP79A4P	photorespiration	mutant	6	18	%	38	30	%
CYP79A4P	sulfate assimilation III	mutant	9	27	%	62	27	%
CYP79A4P	glyoxylate cycle	mutant	6	26	%	38	27	%
CYP79A4P	leucine degradation II	mutant	5	24	%	31	26	%
CYP79A4P	ascorbate glutathione cycle	mutant	5	31	%	25	26	%
CYP79A4P	TCA cycle -- aerobic respiration	mutant	10	21	%	56	25	%
CYP79A4P	tryptophan biosynthesis	mutant	6	23	%	34	24	%
CYP79A4P	acetyl-CoA assimilation	mutant	7	22	%	42	24	%
CYP79A4P	leucine biosynthesis	mutant	8	22	%	42	24	%
CYP79A4P	mixed acid fermentation	mutant	8	23	%	38	23	%
CYP79A4P	TCA cycle variation VIII	mutant	10	20	%	56	23	%
CYP79A4P	isoleucine degradation I	mutant	5	21	%	31	23	%
CYP79A4P	gluconeogenesis	mutant	9	20	%	50	22	%
CYP79A4P	carbon monoxide dehydrogenase pathway	mutant	7	25	%	17	22	%
CYP79A4P	glycine biosynthesis I	mutant	5	12	%	31	21	%
CYP79A4P	biosynthesis of proto- and siroheme	mutant	7	17	%	42	20	%
CYP79A4P	trehalose biosynthesis III	mutant	5	16	%	29	20	%
CYP79A4P	non-phosphorylated glucose degradation	mutant	6	19	%	20	20	%
CYP79A4P	acetate fermentation	mutant	15	22	%	54	19	%
CYP79A4P	serine-isocitrate lyase pathway	mutant	7	16	%	44	19	%
CYP79A4P	glycolysis IV	mutant	12	19	%	50	19	%
CYP79A4P	phenylalanine degradation I	mutant	5	19	%	24	18	%
CYP79A4P	fatty acid biosynthesis -- initial steps	mutant	5	16	%	28	18	%
CYP79A4P	valine degradation I	mutant	5	15	%	23	17	%
CYP79A4P	glycerol degradation II	mutant	9	20	%	34	17	%
CYP79A4P	de novo biosynthesis of purine nucleotides II	mutant	5	14	%	20	17	%
CYP79A4P	tRNA charging pathway	mutant	9	19	%	22	17	%
CYP79A4P	fructose degradation (anaerobic)	mutant	11	17	%	44	17	%
CYP79A4P	TCA cycle variation IV	mutant	7	16	%	36	17	%
CYP79A4P	TCA cycle variation VII	mutant	10	14	%	56	16	%
CYP79A4P	oxidative branch of the pentose phosphate pathway	mutant	6	19	%	20	16	%
CYP79A4P	sorbitol fermentation	mutant	11	17	%	44	16	%
CYP79A4P	leucine degradation I	mutant	5	12	%	31	13	%
CYP79A4P	trehalose biosynthesis II	mutant	5	9	%	29	12	%
CYP79A4P	de novo biosynthesis of purine nucleotides I	mutant	10	11	%	38	12	%
CYP79A4P	colanic acid building blocks biosynthesis	mutant	7	13	%	27	11	%
CYP79A4P	galactose degradation I	mutant	6	13	%	21	11	%
CYP79A4P	lactose degradation IV	mutant	8	11	%	31	11	%
CYP79A4P	dTDP-rhamnose biosynthesis	mutant	6	14	%	18	10	%
CYP79A4P	glycolysis I	mutant	12	9	%	50	9	%
CYP79A4P	trehalose biosynthesis I	mutant	5	7	%	29	9	%
CYP79B2	tryptophan biosynthesis	stress	11	42	%	80	57	%
CYP79B2	tryptophan biosynthesis	hormone	10	38	%	70	50	%
CYP79B2	tryptophan biosynthesis	mutant	9	35	%	66	47	%
CYP79B2	sulfate assimilation III	stress	6	18	%	48	21	%
CYP79B2	cysteine biosynthesis I	stress	5	13	%	36	20	%
CYP79B2	sulfate assimilation III	organ	5	15	%	36	16	%
CYP79B3	sulfate assimilation III	stress	5	15	%	46	20	%
CYP79C5P	trans-zeatin biosynthesis	mutant	7	88	%	36	86	%
CYP79C5P	gibberellin biosynthesis	mutant	5	42	%	23	27	%
CYP79C5P	sucrose degradation III	mutant	5	31	%	22	27	%
CYP79C5P	triacylglycerol degradation	mutant	13	25	%	28	23	%
CYP79C5P	lipases pathway	mutant	5	19	%	27	20	%
CYP79C5P	de novo biosynthesis of purine nucleotides II	mutant	5	14	%	22	18	%
CYP79C5P	non-phosphorylated glucose degradation	mutant	5	16	%	18	18	%
CYP79C5P	cellulose biosynthesis	mutant	6	14	%	34	16	%
CYP79C5P	TCA cycle variation IV	mutant	8	18	%	34	16	%
CYP79C5P	trehalose biosynthesis III	mutant	6	19	%	22	15	%
CYP79C5P	galactose degradation I	mutant	6	13	%	29	15	%
CYP79C5P	TCA cycle -- aerobic respiration	mutant	8	17	%	34	15	%
CYP79C5P	lactose degradation IV	mutant	10	14	%	43	15	%
CYP79C5P	dTDP-rhamnose biosynthesis	mutant	5	12	%	26	15	%
CYP79C5P	TCA cycle variation VIII	mutant	8	16	%	34	14	%
CYP79C5P	colanic acid building blocks biosynthesis	mutant	6	11	%	29	12	%
CYP79C5P	mixed acid fermentation	mutant	5	14	%	20	12	%
CYP79C5P	tRNA charging pathway	mutant	6	13	%	15	11	%
CYP79C5P	TCA cycle variation VII	mutant	8	11	%	34	10	%
CYP79C5P	biosynthesis of proto- and siroheme	mutant	6	15	%	20	10	%
CYP79C5P	trehalose biosynthesis II	mutant	6	11	%	22	9	%
CYP79C5P	chlorophyll biosynthesis	mutant	8	15	%	24	9	%
CYP79C5P	glycerol degradation II	mutant	5	11	%	18	9	%
CYP79C5P	de novo biosynthesis of purine nucleotides I	mutant	5	6	%	22	7	%
CYP79C5P	trehalose biosynthesis I	mutant	6	8	%	22	7	%
CYP79F1	leucine biosynthesis	mutant	7	19	%	42	24	%
CYP79F1	leucine biosynthesis	stress	7	19	%	42	24	%
CYP79F1	leucine biosynthesis	organ	6	16	%	40	23	%
CYP79F1	sulfate assimilation III	organ	5	15	%	46	20	%
CYP79F1	leucine biosynthesis	hormone	5	14	%	30	17	%
CYP79F1	TCA cycle -- aerobic respiration	stress	5	11	%	26	12	%
CYP79F1	TCA cycle variation VIII	stress	5	10	%	26	11	%
CYP79F1	TCA cycle variation VII	stress	5	7	%	26	7	%
CYP79F2	leucine biosynthesis	mutant	7	19	%	42	24	%
CYP79F2	leucine biosynthesis	stress	7	19	%	42	24	%
CYP79F2	leucine biosynthesis	organ	6	16	%	40	23	%
CYP79F2	sulfate assimilation III	organ	5	15	%	46	20	%
CYP79F2	leucine biosynthesis	hormone	5	14	%	30	17	%
CYP79F2	TCA cycle -- aerobic respiration	stress	5	11	%	26	12	%
CYP79F2	TCA cycle variation VIII	stress	5	10	%	26	11	%
CYP79F2	TCA cycle variation VII	stress	5	7	%	26	7	%
CYP81D1	tryptophan biosynthesis	hormone	9	35	%	68	49	%
CYP81D2	trans-zeatin biosynthesis	mutant	6	75	%	30	71	%
CYP81D2	lipases pathway	mutant	6	23	%	39	28	%
CYP81D2	gibberellin biosynthesis	mutant	5	42	%	23	27	%
CYP81D2	triacylglycerol degradation	mutant	12	23	%	24	19	%
CYP81D2	biosynthesis of pyrimidine ribonucleotides	mutant	5	22	%	16	17	%
CYP81D2	de novo biosynthesis of purine nucleotides II	mutant	5	14	%	20	17	%
CYP81D2	trehalose biosynthesis III	mutant	5	16	%	20	14	%
CYP81D2	biosynthesis of proto- and siroheme	mutant	6	15	%	28	14	%
CYP81D2	mixed acid fermentation	mutant	5	14	%	22	13	%
CYP81D2	chlorophyll biosynthesis	mutant	8	15	%	32	12	%
CYP81D2	TCA cycle variation IV	mutant	6	13	%	26	12	%
CYP81D2	TCA cycle -- aerobic respiration	mutant	6	13	%	26	12	%
CYP81D2	TCA cycle variation VIII	mutant	6	12	%	26	11	%
CYP81D2	trehalose biosynthesis II	mutant	5	9	%	20	9	%
CYP81D2	de novo biosynthesis of purine nucleotides I	mutant	6	7	%	26	8	%
CYP81D2	glycerol degradation II	mutant	5	11	%	16	8	%
CYP81D2	TCA cycle variation VII	mutant	6	9	%	26	7	%
CYP81D2	lignin biosynthesis	mutant	5	11	%	18	7	%
CYP81D2	trehalose biosynthesis I	mutant	5	7	%	20	6	%
CYP81D40	glycine degradation I	mutant	5	56	%	22	61	%
CYP81D40	photorespiration	mutant	12	35	%	62	48	%
CYP81D40	superpathway of serine and glycine biosynthesis II	mutant	8	36	%	36	46	%
CYP81D40	formylTHF biosynthesis	mutant	5	28	%	30	35	%
CYP81D40	chlorophyll biosynthesis	mutant	11	21	%	90	34	%
CYP81D40	Calvin cycle	mutant	11	29	%	60	34	%
CYP81D40	glyceraldehyde 3-phosphate degradation	mutant	5	22	%	32	30	%
CYP81D40	glycine biosynthesis I	mutant	8	19	%	36	25	%
CYP81D40	superpathway of serine and glycine biosynthesis II	organ	5	23	%	19	24	%
CYP81D40	fatty acid biosynthesis -- initial steps	mutant	5	16	%	34	21	%
CYP81D40	gluconeogenesis	mutant	7	16	%	48	21	%
CYP81D40	threonine degradation	mutant	5	24	%	14	20	%
CYP81D40	glycerol degradation II	mutant	7	16	%	40	20	%
CYP81D40	serine biosynthesis	mutant	6	23	%	18	19	%
CYP81D40	fructose degradation (anaerobic)	mutant	9	14	%	50	19	%
CYP81D40	glycolysis IV	mutant	9	14	%	50	19	%
CYP81D40	acetate fermentation	mutant	10	15	%	52	19	%
CYP81D40	sorbitol fermentation	mutant	9	14	%	50	18	%
CYP81D40	cysteine biosynthesis II	organ	5	22	%	14	18	%
CYP81D40	cysteine biosynthesis II	mutant	5	22	%	12	15	%
CYP81D40	cellulose biosynthesis	mutant	6	14	%	32	15	%
CYP81D40	UDP-glucose conversion	mutant	6	15	%	23	15	%
CYP81D40	photorespiration	organ	5	15	%	19	15	%
CYP81D40	biosynthesis of proto- and siroheme	mutant	5	12	%	30	15	%
CYP81D40	glucose conversion	mutant	6	15	%	23	15	%
CYP81D40	glycine biosynthesis I	organ	5	12	%	19	13	%
CYP81D40	galactose degradation I	mutant	6	13	%	23	12	%
CYP81D40	dTDP-rhamnose biosynthesis	mutant	5	12	%	21	12	%
CYP81D40	UDP-glucose conversion	organ	5	13	%	17	11	%
CYP81D40	lactose degradation IV	mutant	8	11	%	31	11	%
CYP81D40	glucose conversion	organ	5	13	%	17	11	%
CYP81D40	cysteine biosynthesis I	mutant	6	15	%	18	10	%
CYP81D40	colanic acid building blocks biosynthesis	mutant	6	11	%	23	10	%
CYP81D40	glycolysis I	mutant	9	7	%	50	9	%
CYP81D40	galactose degradation I	organ	5	10	%	17	9	%
CYP81D40	cysteine biosynthesis I	organ	5	13	%	14	8	%
CYP81D40	colanic acid building blocks biosynthesis	organ	5	9	%	17	7	%
CYP81D40	lactose degradation IV	organ	5	7	%	17	6	%
CYP81D6	threonine degradation	mutant	10	48	%	37	54	%
CYP81D6	carotenoid biosynthesis	mutant	5	50	%	46	50	%
CYP81D6	methylglyoxal degradation	mutant	5	36	%	25	47	%
CYP81D6	isoleucine degradation III	mutant	5	42	%	31	46	%
CYP81D6	aerobic respiration -- electron donors reaction list	mutant	10	45	%	34	39	%
CYP81D6	valine degradation II	mutant	5	29	%	23	35	%
CYP81D6	cysteine biosynthesis I	mutant	10	26	%	60	33	%
CYP81D6	Calvin cycle	mutant	10	26	%	56	32	%
CYP81D6	chlorophyll biosynthesis	mutant	10	19	%	80	30	%
CYP81D6	photorespiration	mutant	6	18	%	38	30	%
CYP81D6	sulfate assimilation III	mutant	9	27	%	62	27	%
CYP81D6	glyoxylate cycle	mutant	6	26	%	38	27	%
CYP81D6	leucine degradation II	mutant	5	24	%	31	26	%
CYP81D6	ascorbate glutathione cycle	mutant	5	31	%	25	26	%
CYP81D6	TCA cycle -- aerobic respiration	mutant	10	21	%	56	25	%
CYP81D6	tryptophan biosynthesis	mutant	6	23	%	34	24	%
CYP81D6	acetyl-CoA assimilation	mutant	7	22	%	42	24	%
CYP81D6	leucine biosynthesis	mutant	8	22	%	42	24	%
CYP81D6	mixed acid fermentation	mutant	8	23	%	38	23	%
CYP81D6	TCA cycle variation VIII	mutant	10	20	%	56	23	%
CYP81D6	isoleucine degradation I	mutant	5	21	%	31	23	%
CYP81D6	gluconeogenesis	mutant	9	20	%	50	22	%
CYP81D6	carbon monoxide dehydrogenase pathway	mutant	7	25	%	17	22	%
CYP81D6	glycine biosynthesis I	mutant	5	12	%	31	21	%
CYP81D6	biosynthesis of proto- and siroheme	mutant	7	17	%	42	20	%
CYP81D6	trehalose biosynthesis III	mutant	5	16	%	29	20	%
CYP81D6	non-phosphorylated glucose degradation	mutant	6	19	%	20	20	%
CYP81D6	acetate fermentation	mutant	15	22	%	54	19	%
CYP81D6	serine-isocitrate lyase pathway	mutant	7	16	%	44	19	%
CYP81D6	glycolysis IV	mutant	12	19	%	50	19	%
CYP81D6	phenylalanine degradation I	mutant	5	19	%	24	18	%
CYP81D6	fatty acid biosynthesis -- initial steps	mutant	5	16	%	28	18	%
CYP81D6	valine degradation I	mutant	5	15	%	23	17	%
CYP81D6	glycerol degradation II	mutant	9	20	%	34	17	%
CYP81D6	de novo biosynthesis of purine nucleotides II	mutant	5	14	%	20	17	%
CYP81D6	tRNA charging pathway	mutant	9	19	%	22	17	%
CYP81D6	fructose degradation (anaerobic)	mutant	11	17	%	44	17	%
CYP81D6	TCA cycle variation IV	mutant	7	16	%	36	17	%
CYP81D6	TCA cycle variation VII	mutant	10	14	%	56	16	%
CYP81D6	oxidative branch of the pentose phosphate pathway	mutant	6	19	%	20	16	%
CYP81D6	sorbitol fermentation	mutant	11	17	%	44	16	%
CYP81D6	leucine degradation I	mutant	5	12	%	31	13	%
CYP81D6	trehalose biosynthesis II	mutant	5	9	%	29	12	%
CYP81D6	de novo biosynthesis of purine nucleotides I	mutant	10	11	%	38	12	%
CYP81D6	colanic acid building blocks biosynthesis	mutant	7	13	%	27	11	%
CYP81D6	galactose degradation I	mutant	6	13	%	21	11	%
CYP81D6	lactose degradation IV	mutant	8	11	%	31	11	%
CYP81D6	dTDP-rhamnose biosynthesis	mutant	6	14	%	18	10	%
CYP81D6	glycolysis I	mutant	12	9	%	50	9	%
CYP81D6	trehalose biosynthesis I	mutant	5	7	%	29	9	%
CYP81D7	threonine degradation	mutant	10	48	%	37	54	%
CYP81D7	carotenoid biosynthesis	mutant	5	50	%	46	50	%
CYP81D7	methylglyoxal degradation	mutant	5	36	%	25	47	%
CYP81D7	isoleucine degradation III	mutant	5	42	%	31	46	%
CYP81D7	aerobic respiration -- electron donors reaction list	mutant	10	45	%	34	39	%
CYP81D7	valine degradation II	mutant	5	29	%	23	35	%
CYP81D7	cysteine biosynthesis I	mutant	10	26	%	60	33	%
CYP81D7	Calvin cycle	mutant	10	26	%	56	32	%
CYP81D7	chlorophyll biosynthesis	mutant	10	19	%	80	30	%
CYP81D7	photorespiration	mutant	6	18	%	38	30	%
CYP81D7	sulfate assimilation III	mutant	9	27	%	62	27	%
CYP81D7	glyoxylate cycle	mutant	6	26	%	38	27	%
CYP81D7	leucine degradation II	mutant	5	24	%	31	26	%
CYP81D7	ascorbate glutathione cycle	mutant	5	31	%	25	26	%
CYP81D7	TCA cycle -- aerobic respiration	mutant	10	21	%	56	25	%
CYP81D7	tryptophan biosynthesis	mutant	6	23	%	34	24	%
CYP81D7	acetyl-CoA assimilation	mutant	7	22	%	42	24	%
CYP81D7	leucine biosynthesis	mutant	8	22	%	42	24	%
CYP81D7	mixed acid fermentation	mutant	8	23	%	38	23	%
CYP81D7	TCA cycle variation VIII	mutant	10	20	%	56	23	%
CYP81D7	isoleucine degradation I	mutant	5	21	%	31	23	%
CYP81D7	gluconeogenesis	mutant	9	20	%	50	22	%
CYP81D7	carbon monoxide dehydrogenase pathway	mutant	7	25	%	17	22	%
CYP81D7	glycine biosynthesis I	mutant	5	12	%	31	21	%
CYP81D7	biosynthesis of proto- and siroheme	mutant	7	17	%	42	20	%
CYP81D7	trehalose biosynthesis III	mutant	5	16	%	29	20	%
CYP81D7	non-phosphorylated glucose degradation	mutant	6	19	%	20	20	%
CYP81D7	acetate fermentation	mutant	15	22	%	54	19	%
CYP81D7	serine-isocitrate lyase pathway	mutant	7	16	%	44	19	%
CYP81D7	glycolysis IV	mutant	12	19	%	50	19	%
CYP81D7	phenylalanine degradation I	mutant	5	19	%	24	18	%
CYP81D7	fatty acid biosynthesis -- initial steps	mutant	5	16	%	28	18	%
CYP81D7	valine degradation I	mutant	5	15	%	23	17	%
CYP81D7	glycerol degradation II	mutant	9	20	%	34	17	%
CYP81D7	de novo biosynthesis of purine nucleotides II	mutant	5	14	%	20	17	%
CYP81D7	tRNA charging pathway	mutant	9	19	%	22	17	%
CYP81D7	fructose degradation (anaerobic)	mutant	11	17	%	44	17	%
CYP81D7	TCA cycle variation IV	mutant	7	16	%	36	17	%
CYP81D7	TCA cycle variation VII	mutant	10	14	%	56	16	%
CYP81D7	oxidative branch of the pentose phosphate pathway	mutant	6	19	%	20	16	%
CYP81D7	sorbitol fermentation	mutant	11	17	%	44	16	%
CYP81D7	leucine degradation I	mutant	5	12	%	31	13	%
CYP81D7	trehalose biosynthesis II	mutant	5	9	%	29	12	%
CYP81D7	de novo biosynthesis of purine nucleotides I	mutant	10	11	%	38	12	%
CYP81D7	colanic acid building blocks biosynthesis	mutant	7	13	%	27	11	%
CYP81D7	galactose degradation I	mutant	6	13	%	21	11	%
CYP81D7	lactose degradation IV	mutant	8	11	%	31	11	%
CYP81D7	dTDP-rhamnose biosynthesis	mutant	6	14	%	18	10	%
CYP81D7	glycolysis I	mutant	12	9	%	50	9	%
CYP81D7	trehalose biosynthesis I	mutant	5	7	%	29	9	%
CYP81D8	tryptophan biosynthesis	stress	8	31	%	58	41	%
CYP81D8	tryptophan biosynthesis	mutant	6	23	%	44	31	%
CYP81D8	tryptophan biosynthesis	hormone	6	23	%	38	27	%
CYP81D8	triacylglycerol degradation	mutant	6	11	%	26	21	%
CYP81D8	triacylglycerol degradation	hormone	6	11	%	25	20	%
CYP81D8	lignin biosynthesis	hormone	5	11	%	30	12	%
CYP81F2	tryptophan biosynthesis	stress	9	35	%	68	49	%
CYP81F2	tryptophan biosynthesis	hormone	8	31	%	50	36	%
CYP81F2	tryptophan biosynthesis	mutant	6	23	%	44	31	%
CYP81F3	tryptophan biosynthesis	mutant	7	27	%	46	33	%
CYP81F3	lignin biosynthesis	mutant	5	11	%	30	12	%
CYP81F4	glyceraldehyde 3-phosphate degradation	mutant	6	26	%	42	39	%
CYP81F4	glycerol degradation II	mutant	7	16	%	48	24	%
CYP81F4	gluconeogenesis	mutant	8	18	%	54	24	%
CYP81F4	Calvin cycle	mutant	6	16	%	42	24	%
CYP81F4	fructose degradation (anaerobic)	mutant	9	14	%	58	22	%
CYP81F4	glycolysis IV	mutant	9	14	%	58	22	%
CYP81F4	acetate fermentation	mutant	9	13	%	58	21	%
CYP81F4	sorbitol fermentation	mutant	9	14	%	58	20	%
CYP81F4	TCA cycle variation IV	hormone	5	11	%	28	13	%
CYP81F4	TCA cycle -- aerobic respiration	hormone	5	11	%	28	13	%
CYP81F4	TCA cycle variation VIII	hormone	5	10	%	28	12	%
CYP81F4	glycolysis I	mutant	9	7	%	58	11	%
CYP81F4	TCA cycle variation VII	hormone	5	7	%	28	8	%
CYP82C3	tryptophan biosynthesis	mutant	6	23	%	44	31	%
CYP82C3	triacylglycerol degradation	hormone	8	15	%	30	24	%
CYP82C3	triacylglycerol degradation	mutant	5	9	%	18	15	%
CYP82C3	lignin biosynthesis	mutant	5	11	%	30	12	%
CYP82C3	lignin biosynthesis	hormone	5	11	%	22	9	%
CYP83A1	superpathway of serine and glycine biosynthesis II	organ	8	36	%	36	46	%
CYP83A1	Calvin cycle	organ	12	32	%	76	43	%
CYP83A1	photorespiration	organ	11	32	%	52	41	%
CYP83A1	chlorophyll biosynthesis	organ	11	21	%	80	30	%
CYP83A1	glyceraldehyde 3-phosphate degradation	organ	5	22	%	32	30	%
CYP83A1	mannitol degradation	organ	5	20	%	28	29	%
CYP83A1	sulfate assimilation III	organ	7	21	%	65	28	%
CYP83A1	sorbitol degradation	organ	5	19	%	28	28	%
CYP83A1	serine biosynthesis	organ	8	31	%	26	28	%
CYP83A1	glycine biosynthesis I	organ	8	19	%	36	25	%
CYP83A1	leucine biosynthesis	hormone	7	19	%	42	24	%
CYP83A1	leucine biosynthesis	stress	7	19	%	42	24	%
CYP83A1	leucine biosynthesis	mutant	7	19	%	42	24	%
CYP83A1	gluconeogenesis	organ	8	18	%	52	23	%
CYP83A1	fructose degradation (anaerobic)	organ	10	16	%	60	23	%
CYP83A1	leucine biosynthesis	organ	6	16	%	40	23	%
CYP83A1	glycolysis IV	organ	10	16	%	60	22	%
CYP83A1	acetate fermentation	organ	11	16	%	62	22	%
CYP83A1	sorbitol fermentation	organ	10	15	%	60	21	%
CYP83A1	cysteine biosynthesis II	organ	6	26	%	16	20	%
CYP83A1	lysine biosynthesis I	organ	5	29	%	16	20	%
CYP83A1	cysteine biosynthesis I	organ	8	21	%	36	20	%
CYP83A1	biosynthesis of proto- and siroheme	organ	6	15	%	38	19	%
CYP83A1	carbon monoxide dehydrogenase pathway	organ	5	18	%	13	17	%
CYP83A1	glycerol degradation II	organ	5	11	%	32	16	%
CYP83A1	UDP-glucose conversion	organ	5	13	%	21	14	%
CYP83A1	TCA cycle -- aerobic respiration	mutant	5	11	%	30	14	%
CYP83A1	glucose conversion	organ	5	13	%	21	13	%
CYP83A1	cellulose biosynthesis	organ	5	11	%	28	13	%
CYP83A1	TCA cycle variation VIII	mutant	5	10	%	30	12	%
CYP83A1	glycolysis I	organ	10	8	%	60	11	%
CYP83A1	galactose degradation I	organ	5	10	%	21	11	%
CYP83A1	colanic acid building blocks biosynthesis	organ	5	9	%	21	9	%
CYP83A1	lactose degradation IV	organ	6	8	%	25	9	%
CYP83A1	TCA cycle variation VII	mutant	5	7	%	30	9	%
CYP83B1	colanic acid building blocks biosynthesis	hormone	7	13	%	40	17	%
CYP83B1	sulfate assimilation III	organ	5	15	%	36	16	%
CYP83B1	galactose degradation I	hormone	5	10	%	24	13	%
CYP83B1	lactose degradation IV	hormone	5	7	%	24	9	%
CYP84A4	tryptophan biosynthesis	mutant	5	19	%	34	24	%
CYP85A1	trans-zeatin biosynthesis	mutant	7	88	%	36	86	%
CYP85A1	phenylalanine biosynthesis II	mutant	5	23	%	34	36	%
CYP85A1	lipases pathway	mutant	7	27	%	47	34	%
CYP85A1	alanine biosynthesis II	mutant	5	20	%	34	30	%
CYP85A1	gibberellin biosynthesis	mutant	5	42	%	23	27	%
CYP85A1	sucrose degradation III	mutant	5	31	%	22	27	%
CYP85A1	de novo biosynthesis of pyrimidine ribonucleotides	mutant	5	23	%	24	26	%
CYP85A1	triacylglycerol degradation	mutant	15	28	%	32	26	%
CYP85A1	biosynthesis of pyrimidine ribonucleotides	mutant	5	22	%	24	26	%
CYP85A1	trehalose biosynthesis III	mutant	8	25	%	30	21	%
CYP85A1	de novo biosynthesis of purine nucleotides II	mutant	5	14	%	22	18	%
CYP85A1	mixed acid fermentation	mutant	6	17	%	30	18	%
CYP85A1	non-phosphorylated glucose degradation	mutant	5	16	%	18	18	%
CYP85A1	dTDP-rhamnose biosynthesis	mutant	6	14	%	30	17	%
CYP85A1	cellulose biosynthesis	mutant	6	14	%	34	16	%
CYP85A1	TCA cycle variation IV	mutant	8	18	%	34	16	%
CYP85A1	sorbitol fermentation	mutant	11	17	%	44	16	%
CYP85A1	galactose degradation I	mutant	6	13	%	29	15	%
CYP85A1	TCA cycle -- aerobic respiration	mutant	8	17	%	34	15	%
CYP85A1	lactose degradation IV	mutant	10	14	%	43	15	%
CYP85A1	TCA cycle variation VIII	mutant	8	16	%	34	14	%
CYP85A1	fructose degradation (anaerobic)	mutant	10	16	%	34	13	%
CYP85A1	trehalose biosynthesis II	mutant	8	15	%	30	13	%
CYP85A1	acetate fermentation	mutant	10	15	%	36	13	%
CYP85A1	glycolysis IV	mutant	10	16	%	34	13	%
CYP85A1	colanic acid building blocks biosynthesis	mutant	6	11	%	29	12	%
CYP85A1	tRNA charging pathway	mutant	6	13	%	15	11	%
CYP85A1	glycerol degradation II	mutant	6	13	%	20	10	%
CYP85A1	chlorophyll biosynthesis	mutant	9	17	%	26	10	%
CYP85A1	TCA cycle variation VII	mutant	8	11	%	34	10	%
CYP85A1	biosynthesis of proto- and siroheme	mutant	6	15	%	20	10	%
CYP85A1	Calvin cycle	mutant	5	13	%	17	10	%
CYP85A1	trehalose biosynthesis I	mutant	8	11	%	30	9	%
CYP85A1	de novo biosynthesis of purine nucleotides I	mutant	6	7	%	28	9	%
CYP85A1	glycolysis I	mutant	10	8	%	34	6	%
CYP86A2	methionine degradation I	mutant	5	50	%	40	65	%
CYP86A2	glycine degradation I	mutant	5	56	%	22	61	%
CYP86A2	carotenoid biosynthesis	organ	5	50	%	44	48	%
CYP86A2	photorespiration	mutant	11	32	%	60	47	%
CYP86A2	ascorbate glutathione cycle	mutant	6	38	%	44	46	%
CYP86A2	superpathway of serine and glycine biosynthesis II	mutant	7	32	%	34	44	%
CYP86A2	chlorophyll biosynthesis	mutant	13	25	%	106	40	%
CYP86A2	superpathway of serine and glycine biosynthesis II	organ	7	32	%	30	38	%
CYP86A2	Calvin cycle	mutant	12	32	%	64	36	%
CYP86A2	formylTHF biosynthesis	mutant	5	28	%	30	35	%
CYP86A2	fatty acid biosynthesis -- initial steps	mutant	8	25	%	54	34	%
CYP86A2	photorespiration	organ	9	26	%	40	31	%
CYP86A2	glyceraldehyde 3-phosphate degradation	mutant	5	22	%	32	30	%
CYP86A2	glycine biosynthesis I	mutant	8	19	%	43	30	%
CYP86A2	fatty acid elongation -- unsaturated	mutant	5	28	%	26	28	%
CYP86A2	atty acid elongation -- unsaturated	mutant	5	26	%	26	27	%
CYP86A2	gluconeogenesis	mutant	9	20	%	58	26	%
CYP86A2	fatty acid elongation -- saturated	mutant	5	25	%	26	25	%
CYP86A2	cysteine biosynthesis II	organ	7	30	%	20	25	%
CYP86A2	cysteine biosynthesis II	mutant	5	22	%	19	24	%
CYP86A2	Calvin cycle	organ	7	18	%	40	23	%
CYP86A2	biosynthesis of proto- and siroheme	mutant	7	17	%	46	22	%
CYP86A2	glycerol degradation II	mutant	8	18	%	44	22	%
CYP86A2	fructose degradation (anaerobic)	mutant	11	17	%	58	22	%
CYP86A2	glycolysis IV	mutant	11	17	%	58	22	%
CYP86A2	acetate fermentation	mutant	12	18	%	60	21	%
CYP86A2	glucose conversion	mutant	8	20	%	33	21	%
CYP86A2	glycine biosynthesis I	organ	7	16	%	30	21	%
CYP86A2	sorbitol fermentation	mutant	11	17	%	58	20	%
CYP86A2	serine biosynthesis	mutant	5	19	%	19	20	%
CYP86A2	lactose degradation IV	mutant	14	20	%	57	20	%
CYP86A2	cysteine biosynthesis I	mutant	7	18	%	35	19	%
CYP86A2	UDP-glucose conversion	mutant	7	18	%	29	19	%
CYP86A2	galactose degradation I	mutant	9	19	%	35	19	%
CYP86A2	gluconeogenesis	organ	5	11	%	40	18	%
CYP86A2	colanic acid building blocks biosynthesis	mutant	10	18	%	41	17	%
CYP86A2	serine biosynthesis	organ	6	23	%	16	17	%
CYP86A2	cellulose biosynthesis	mutant	7	16	%	36	17	%
CYP86A2	TCA cycle variation IV	mutant	7	16	%	36	17	%
CYP86A2	cysteine biosynthesis I	organ	8	21	%	30	16	%
CYP86A2	dTDP-rhamnose biosynthesis	mutant	7	16	%	28	16	%
CYP86A2	fructose degradation (anaerobic)	organ	6	10	%	42	16	%
CYP86A2	glycolysis IV	organ	6	9	%	42	16	%
CYP86A2	acetate fermentation	organ	6	9	%	42	15	%
CYP86A2	UDP-glucose conversion	organ	6	15	%	23	15	%
CYP86A2	sorbitol fermentation	organ	6	9	%	42	15	%
CYP86A2	glucose conversion	organ	6	15	%	23	15	%
CYP86A2	TCA cycle -- aerobic respiration	mutant	6	13	%	32	14	%
CYP86A2	oxidative branch of the pentose phosphate pathway	mutant	5	16	%	18	14	%
CYP86A2	TCA cycle variation VIII	mutant	6	12	%	34	14	%
CYP86A2	lactose degradation IV	organ	9	13	%	39	14	%
CYP86A2	serine-isocitrate lyase pathway	mutant	5	11	%	32	14	%
CYP86A2	galactose degradation I	organ	6	13	%	23	12	%
CYP86A2	dTDP-rhamnose biosynthesis	organ	5	12	%	21	12	%
CYP86A2	glycolysis I	mutant	11	9	%	58	11	%
CYP86A2	TCA cycle variation VII	mutant	7	10	%	36	10	%
CYP86A2	colanic acid building blocks biosynthesis	organ	6	11	%	23	10	%
CYP86A2	glycolysis I	organ	6	5	%	42	8	%
CYP86A2	de novo biosynthesis of purine nucleotides I	mutant	5	6	%	14	4	%
CYP86C3	triacylglycerol degradation	mutant	5	9	%	12	10	%
CYP86C3	lignin biosynthesis	mutant	5	11	%	11	4	%
CYP86C4	triacylglycerol degradation	organ	6	11	%	14	11	%
CYP86C4	triacylglycerol degradation	mutant	5	9	%	12	10	%
CYP88A3	threonine degradation	mutant	5	24	%	16	23	%
CYP88A3	leucine biosynthesis	mutant	7	19	%	40	23	%
CYP88A3	glyoxylate cycle	mutant	5	22	%	28	20	%
CYP88A3	TCA cycle variation VIII	mutant	9	18	%	46	19	%
CYP88A3	TCA cycle -- aerobic respiration	mutant	8	17	%	42	19	%
CYP88A3	acetyl-CoA assimilation	mutant	6	19	%	32	18	%
CYP88A3	non-phosphorylated glucose degradation	mutant	5	16	%	18	18	%
CYP88A3	mixed acid fermentation	mutant	7	20	%	28	17	%
CYP88A3	aerobic respiration -- electron donors reaction list	mutant	5	23	%	14	16	%
CYP88A3	serine-isocitrate lyase pathway	mutant	6	13	%	34	15	%
CYP88A3	tRNA charging pathway	mutant	7	15	%	18	14	%
CYP88A3	TCA cycle variation VII	mutant	9	13	%	46	13	%
CYP88A3	TCA cycle variation IV	mutant	6	13	%	26	12	%
CYP88A3	glycerol degradation II	mutant	5	11	%	18	9	%
CYP88A3	colanic acid building blocks biosynthesis	mutant	5	9	%	15	6	%
CYP88A4	glycine degradation I	stress	5	56	%	22	61	%
CYP88A4	carotenoid biosynthesis	stress	6	60	%	56	61	%
CYP88A4	Calvin cycle	stress	17	45	%	87	49	%
CYP88A4	superpathway of serine and glycine biosynthesis II	stress	8	36	%	36	46	%
CYP88A4	photorespiration	stress	11	32	%	52	41	%
CYP88A4	chlorophyll biosynthesis	stress	13	25	%	106	40	%
CYP88A4	ribose degradation	stress	6	50	%	15	39	%
CYP88A4	non-oxidative branch of the pentose phosphate pathway	stress	6	46	%	19	35	%
CYP88A4	starch degradation	stress	5	33	%	27	32	%
CYP88A4	serine biosynthesis	stress	9	35	%	30	32	%
CYP88A4	glyceraldehyde 3-phosphate degradation	stress	5	22	%	32	30	%
CYP88A4	superpathway of gluconate degradation	stress	6	38	%	11	29	%
CYP88A4	mannitol degradation	stress	5	20	%	28	29	%
CYP88A4	oxidative branch of the pentose phosphate pathway	stress	10	31	%	35	28	%
CYP88A4	sorbitol degradation	stress	5	19	%	28	28	%
CYP88A4	fructose degradation (anaerobic)	stress	12	19	%	70	26	%
CYP88A4	glycolysis IV	stress	12	19	%	70	26	%
CYP88A4	glycerol degradation II	stress	8	18	%	52	26	%
CYP88A4	cysteine biosynthesis II	stress	7	30	%	20	25	%
CYP88A4	acetate fermentation	stress	12	18	%	70	25	%
CYP88A4	glycine biosynthesis I	stress	8	19	%	36	25	%
CYP88A4	sorbitol fermentation	stress	12	18	%	70	25	%
CYP88A4	gluconeogenesis	stress	8	18	%	54	24	%
CYP88A4	biosynthesis of proto- and siroheme	stress	8	20	%	48	23	%
CYP88A4	cysteine biosynthesis I	stress	10	26	%	42	23	%
CYP88A4	lysine biosynthesis I	stress	5	29	%	18	22	%
CYP88A4	fatty acid biosynthesis -- initial steps	stress	5	16	%	34	21	%
CYP88A4	tRNA charging pathway	stress	10	21	%	26	20	%
CYP88A4	carbon monoxide dehydrogenase pathway	stress	6	21	%	14	18	%
CYP88A4	sulfate assimilation III	stress	5	15	%	32	14	%
CYP88A4	lactose degradation IV	stress	9	13	%	37	13	%
CYP88A4	glycolysis I	stress	12	9	%	70	13	%
CYP88A4	UDP-glucose conversion	stress	5	13	%	17	11	%
CYP88A4	glucose conversion	stress	5	13	%	17	11	%
CYP88A4	dTDP-rhamnose biosynthesis	stress	5	12	%	16	9	%
CYP88A4	galactose degradation I	stress	5	10	%	17	9	%
CYP88A4	colanic acid building blocks biosynthesis	stress	5	9	%	17	7	%
CYP88A4	de novo biosynthesis of purine nucleotides I	stress	5	6	%	14	4	%
CYP89A2	carotenoid biosynthesis	organ	7	70	%	64	70	%
CYP89A2	photorespiration	organ	5	15	%	21	16	%
CYP89A3	tryptophan biosynthesis	mutant	7	27	%	48	34	%
CYP89A3	lignin biosynthesis	mutant	5	11	%	30	12	%
CYP89A9	leucine degradation II	stress	5	24	%	38	32	%
CYP89A9	leucine degradation I	stress	5	12	%	38	16	%
CYP90A1	glycine degradation I	mutant	6	67	%	28	78	%
CYP90A1	carotenoid biosynthesis	mutant	7	70	%	64	70	%
CYP90A1	carotenoid biosynthesis	stress	5	50	%	48	52	%
CYP90A1	Calvin cycle	mutant	16	42	%	89	50	%
CYP90A1	formylTHF biosynthesis	mutant	7	39	%	42	49	%
CYP90A1	photorespiration	mutant	12	35	%	62	48	%
CYP90A1	carotenoid biosynthesis	organ	5	50	%	44	48	%
CYP90A1	superpathway of serine and glycine biosynthesis II	mutant	8	36	%	36	46	%
CYP90A1	valine biosynthesis	mutant	5	31	%	30	46	%
CYP90A1	isoleucine biosynthesis I	mutant	5	31	%	30	46	%
CYP90A1	threonine degradation	mutant	9	43	%	31	45	%
CYP90A1	TCA cycle variation II	mutant	7	41	%	36	43	%
CYP90A1	non-oxidative branch of the pentose phosphate pathway	mutant	5	38	%	23	43	%
CYP90A1	superpathway of gluconate degradation	mutant	5	31	%	15	39	%
CYP90A1	leucine degradation II	mutant	6	29	%	46	39	%
CYP90A1	superpathway of serine and glycine biosynthesis II	organ	7	32	%	30	38	%
CYP90A1	superpathway of serine and glycine biosynthesis II	stress	6	27	%	28	36	%
CYP90A1	mannitol degradation	mutant	7	28	%	34	35	%
CYP90A1	photorespiration	stress	9	26	%	44	34	%
CYP90A1	sorbitol degradation	mutant	7	27	%	34	34	%
CYP90A1	sterol biosynthesis	mutant	5	25	%	50	32	%
CYP90A1	chlorophyll biosynthesis	mutant	10	19	%	84	32	%
CYP90A1	photorespiration	organ	9	26	%	40	31	%
CYP90A1	cysteine biosynthesis II	mutant	7	30	%	25	31	%
CYP90A1	glycine biosynthesis I	mutant	9	21	%	45	31	%
CYP90A1	glyoxylate cycle	mutant	7	30	%	44	31	%
CYP90A1	aspartate degradation II	mutant	5	31	%	30	30	%
CYP90A1	gluconeogenesis	mutant	11	24	%	68	30	%
CYP90A1	phenylalanine degradation I	mutant	8	30	%	40	29	%
CYP90A1	serine biosynthesis	mutant	7	27	%	27	29	%
CYP90A1	chlorophyll biosynthesis	stress	9	17	%	76	29	%
CYP90A1	carbon monoxide dehydrogenase pathway	mutant	6	21	%	22	29	%
CYP90A1	acetyl-CoA assimilation	mutant	9	28	%	50	29	%
CYP90A1	acetate fermentation	mutant	16	24	%	78	28	%
CYP90A1	TCA cycle -- aerobic respiration	mutant	11	23	%	60	27	%
CYP90A1	glycolysis IV	mutant	14	22	%	72	27	%
CYP90A1	formaldehyde assimilation I (serine pathway)	mutant	7	21	%	42	27	%
CYP90A1	mixed acid fermentation	mutant	9	26	%	44	27	%
CYP90A1	ascorbate glutathione cycle	mutant	5	31	%	25	26	%
CYP90A1	Calvin cycle	stress	8	21	%	46	26	%
CYP90A1	TCA cycle variation VIII	mutant	11	22	%	62	26	%
CYP90A1	cysteine biosynthesis I	mutant	10	26	%	47	26	%
CYP90A1	aerobic respiration -- electron donors reaction list	mutant	7	32	%	22	25	%
CYP90A1	chlorophyll biosynthesis	organ	8	15	%	66	25	%
CYP90A1	fructose degradation (anaerobic)	mutant	13	21	%	66	25	%
CYP90A1	leucine biosynthesis	mutant	7	19	%	44	25	%
CYP90A1	serine-isocitrate lyase pathway	mutant	9	20	%	56	24	%
CYP90A1	sorbitol fermentation	mutant	13	20	%	66	23	%
CYP90A1	TCA cycle variation IV	mutant	10	22	%	50	23	%
CYP90A1	Calvin cycle	organ	6	16	%	40	23	%
CYP90A1	fatty acid biosynthesis -- initial steps	mutant	6	19	%	36	23	%
CYP90A1	oxidative branch of the pentose phosphate pathway	mutant	7	22	%	27	21	%
CYP90A1	sulfate assimilation III	mutant	7	21	%	48	21	%
CYP90A1	glycine biosynthesis I	organ	7	16	%	30	21	%
CYP90A1	cysteine biosynthesis II	organ	6	26	%	16	20	%
CYP90A1	leucine degradation I	mutant	6	14	%	46	20	%
CYP90A1	biosynthesis of proto- and siroheme	mutant	6	15	%	40	20	%
CYP90A1	glycine biosynthesis I	stress	6	14	%	28	19	%
CYP90A1	gluconeogenesis	stress	6	13	%	42	19	%
CYP90A1	aspartate degradation I	mutant	5	19	%	30	19	%
CYP90A1	TCA cycle variation VII	mutant	12	17	%	64	18	%
CYP90A1	trehalose biosynthesis III	mutant	5	16	%	26	18	%
CYP90A1	lactose degradation IV	mutant	12	17	%	51	18	%
CYP90A1	glycerol degradation II	mutant	8	18	%	36	18	%
CYP90A1	galactose degradation I	mutant	8	17	%	33	18	%
CYP90A1	UDP-glucose conversion	mutant	6	15	%	27	18	%
CYP90A1	cysteine biosynthesis II	stress	5	22	%	14	18	%
CYP90A1	glucose conversion	mutant	6	15	%	27	17	%
CYP90A1	tRNA charging pathway	mutant	8	17	%	22	17	%
CYP90A1	colanic acid building blocks biosynthesis	mutant	9	16	%	39	17	%
CYP90A1	gluconeogenesis	organ	5	11	%	37	16	%
CYP90A1	acetate fermentation	stress	9	13	%	44	16	%
CYP90A1	cellulose biosynthesis	mutant	6	14	%	32	15	%
CYP90A1	fructose degradation (anaerobic)	stress	7	11	%	36	14	%
CYP90A1	glycolysis I	mutant	14	11	%	72	13	%
CYP90A1	glycolysis IV	stress	7	11	%	36	13	%
CYP90A1	cysteine biosynthesis I	stress	6	15	%	24	13	%
CYP90A1	fructose degradation (anaerobic)	organ	6	10	%	34	13	%
CYP90A1	dTDP-rhamnose biosynthesis	mutant	6	14	%	22	13	%
CYP90A1	serine biosynthesis	organ	5	19	%	12	13	%
CYP90A1	glycolysis IV	organ	6	9	%	34	13	%
CYP90A1	sorbitol fermentation	stress	7	11	%	36	13	%
CYP90A1	fatty acid biosynthesis -- initial steps	organ	5	16	%	20	13	%
CYP90A1	acetate fermentation	organ	6	9	%	34	12	%
CYP90A1	sorbitol fermentation	organ	6	9	%	34	12	%
CYP90A1	cysteine biosynthesis I	organ	7	18	%	22	12	%
CYP90A1	trehalose biosynthesis II	mutant	5	9	%	26	11	%
CYP90A1	lactose degradation IV	stress	5	7	%	28	10	%
CYP90A1	lactose degradation IV	organ	6	8	%	27	10	%
CYP90A1	de novo biosynthesis of purine nucleotides I	mutant	7	8	%	26	8	%
CYP90A1	trehalose biosynthesis I	mutant	5	7	%	26	8	%
CYP90A1	glycolysis I	stress	7	5	%	36	7	%
CYP90A1	glycolysis I	organ	6	5	%	34	6	%
CYP94B1	lipoxygenase pathway	hormone	5	42	%	36	45	%
CYP94B1	jasmonic acid biosynthesis	hormone	5	28	%	36	30	%
CYP94B1	jasmonic acid biosynthesis	mutant	5	28	%	36	30	%
CYP94C1	tryptophan biosynthesis	hormone	9	35	%	60	43	%
CYP94C1	lipoxygenase pathway	hormone	5	42	%	32	40	%
CYP94C1	tryptophan biosynthesis	mutant	7	27	%	54	39	%
CYP94C1	jasmonic acid biosynthesis	hormone	6	33	%	42	34	%
CYP94D2	carotenoid biosynthesis	mutant	5	50	%	44	48	%
CYP94D2	threonine degradation	mutant	9	43	%	31	45	%
CYP94D2	leucine degradation II	mutant	6	29	%	46	39	%
CYP94D2	aerobic respiration -- electron donors reaction list	mutant	9	41	%	30	34	%
CYP94D2	photorespiration	mutant	7	21	%	40	31	%
CYP94D2	glyoxylate cycle	mutant	5	22	%	28	20	%
CYP94D2	leucine degradation I	mutant	6	14	%	46	20	%
CYP94D2	leucine biosynthesis	mutant	6	16	%	34	19	%
CYP94D2	sulfate assimilation III	mutant	6	18	%	44	19	%
CYP94D2	TCA cycle -- aerobic respiration	mutant	8	17	%	42	19	%
CYP94D2	TCA cycle variation VIII	mutant	8	16	%	42	17	%
CYP94D2	Calvin cycle	mutant	7	18	%	29	16	%
CYP94D2	phenylalanine degradation I	mutant	5	19	%	22	16	%
CYP94D2	acetyl-CoA assimilation	mutant	5	16	%	28	16	%
CYP94D2	oxidative branch of the pentose phosphate pathway	mutant	5	16	%	19	15	%
CYP94D2	serine-isocitrate lyase pathway	mutant	6	13	%	34	15	%
CYP94D2	cysteine biosynthesis I	mutant	5	13	%	26	14	%
CYP94D2	mixed acid fermentation	mutant	5	14	%	22	13	%
CYP94D2	TCA cycle variation IV	mutant	6	13	%	28	13	%
CYP94D2	TCA cycle variation VII	mutant	8	11	%	42	12	%
CYP94D2	gluconeogenesis	mutant	6	13	%	26	12	%
CYP94D2	glycerol degradation II	mutant	6	13	%	20	10	%
CYP94D2	lactose degradation IV	mutant	5	7	%	17	6	%
CYP96A12	chlorophyll biosynthesis	hormone	7	13	%	42	16	%
CYP96A12	biosynthesis of proto- and siroheme	hormone	5	12	%	18	9	%
CYP96A14P	trans-zeatin biosynthesis	mutant	7	88	%	36	86	%
CYP96A14P	phenylalanine biosynthesis II	mutant	5	23	%	34	36	%
CYP96A14P	lipases pathway	mutant	7	27	%	47	34	%
CYP96A14P	alanine biosynthesis II	mutant	5	20	%	34	30	%
CYP96A14P	gibberellin biosynthesis	mutant	5	42	%	23	27	%
CYP96A14P	sucrose degradation III	mutant	5	31	%	22	27	%
CYP96A14P	de novo biosynthesis of pyrimidine ribonucleotides	mutant	5	23	%	24	26	%
CYP96A14P	triacylglycerol degradation	mutant	15	28	%	32	26	%
CYP96A14P	biosynthesis of pyrimidine ribonucleotides	mutant	5	22	%	24	26	%
CYP96A14P	trehalose biosynthesis III	mutant	8	25	%	30	21	%
CYP96A14P	de novo biosynthesis of purine nucleotides II	mutant	5	14	%	22	18	%
CYP96A14P	mixed acid fermentation	mutant	6	17	%	30	18	%
CYP96A14P	non-phosphorylated glucose degradation	mutant	5	16	%	18	18	%
CYP96A14P	dTDP-rhamnose biosynthesis	mutant	6	14	%	30	17	%
CYP96A14P	cellulose biosynthesis	mutant	6	14	%	34	16	%
CYP96A14P	TCA cycle variation IV	mutant	8	18	%	34	16	%
CYP96A14P	sorbitol fermentation	mutant	11	17	%	44	16	%
CYP96A14P	galactose degradation I	mutant	6	13	%	29	15	%
CYP96A14P	TCA cycle -- aerobic respiration	mutant	8	17	%	34	15	%
CYP96A14P	lactose degradation IV	mutant	10	14	%	43	15	%
CYP96A14P	TCA cycle variation VIII	mutant	8	16	%	34	14	%
CYP96A14P	fructose degradation (anaerobic)	mutant	10	16	%	34	13	%
CYP96A14P	trehalose biosynthesis II	mutant	8	15	%	30	13	%
CYP96A14P	acetate fermentation	mutant	10	15	%	36	13	%
CYP96A14P	glycolysis IV	mutant	10	16	%	34	13	%
CYP96A14P	colanic acid building blocks biosynthesis	mutant	6	11	%	29	12	%
CYP96A14P	tRNA charging pathway	mutant	6	13	%	15	11	%
CYP96A14P	glycerol degradation II	mutant	6	13	%	20	10	%
CYP96A14P	chlorophyll biosynthesis	mutant	9	17	%	26	10	%
CYP96A14P	TCA cycle variation VII	mutant	8	11	%	34	10	%
CYP96A14P	biosynthesis of proto- and siroheme	mutant	6	15	%	20	10	%
CYP96A14P	Calvin cycle	mutant	5	13	%	17	10	%
CYP96A14P	trehalose biosynthesis I	mutant	8	11	%	30	9	%
CYP96A14P	de novo biosynthesis of purine nucleotides I	mutant	6	7	%	28	9	%
CYP96A14P	glycolysis I	mutant	10	8	%	34	6	%
CYP96A2	lignin biosynthesis	organ	5	11	%	11	4	%
CYP96A2	lignin biosynthesis	mutant	5	11	%	11	4	%
CYP96A4	lipoxygenase pathway	hormone	6	50	%	40	50	%
CYP96A4	jasmonic acid biosynthesis	hormone	6	33	%	40	33	%
CYP96A4	superpathway of serine and glycine biosynthesis II	organ	6	27	%	21	27	%
CYP96A4	photorespiration	organ	6	18	%	21	16	%
CYP96A4	cysteine biosynthesis II	organ	5	22	%	12	15	%
CYP96A4	glycine biosynthesis I	organ	6	14	%	21	14	%
CYP96A4	serine biosynthesis	organ	5	19	%	12	13	%
CYP96A4	cysteine biosynthesis I	organ	5	13	%	12	7	%
CYP96A5	tryptophan biosynthesis	mutant	6	23	%	44	31	%
CYP96A5	triacylglycerol degradation	mutant	5	9	%	18	15	%
CYP96A5	lignin biosynthesis	mutant	5	11	%	30	12	%
CYP97A3	carotenoid biosynthesis	organ	7	70	%	64	70	%
CYP97A3	glycine degradation I	organ	6	67	%	24	67	%
CYP97A3	glycine degradation I	mutant	5	56	%	22	61	%
CYP97A3	glycine degradation I	stress	5	56	%	22	61	%
CYP97A3	chlorophyll biosynthesis	organ	18	35	%	140	53	%
CYP97A3	Calvin cycle	organ	17	45	%	93	53	%
CYP97A3	carotenoid biosynthesis	stress	5	50	%	46	50	%
CYP97A3	carotenoid biosynthesis	mutant	5	50	%	46	50	%
CYP97A3	superpathway of serine and glycine biosynthesis II	organ	9	41	%	38	49	%
CYP97A3	photorespiration	mutant	12	35	%	62	48	%
CYP97A3	superpathway of serine and glycine biosynthesis II	mutant	8	36	%	36	46	%
CYP97A3	Calvin cycle	stress	16	42	%	81	46	%
CYP97A3	photorespiration	organ	12	35	%	54	42	%
CYP97A3	formylTHF biosynthesis	mutant	6	33	%	36	42	%
CYP97A3	ribose degradation	stress	6	50	%	15	39	%
CYP97A3	ribose degradation	organ	6	50	%	15	39	%
CYP97A3	biosynthesis of proto- and siroheme	organ	12	29	%	80	39	%
CYP97A3	glyceraldehyde 3-phosphate degradation	organ	6	26	%	39	36	%
CYP97A3	ascorbate glutathione cycle	mutant	5	31	%	34	36	%
CYP97A3	non-oxidative branch of the pentose phosphate pathway	stress	6	46	%	19	35	%
CYP97A3	chlorophyll biosynthesis	mutant	12	23	%	90	34	%
CYP97A3	Calvin cycle	mutant	11	29	%	60	34	%
CYP97A3	non-oxidative branch of the pentose phosphate pathway	organ	5	38	%	17	31	%
CYP97A3	chlorophyll biosynthesis	stress	10	19	%	82	31	%
CYP97A3	mannitol degradation	organ	6	24	%	30	31	%
CYP97A3	glyceraldehyde 3-phosphate degradation	stress	5	22	%	32	30	%
CYP97A3	sorbitol degradation	organ	6	23	%	30	30	%
CYP97A3	photorespiration	stress	10	29	%	38	30	%
CYP97A3	superpathway of gluconate degradation	stress	6	38	%	11	29	%
CYP97A3	gluconeogenesis	organ	10	22	%	65	29	%
CYP97A3	superpathway of serine and glycine biosynthesis II	stress	7	32	%	22	28	%
CYP97A3	fatty acid biosynthesis -- initial steps	mutant	6	19	%	44	28	%
CYP97A3	gluconeogenesis	mutant	10	22	%	60	27	%
CYP97A3	glycine biosynthesis I	organ	9	21	%	38	26	%
CYP97A3	oxidative branch of the pentose phosphate pathway	stress	9	28	%	33	26	%
CYP97A3	fructose degradation (anaerobic)	organ	12	19	%	68	26	%
CYP97A3	serine biosynthesis	stress	8	31	%	24	26	%
CYP97A3	glycolysis IV	organ	12	19	%	68	25	%
CYP97A3	glycine biosynthesis I	mutant	8	19	%	36	25	%
CYP97A3	mannitol degradation	stress	5	20	%	24	25	%
CYP97A3	oxidative branch of the pentose phosphate pathway	organ	8	25	%	31	25	%
CYP97A3	acetate fermentation	organ	12	18	%	68	24	%
CYP97A3	sorbitol fermentation	organ	12	18	%	68	24	%
CYP97A3	gluconeogenesis	stress	8	18	%	54	24	%
CYP97A3	sorbitol degradation	stress	5	19	%	24	24	%
CYP97A3	fructose degradation (anaerobic)	stress	11	17	%	62	23	%
CYP97A3	glycolysis IV	stress	11	17	%	62	23	%
CYP97A3	cysteine biosynthesis II	organ	7	30	%	18	23	%
CYP97A3	acetate fermentation	stress	11	16	%	62	22	%
CYP97A3	sorbitol fermentation	stress	11	17	%	62	22	%
CYP97A3	biosynthesis of proto- and siroheme	stress	7	17	%	44	21	%
CYP97A3	glycolysis IV	mutant	12	19	%	56	21	%
CYP97A3	carbon monoxide dehydrogenase pathway	stress	7	25	%	16	21	%
CYP97A3	superpathway of serine and glycine biosynthesis II	hormone	5	23	%	16	21	%
CYP97A3	biosynthesis of proto- and siroheme	mutant	8	20	%	42	20	%
CYP97A3	cysteine biosynthesis II	stress	6	26	%	16	20	%
CYP97A3	formaldehyde assimilation I (serine pathway)	mutant	5	15	%	30	19	%
CYP97A3	serine biosynthesis	organ	7	27	%	18	19	%
CYP97A3	glycerol degradation II	stress	6	13	%	38	19	%
CYP97A3	glycerol degradation II	mutant	8	18	%	38	19	%
CYP97A3	glycerol degradation II	organ	6	13	%	38	19	%
CYP97A3	fructose degradation (anaerobic)	mutant	11	17	%	50	19	%
CYP97A3	acetate fermentation	mutant	12	18	%	52	19	%
CYP97A3	mixed acid fermentation	mutant	6	17	%	30	18	%
CYP97A3	formaldehyde assimilation I (serine pathway)	organ	5	15	%	28	18	%
CYP97A3	acetyl-CoA assimilation	organ	5	16	%	31	18	%
CYP97A3	sorbitol fermentation	mutant	11	17	%	50	18	%
CYP97A3	cysteine biosynthesis I	stress	8	21	%	32	17	%
CYP97A3	photorespiration	hormone	6	18	%	22	17	%
CYP97A3	Calvin cycle	hormone	7	18	%	30	17	%
CYP97A3	carbon monoxide dehydrogenase pathway	organ	5	18	%	13	17	%
CYP97A3	tRNA charging pathway	stress	9	19	%	22	17	%
CYP97A3	TCA cycle variation IV	mutant	7	16	%	36	17	%
CYP97A3	serine-isocitrate lyase pathway	organ	6	13	%	36	16	%
CYP97A3	cysteine biosynthesis I	mutant	7	18	%	28	15	%
CYP97A3	glycine biosynthesis I	stress	7	16	%	22	15	%
CYP97A3	gluconeogenesis	hormone	5	11	%	34	15	%
CYP97A3	cysteine biosynthesis II	mutant	5	22	%	12	15	%
CYP97A3	UDP-glucose conversion	organ	6	15	%	23	15	%
CYP97A3	TCA cycle variation VIII	mutant	7	14	%	36	15	%
CYP97A3	glucose conversion	organ	6	15	%	23	15	%
CYP97A3	TCA cycle -- aerobic respiration	mutant	6	13	%	32	14	%
CYP97A3	oxidative branch of the pentose phosphate pathway	mutant	5	16	%	18	14	%
CYP97A3	lactose degradation IV	organ	9	13	%	39	14	%
CYP97A3	cysteine biosynthesis I	organ	8	21	%	24	13	%
CYP97A3	serine-isocitrate lyase pathway	mutant	5	11	%	30	13	%
CYP97A3	dTDP-rhamnose biosynthesis	organ	6	14	%	22	13	%
CYP97A3	serine biosynthesis	mutant	5	19	%	12	13	%
CYP97A3	glycolysis I	organ	12	9	%	68	13	%
CYP97A3	galactose degradation I	organ	6	13	%	23	12	%
CYP97A3	cellulose biosynthesis	mutant	5	11	%	26	12	%
CYP97A3	tRNA charging pathway	organ	7	15	%	16	12	%
CYP97A3	glycolysis I	stress	11	9	%	62	12	%
CYP97A3	glycine biosynthesis I	hormone	5	12	%	16	11	%
CYP97A3	glycolysis I	mutant	12	9	%	56	10	%
CYP97A3	TCA cycle variation VII	mutant	7	10	%	36	10	%
CYP97A3	colanic acid building blocks biosynthesis	organ	6	11	%	23	10	%
CYP97A3	tRNA charging pathway	hormone	5	11	%	12	9	%
CYP97A3	tRNA charging pathway	mutant	5	11	%	12	9	%
CYP97A3	fructose degradation (anaerobic)	hormone	5	8	%	24	9	%
CYP97A3	glycolysis IV	hormone	5	8	%	24	9	%
CYP97A3	acetate fermentation	hormone	5	7	%	24	9	%
CYP97A3	sorbitol fermentation	hormone	5	8	%	24	8	%
CYP97A3	lactose degradation IV	stress	6	8	%	23	8	%
CYP97A3	lactose degradation IV	mutant	5	7	%	19	7	%
CYP97A3	de novo biosynthesis of purine nucleotides I	mutant	5	6	%	18	6	%
CYP97A3	glycolysis I	hormone	5	4	%	24	4	%
CYP97B3	carotenoid biosynthesis	organ	7	70	%	62	67	%
CYP97B3	glycine degradation I	mutant	5	56	%	22	61	%
CYP97B3	glycine degradation I	organ	5	56	%	20	56	%
CYP97B3	photorespiration	organ	13	38	%	64	50	%
CYP97B3	carotenoid biosynthesis	mutant	5	50	%	46	50	%
CYP97B3	superpathway of serine and glycine biosynthesis II	organ	9	41	%	38	49	%
CYP97B3	isoleucine degradation III	mutant	5	42	%	31	46	%
CYP97B3	chlorophyll biosynthesis	organ	14	27	%	118	45	%
CYP97B3	photorespiration	mutant	11	32	%	56	44	%
CYP97B3	Calvin cycle	organ	13	34	%	76	43	%
CYP97B3	TCA cycle variation II	mutant	7	41	%	36	43	%
CYP97B3	threonine degradation	mutant	7	33	%	27	39	%
CYP97B3	aerobic respiration -- electron donors reaction list	mutant	10	45	%	34	39	%
CYP97B3	superpathway of serine and glycine biosynthesis II	mutant	7	32	%	30	38	%
CYP97B3	valine degradation II	mutant	6	35	%	25	38	%
CYP97B3	formylTHF biosynthesis	mutant	6	33	%	32	37	%
CYP97B3	glyoxylate cycle	mutant	8	35	%	50	35	%
CYP97B3	mannitol degradation	organ	6	24	%	34	35	%
CYP97B3	sorbitol degradation	organ	6	23	%	34	34	%
CYP97B3	Calvin cycle	mutant	11	29	%	58	33	%
CYP97B3	glyceraldehyde 3-phosphate degradation	organ	5	22	%	35	33	%
CYP97B3	acetyl-CoA assimilation	mutant	10	31	%	56	32	%
CYP97B3	mixed acid fermentation	mutant	11	31	%	52	32	%
CYP97B3	chlorophyll biosynthesis	mutant	10	19	%	84	32	%
CYP97B3	fatty acid oxidation pathway	mutant	5	26	%	43	32	%
CYP97B3	superpathway of gluconate degradation	mutant	6	38	%	12	32	%
CYP97B3	TCA cycle -- aerobic respiration	mutant	13	28	%	70	32	%
CYP97B3	aspartate degradation II	mutant	5	31	%	30	30	%
CYP97B3	ascorbate glutathione cycle	organ	5	31	%	28	29	%
CYP97B3	biosynthesis of proto- and siroheme	organ	9	22	%	60	29	%
CYP97B3	fatty acid biosynthesis -- initial steps	mutant	7	22	%	46	29	%
CYP97B3	chlorophyll biosynthesis	stress	9	17	%	76	29	%
CYP97B3	TCA cycle variation VIII	mutant	12	24	%	68	28	%
CYP97B3	cysteine biosynthesis I	mutant	11	28	%	51	28	%
CYP97B3	gluconeogenesis	mutant	11	24	%	62	27	%
CYP97B3	gluconeogenesis	organ	9	20	%	61	27	%
CYP97B3	glycine biosynthesis I	mutant	8	19	%	39	27	%
CYP97B3	leucine degradation II	mutant	5	24	%	31	26	%
CYP97B3	ascorbate glutathione cycle	mutant	5	31	%	25	26	%
CYP97B3	cysteine biosynthesis II	mutant	6	26	%	21	26	%
CYP97B3	glycine biosynthesis I	organ	9	21	%	38	26	%
CYP97B3	serine-isocitrate lyase pathway	mutant	10	22	%	60	26	%
CYP97B3	formaldehyde assimilation I (serine pathway)	mutant	7	21	%	40	26	%
CYP97B3	tryptophan biosynthesis	mutant	6	23	%	34	24	%
CYP97B3	non-phosphorylated glucose degradation	mutant	7	22	%	24	24	%
CYP97B3	leucine biosynthesis	mutant	8	22	%	42	24	%
CYP97B3	fructose degradation (anaerobic)	organ	10	16	%	62	23	%
CYP97B3	phenylalanine degradation I	mutant	6	22	%	32	23	%
CYP97B3	glycolysis IV	organ	10	16	%	62	23	%
CYP97B3	TCA cycle variation IV	mutant	10	22	%	50	23	%
CYP97B3	isoleucine degradation I	mutant	5	21	%	31	23	%
CYP97B3	sulfate assimilation III	mutant	8	24	%	52	23	%
CYP97B3	cysteine biosynthesis II	organ	7	30	%	18	23	%
CYP97B3	serine biosynthesis	mutant	6	23	%	21	22	%
CYP97B3	acetyl-CoA assimilation	organ	6	19	%	39	22	%
CYP97B3	acetate fermentation	organ	10	15	%	62	22	%
CYP97B3	sorbitol fermentation	organ	10	15	%	62	22	%
CYP97B3	glycolysis IV	mutant	14	22	%	56	21	%
CYP97B3	acetate fermentation	mutant	16	24	%	58	21	%
CYP97B3	TCA cycle variation VII	mutant	13	19	%	70	20	%
CYP97B3	cysteine biosynthesis I	organ	9	23	%	36	20	%
CYP97B3	biosynthesis of proto- and siroheme	mutant	6	15	%	40	20	%
CYP97B3	serine biosynthesis	organ	7	27	%	18	19	%
CYP97B3	oxidative branch of the pentose phosphate pathway	organ	6	19	%	24	19	%
CYP97B3	glycerol degradation II	mutant	10	22	%	38	19	%
CYP97B3	serine-isocitrate lyase pathway	organ	7	16	%	44	19	%
CYP97B3	valine degradation I	mutant	6	18	%	25	19	%
CYP97B3	fructose degradation (anaerobic)	mutant	13	21	%	50	19	%
CYP97B3	aspartate degradation I	mutant	5	19	%	30	19	%
CYP97B3	carbon monoxide dehydrogenase pathway	mutant	5	18	%	14	18	%
CYP97B3	superpathway of serine and glycine biosynthesis II	stress	6	27	%	14	18	%
CYP97B3	formaldehyde assimilation I (serine pathway)	organ	5	15	%	28	18	%
CYP97B3	sorbitol fermentation	mutant	13	20	%	50	18	%
CYP97B3	biosynthesis of proto- and siroheme	stress	5	12	%	36	18	%
CYP97B3	cysteine biosynthesis II	stress	6	26	%	14	18	%
CYP97B3	oxidative branch of the pentose phosphate pathway	mutant	7	22	%	22	17	%
CYP97B3	tRNA charging pathway	mutant	9	19	%	22	17	%
CYP97B3	mannitol degradation	mutant	5	20	%	16	16	%
CYP97B3	sorbitol degradation	mutant	5	19	%	16	16	%
CYP97B3	Calvin cycle	stress	5	13	%	28	16	%
CYP97B3	photorespiration	stress	7	21	%	20	16	%
CYP97B3	serine biosynthesis	stress	6	23	%	14	15	%
CYP97B3	TCA cycle variation IV	organ	5	11	%	32	15	%
CYP97B3	lactose degradation IV	mutant	10	14	%	41	15	%
CYP97B3	galactose degradation I	mutant	7	15	%	27	14	%
CYP97B3	colanic acid building blocks biosynthesis	mutant	8	14	%	33	14	%
CYP97B3	dTDP-rhamnose biosynthesis	mutant	7	16	%	24	14	%
CYP97B3	UDP-glucose conversion	mutant	5	13	%	21	14	%
CYP97B3	de novo biosynthesis of purine nucleotides II	mutant	5	14	%	16	13	%
CYP97B3	glucose conversion	mutant	5	13	%	21	13	%
CYP97B3	leucine degradation I	mutant	5	12	%	31	13	%
CYP97B3	TCA cycle variation VIII	organ	5	10	%	32	13	%
CYP97B3	chlorophyll biosynthesis	hormone	5	10	%	34	13	%
CYP97B3	lactose degradation IV	organ	9	13	%	35	12	%
CYP97B3	cellulose biosynthesis	mutant	5	11	%	26	12	%
CYP97B3	fructose degradation (anaerobic)	stress	5	8	%	32	12	%
CYP97B3	glycolysis IV	stress	5	8	%	32	12	%
CYP97B3	glycolysis I	organ	10	8	%	62	12	%
CYP97B3	acetate fermentation	stress	5	7	%	32	11	%
CYP97B3	sorbitol fermentation	stress	5	8	%	32	11	%
CYP97B3	UDP-glucose conversion	organ	5	13	%	17	11	%
CYP97B3	de novo biosynthesis of purine nucleotides I	mutant	10	11	%	34	11	%
CYP97B3	glucose conversion	organ	5	13	%	17	11	%
CYP97B3	glycolysis I	mutant	14	11	%	56	10	%
CYP97B3	glycine biosynthesis I	stress	6	14	%	14	10	%
CYP97B3	dTDP-rhamnose biosynthesis	organ	5	12	%	16	9	%
CYP97B3	TCA cycle variation VII	organ	5	7	%	32	9	%
CYP97B3	tRNA charging pathway	organ	5	11	%	12	9	%
CYP97B3	galactose degradation I	organ	5	10	%	17	9	%
CYP97B3	colanic acid building blocks biosynthesis	organ	6	11	%	21	9	%
CYP97B3	lactose degradation IV	stress	5	7	%	24	9	%
CYP97B3	cysteine biosynthesis I	stress	6	15	%	14	8	%
CYP97B3	glycolysis I	stress	5	4	%	32	6	%
CYP97C1	chlorophyll biosynthesis	organ	16	31	%	128	48	%
CYP97C1	Calvin cycle	organ	14	37	%	73	41	%
CYP97C1	biosynthesis of proto- and siroheme	organ	12	29	%	80	39	%
CYP97C1	superpathway of serine and glycine biosynthesis II	organ	7	32	%	27	35	%
CYP97C1	ribose degradation	organ	5	42	%	13	34	%
CYP97C1	photorespiration	organ	9	26	%	39	30	%
CYP97C1	glyceraldehyde 3-phosphate degradation	organ	5	22	%	32	30	%
CYP97C1	mannitol degradation	organ	5	20	%	28	29	%
CYP97C1	chlorophyll biosynthesis	stress	10	19	%	76	29	%
CYP97C1	sorbitol degradation	organ	5	19	%	28	28	%
CYP97C1	Calvin cycle	stress	9	24	%	48	27	%
CYP97C1	gluconeogenesis	organ	9	20	%	58	26	%
CYP97C1	fructose degradation (anaerobic)	organ	11	17	%	66	25	%
CYP97C1	glycolysis IV	organ	11	17	%	66	25	%
CYP97C1	acetate fermentation	organ	11	16	%	66	23	%
CYP97C1	sorbitol fermentation	organ	11	17	%	66	23	%
CYP97C1	oxidative branch of the pentose phosphate pathway	stress	6	19	%	28	22	%
CYP97C1	serine biosynthesis	stress	7	27	%	20	21	%
CYP97C1	cysteine biosynthesis II	stress	6	26	%	16	20	%
CYP97C1	cysteine biosynthesis II	organ	6	26	%	16	20	%
CYP97C1	oxidative branch of the pentose phosphate pathway	organ	7	22	%	25	20	%
CYP97C1	glycerol degradation II	organ	6	13	%	38	19	%
CYP97C1	photorespiration	stress	7	21	%	24	19	%
CYP97C1	glycine biosynthesis I	organ	7	16	%	27	19	%
CYP97C1	gluconeogenesis	stress	6	13	%	42	19	%
CYP97C1	formaldehyde assimilation I (serine pathway)	organ	5	15	%	28	18	%
CYP97C1	biosynthesis of proto- and siroheme	stress	6	15	%	36	18	%
CYP97C1	serine biosynthesis	organ	6	23	%	16	17	%
CYP97C1	tRNA charging pathway	organ	9	19	%	22	17	%
CYP97C1	superpathway of serine and glycine biosynthesis II	stress	5	23	%	12	15	%
CYP97C1	tRNA charging pathway	stress	5	11	%	18	14	%
CYP97C1	glycolysis I	organ	11	9	%	66	12	%
CYP97C1	serine-isocitrate lyase pathway	organ	5	11	%	28	12	%
CYP97C1	cysteine biosynthesis I	stress	6	15	%	16	9	%
CYP97C1	cysteine biosynthesis I	organ	6	15	%	16	9	%
CYP97C1	glycine biosynthesis I	stress	5	12	%	12	8	%
CYP98A3	suberin biosynthesis	stress	6	33	%	60	46	%
CYP98A3	suberin biosynthesis	hormone	5	28	%	50	38	%
CYP98A3	lignin biosynthesis	stress	9	20	%	90	36	%
CYP98A3	lignin biosynthesis	hormone	8	18	%	80	32	%
CYP98A3	acetate fermentation	hormone	5	7	%	16	6	%
CYP98A8	triacylglycerol degradation	mutant	6	11	%	14	11	%
CYP98A8	triacylglycerol degradation	organ	6	11	%	14	11	%
CYP98A8	lignin biosynthesis	mutant	5	11	%	11	4	%
CYP98A9	triacylglycerol degradation	mutant	5	9	%	12	10	%
CYP98A9	lignin biosynthesis	mutant	5	11	%	11	4	%
CYP702A8	leucine biosynthesis	mutant	5	14	%	32	18	%
CYP702A8	tRNA charging pathway	mutant	6	13	%	14	11	%
CYP705A1	flavonol biosynthesis	organ	5	25	%	20	27	%
CYP705A12	flavonol biosynthesis	organ	5	25	%	20	27	%
CYP705A13	flavonol biosynthesis	organ	6	30	%	21	29	%
CYP705A20	colanic acid building blocks biosynthesis	hormone	5	9	%	22	9	%
CYP705A24	triacylglycerol degradation	organ	6	11	%	14	11	%
CYP705A24	triacylglycerol degradation	mutant	5	9	%	12	10	%
CYP705A25	flavonol biosynthesis	organ	6	30	%	21	29	%
CYP705A32	trans-zeatin biosynthesis	mutant	6	75	%	30	71	%
CYP705A32	gibberellin biosynthesis	mutant	5	42	%	23	27	%
CYP705A32	sucrose degradation III	mutant	5	31	%	22	27	%
CYP705A32	lipases pathway	mutant	5	19	%	27	20	%
CYP705A32	non-phosphorylated glucose degradation	mutant	5	16	%	18	18	%
CYP705A32	triacylglycerol degradation	mutant	9	17	%	20	16	%
CYP705A32	mixed acid fermentation	mutant	5	14	%	20	12	%
CYP705A32	TCA cycle variation IV	mutant	6	13	%	24	11	%
CYP705A32	TCA cycle -- aerobic respiration	mutant	6	13	%	24	11	%
CYP705A32	TCA cycle variation VIII	mutant	6	12	%	24	10	%
CYP705A32	biosynthesis of proto- and siroheme	mutant	6	15	%	20	10	%
CYP705A32	chlorophyll biosynthesis	mutant	8	15	%	24	9	%
CYP705A32	glycerol degradation II	mutant	5	11	%	18	9	%
CYP705A32	TCA cycle variation VII	mutant	6	9	%	24	7	%
CYP705A32	lactose degradation IV	mutant	6	8	%	17	6	%
CYP705A5	glycerol degradation II	mutant	5	11	%	34	17	%
CYP705A5	fructose degradation (anaerobic)	mutant	6	10	%	38	14	%
CYP705A5	glycolysis IV	mutant	6	9	%	38	14	%
CYP705A5	acetate fermentation	mutant	6	9	%	38	14	%
CYP705A5	glycolysis I	mutant	6	5	%	38	7	%
CYP705A8	flavonol biosynthesis	organ	5	25	%	20	27	%
CYP706A3	cellulose biosynthesis	organ	5	11	%	20	9	%
CYP706A5	glycine degradation I	mutant	6	67	%	28	78	%
CYP706A5	glycine degradation I	organ	5	56	%	22	61	%
CYP706A5	carotenoid biosynthesis	mutant	6	60	%	54	59	%
CYP706A5	photorespiration	organ	13	38	%	64	50	%
CYP706A5	superpathway of serine and glycine biosynthesis II	organ	9	41	%	38	49	%
CYP706A5	photorespiration	mutant	12	35	%	62	48	%
CYP706A5	carotenoid biosynthesis	organ	5	50	%	44	48	%
CYP706A5	superpathway of serine and glycine biosynthesis II	mutant	8	36	%	36	46	%
CYP706A5	chlorophyll biosynthesis	organ	15	29	%	116	44	%
CYP706A5	formylTHF biosynthesis	mutant	6	33	%	36	42	%
CYP706A5	glyceraldehyde 3-phosphate degradation	organ	6	26	%	39	36	%
CYP706A5	Calvin cycle	mutant	12	32	%	62	35	%
CYP706A5	Calvin cycle	organ	12	32	%	62	35	%
CYP706A5	chlorophyll biosynthesis	stress	11	21	%	92	35	%
CYP706A5	Calvin cycle	stress	12	32	%	61	34	%
CYP706A5	chlorophyll biosynthesis	mutant	11	21	%	90	34	%
CYP706A5	ascorbate glutathione cycle	mutant	5	31	%	32	34	%
CYP706A5	biosynthesis of proto- and siroheme	organ	10	24	%	66	32	%
CYP706A5	TCA cycle variation II	mutant	5	29	%	26	31	%
CYP706A5	carbon monoxide dehydrogenase pathway	mutant	7	25	%	23	30	%
CYP706A5	starch degradation	stress	5	33	%	23	27	%
CYP706A5	mannitol degradation	organ	6	24	%	26	27	%
CYP706A5	glycine biosynthesis I	organ	9	21	%	38	26	%
CYP706A5	gluconeogenesis	organ	9	20	%	59	26	%
CYP706A5	sorbitol degradation	organ	6	23	%	26	26	%
CYP706A5	gluconeogenesis	mutant	10	22	%	58	26	%
CYP706A5	serine biosynthesis	organ	8	31	%	24	26	%
CYP706A5	glycine biosynthesis I	mutant	8	19	%	36	25	%
CYP706A5	non-oxidative branch of the pentose phosphate pathway	stress	5	38	%	13	24	%
CYP706A5	cysteine biosynthesis II	organ	7	30	%	18	23	%
CYP706A5	fructose degradation (anaerobic)	organ	11	17	%	58	22	%
CYP706A5	formaldehyde assimilation I (serine pathway)	mutant	6	18	%	34	22	%
CYP706A5	glycolysis IV	organ	11	17	%	58	22	%
CYP706A5	fatty acid biosynthesis -- initial steps	mutant	5	16	%	34	21	%
CYP706A5	cysteine biosynthesis I	mutant	8	21	%	38	21	%
CYP706A5	cysteine biosynthesis I	organ	9	23	%	38	21	%
CYP706A5	acetate fermentation	organ	11	16	%	58	21	%
CYP706A5	oxidative branch of the pentose phosphate pathway	organ	5	16	%	26	21	%
CYP706A5	superpathway of serine and glycine biosynthesis II	hormone	5	23	%	16	21	%
CYP706A5	sorbitol fermentation	organ	11	17	%	58	20	%
CYP706A5	biosynthesis of proto- and siroheme	mutant	7	17	%	42	20	%
CYP706A5	biosynthesis of proto- and siroheme	stress	6	15	%	42	20	%
CYP706A5	photorespiration	hormone	7	21	%	26	20	%
CYP706A5	threonine degradation	mutant	5	24	%	14	20	%
CYP706A5	sulfate assimilation III	mutant	5	15	%	46	20	%
CYP706A5	oxidative branch of the pentose phosphate pathway	stress	7	22	%	25	20	%
CYP706A5	Calvin cycle	hormone	9	24	%	35	20	%
CYP706A5	gluconeogenesis	hormone	7	16	%	44	19	%
CYP706A5	serine biosynthesis	mutant	6	23	%	18	19	%
CYP706A5	aspartate degradation I	mutant	5	19	%	31	19	%
CYP706A5	acetate fermentation	mutant	11	16	%	52	19	%
CYP706A5	formaldehyde assimilation I (serine pathway)	hormone	5	15	%	28	18	%
CYP706A5	cysteine biosynthesis II	stress	5	22	%	14	18	%
CYP706A5	cysteine biosynthesis II	hormone	5	22	%	14	18	%
CYP706A5	glycerol degradation II	organ	5	11	%	32	16	%
CYP706A5	fructose degradation (anaerobic)	mutant	8	13	%	40	15	%
CYP706A5	glycerol degradation II	mutant	6	13	%	30	15	%
CYP706A5	cysteine biosynthesis II	mutant	5	22	%	12	15	%
CYP706A5	glycolysis IV	mutant	8	13	%	40	15	%
CYP706A5	UDP-glucose conversion	mutant	6	15	%	23	15	%
CYP706A5	UDP-glucose conversion	hormone	6	15	%	23	15	%
CYP706A5	serine biosynthesis	hormone	5	19	%	14	15	%
CYP706A5	serine biosynthesis	stress	5	19	%	14	15	%
CYP706A5	TCA cycle variation IV	mutant	6	13	%	32	15	%
CYP706A5	serine-isocitrate lyase pathway	mutant	6	13	%	34	15	%
CYP706A5	glucose conversion	hormone	6	15	%	23	15	%
CYP706A5	glucose conversion	mutant	6	15	%	23	15	%
CYP706A5	oxidative branch of the pentose phosphate pathway	mutant	5	16	%	18	14	%
CYP706A5	cellulose biosynthesis	mutant	6	14	%	30	14	%
CYP706A5	fructose degradation (anaerobic)	stress	6	10	%	36	14	%
CYP706A5	glycolysis IV	stress	6	9	%	36	13	%
CYP706A5	TCA cycle variation VIII	mutant	6	12	%	32	13	%
CYP706A5	acetate fermentation	stress	6	9	%	36	13	%
CYP706A5	dTDP-rhamnose biosynthesis	mutant	6	14	%	22	13	%
CYP706A5	sorbitol fermentation	stress	6	9	%	36	13	%
CYP706A5	photorespiration	stress	5	15	%	16	13	%
CYP706A5	galactose degradation I	mutant	6	13	%	23	12	%
CYP706A5	galactose degradation I	hormone	6	13	%	23	12	%
CYP706A5	fructose degradation (anaerobic)	hormone	7	11	%	32	12	%
CYP706A5	serine-isocitrate lyase pathway	hormone	5	11	%	28	12	%
CYP706A5	glycolysis IV	hormone	7	11	%	32	12	%
CYP706A5	lactose degradation IV	mutant	8	11	%	33	12	%
CYP706A5	acetate fermentation	hormone	7	10	%	32	11	%
CYP706A5	sorbitol fermentation	hormone	7	11	%	32	11	%
CYP706A5	glycine biosynthesis I	hormone	5	12	%	16	11	%
CYP706A5	glycolysis I	organ	11	9	%	58	11	%
CYP706A5	colanic acid building blocks biosynthesis	mutant	6	11	%	23	10	%
CYP706A5	colanic acid building blocks biosynthesis	hormone	6	11	%	23	10	%
CYP706A5	lactose degradation IV	organ	6	8	%	27	10	%
CYP706A5	dTDP-rhamnose biosynthesis	hormone	5	12	%	16	9	%
CYP706A5	TCA cycle variation VII	mutant	6	9	%	32	9	%
CYP706A5	lactose degradation IV	hormone	6	8	%	23	8	%
CYP706A5	cysteine biosynthesis I	stress	5	13	%	14	8	%
CYP706A5	cysteine biosynthesis I	hormone	5	13	%	14	8	%
CYP706A5	glycolysis I	mutant	8	6	%	40	7	%
CYP706A5	glycolysis I	stress	6	5	%	36	7	%
CYP706A5	glycolysis I	hormone	7	5	%	32	6	%
CYP706A5	de novo biosynthesis of purine nucleotides I	mutant	5	6	%	18	6	%
CYP708A3	photorespiration	organ	6	18	%	26	20	%
CYP708A3	glycine biosynthesis I	organ	5	12	%	23	16	%
CYP708A3	chlorophyll biosynthesis	organ	5	10	%	40	15	%
CYP708A3	serine-isocitrate lyase pathway	organ	5	11	%	30	13	%
CYP708A3	cysteine biosynthesis I	organ	5	13	%	23	13	%
CYP709B3	carotenoid biosynthesis	organ	7	70	%	62	67	%
CYP709B3	glycine degradation I	organ	5	56	%	22	61	%
CYP709B3	superpathway of serine and glycine biosynthesis II	organ	9	41	%	38	49	%
CYP709B3	Calvin cycle	organ	15	39	%	86	49	%
CYP709B3	chlorophyll biosynthesis	organ	14	27	%	112	42	%
CYP709B3	photorespiration	organ	12	35	%	54	42	%
CYP709B3	mannitol degradation	organ	7	28	%	36	37	%
CYP709B3	glyceraldehyde 3-phosphate degradation	organ	6	26	%	39	36	%
CYP709B3	sorbitol degradation	organ	7	27	%	36	36	%
CYP709B3	superpathway of serine and glycine biosynthesis II	stress	5	23	%	26	33	%
CYP709B3	photorespiration	stress	8	24	%	42	33	%
CYP709B3	gluconeogenesis	organ	10	22	%	65	29	%
CYP709B3	cysteine biosynthesis II	organ	8	35	%	22	28	%
CYP709B3	glycine biosynthesis I	organ	9	21	%	38	26	%
CYP709B3	fructose degradation (anaerobic)	organ	12	19	%	68	26	%
CYP709B3	serine biosynthesis	organ	8	31	%	24	26	%
CYP709B3	glycolysis IV	organ	12	19	%	68	25	%
CYP709B3	biosynthesis of proto- and siroheme	organ	8	20	%	52	25	%
CYP709B3	acetate fermentation	organ	13	19	%	70	25	%
CYP709B3	sorbitol fermentation	organ	12	18	%	68	24	%
CYP709B3	oxidative branch of the pentose phosphate pathway	organ	6	19	%	28	22	%
CYP709B3	photorespiration	mutant	5	15	%	28	22	%
CYP709B3	chlorophyll biosynthesis	mutant	7	13	%	54	20	%
CYP709B3	Calvin cycle	mutant	7	18	%	36	20	%
CYP709B3	formaldehyde assimilation I (serine pathway)	organ	5	15	%	28	18	%
CYP709B3	glycine biosynthesis I	stress	5	12	%	26	18	%
CYP709B3	acetyl-CoA assimilation	organ	5	16	%	31	18	%
CYP709B3	cysteine biosynthesis I	organ	9	23	%	32	17	%
CYP709B3	carbon monoxide dehydrogenase pathway	organ	5	18	%	13	17	%
CYP709B3	glycerol degradation II	organ	5	11	%	32	16	%
CYP709B3	serine-isocitrate lyase pathway	organ	6	13	%	36	16	%
CYP709B3	gluconeogenesis	hormone	6	13	%	34	15	%
CYP709B3	UDP-glucose conversion	organ	6	15	%	23	15	%
CYP709B3	glucose conversion	organ	6	15	%	23	15	%
CYP709B3	lactose degradation IV	organ	9	13	%	39	14	%
CYP709B3	cysteine biosynthesis I	mutant	5	13	%	24	13	%
CYP709B3	glycolysis I	organ	12	9	%	68	13	%
CYP709B3	galactose degradation I	organ	6	13	%	23	12	%
CYP709B3	dTDP-rhamnose biosynthesis	organ	5	12	%	21	12	%
CYP709B3	TCA cycle variation IV	organ	5	11	%	26	12	%
CYP709B3	TCA cycle variation VIII	organ	5	10	%	26	11	%
CYP709B3	colanic acid building blocks biosynthesis	organ	6	11	%	23	10	%
CYP709B3	TCA cycle variation VII	organ	5	7	%	26	7	%
CYP710A1	lignin biosynthesis	stress	6	14	%	32	13	%
CYP715A1	tryptophan biosynthesis	mutant	7	27	%	48	34	%
CYP715A1	tryptophan biosynthesis	hormone	6	23	%	38	27	%
CYP715A1	triacylglycerol degradation	hormone	7	13	%	23	18	%
CYP715A1	lignin biosynthesis	mutant	5	11	%	30	12	%
CYP715A1	lignin biosynthesis	hormone	5	11	%	22	9	%
CYP716A2	chlorophyll biosynthesis	mutant	6	12	%	18	7	%
CYP720A1	tryptophan biosynthesis	mutant	7	27	%	48	34	%
CYP720A1	lignin biosynthesis	mutant	5	11	%	30	12	%
CYP724A1	TCA cycle -- aerobic respiration	organ	5	11	%	29	13	%
CYP735A1	trans-zeatin biosynthesis	mutant	7	88	%	36	86	%
CYP735A1	gibberellin biosynthesis	mutant	5	42	%	23	27	%
CYP735A1	sucrose degradation III	mutant	5	31	%	22	27	%
CYP735A1	de novo biosynthesis of pyrimidine ribonucleotides	mutant	5	23	%	24	26	%
CYP735A1	triacylglycerol degradation	mutant	15	28	%	32	26	%
CYP735A1	biosynthesis of pyrimidine ribonucleotides	mutant	5	22	%	24	26	%
CYP735A1	lipases pathway	mutant	6	23	%	31	22	%
CYP735A1	de novo biosynthesis of purine nucleotides II	mutant	6	17	%	24	20	%
CYP735A1	trehalose biosynthesis III	mutant	7	22	%	26	18	%
CYP735A1	non-phosphorylated glucose degradation	mutant	5	16	%	18	18	%
CYP735A1	cellulose biosynthesis	mutant	6	14	%	34	16	%
CYP735A1	TCA cycle variation IV	mutant	8	18	%	34	16	%
CYP735A1	galactose degradation I	mutant	6	13	%	29	15	%
CYP735A1	TCA cycle -- aerobic respiration	mutant	8	17	%	34	15	%
CYP735A1	lactose degradation IV	mutant	10	14	%	43	15	%
CYP735A1	dTDP-rhamnose biosynthesis	mutant	5	12	%	26	15	%
CYP735A1	TCA cycle variation VIII	mutant	8	16	%	34	14	%
CYP735A1	colanic acid building blocks biosynthesis	mutant	6	11	%	29	12	%
CYP735A1	mixed acid fermentation	mutant	5	14	%	20	12	%
CYP735A1	tRNA charging pathway	mutant	6	13	%	15	11	%
CYP735A1	trehalose biosynthesis II	mutant	7	13	%	26	11	%
CYP735A1	chlorophyll biosynthesis	mutant	9	17	%	26	10	%
CYP735A1	TCA cycle variation VII	mutant	8	11	%	34	10	%
CYP735A1	biosynthesis of proto- and siroheme	mutant	6	15	%	20	10	%
CYP735A1	de novo biosynthesis of purine nucleotides I	mutant	7	8	%	30	10	%
CYP735A1	glycerol degradation II	mutant	5	11	%	18	9	%
CYP735A1	trehalose biosynthesis I	mutant	7	9	%	26	8	%
CYP735A2	trans-zeatin biosynthesis	mutant	6	75	%	30	71	%
CYP735A2	gibberellin biosynthesis	mutant	5	42	%	29	34	%
CYP735A2	sucrose degradation III	mutant	5	31	%	22	27	%
CYP735A2	de novo biosynthesis of purine nucleotides II	mutant	5	14	%	24	20	%
CYP735A2	lipases pathway	mutant	5	19	%	27	20	%
CYP735A2	non-phosphorylated glucose degradation	mutant	5	16	%	18	18	%
CYP735A2	dTDP-rhamnose biosynthesis	mutant	5	12	%	26	15	%
CYP735A2	triacylglycerol degradation	mutant	8	15	%	18	15	%
CYP735A2	galactose degradation I	mutant	5	10	%	27	14	%
CYP735A2	trehalose biosynthesis III	mutant	5	16	%	20	14	%
CYP735A2	lactose degradation IV	mutant	8	11	%	37	13	%
CYP735A2	cellulose biosynthesis	mutant	5	11	%	28	13	%
CYP735A2	mixed acid fermentation	mutant	5	14	%	20	12	%
CYP735A2	colanic acid building blocks biosynthesis	mutant	5	9	%	27	11	%
CYP735A2	TCA cycle variation IV	mutant	5	11	%	20	9	%
CYP735A2	TCA cycle -- aerobic respiration	mutant	5	11	%	20	9	%
CYP735A2	glycerol degradation II	mutant	5	11	%	18	9	%
CYP735A2	trehalose biosynthesis II	mutant	5	9	%	20	9	%
CYP735A2	TCA cycle variation VIII	mutant	5	10	%	20	8	%
CYP735A2	biosynthesis of proto- and siroheme	mutant	5	12	%	16	8	%
CYP735A2	de novo biosynthesis of purine nucleotides I	mutant	5	6	%	24	8	%
CYP735A2	chlorophyll biosynthesis	mutant	7	13	%	20	8	%
CYP735A2	trehalose biosynthesis I	mutant	5	7	%	20	6	%
CYP735A2	TCA cycle variation VII	mutant	5	7	%	20	6	%
	page created by Juergen Ehlting	03/17/06
	....glad you made it all the way down here....