Fig. 2. Total accumulation of glucosinolates varies strongly between particular organs and between investigated species. Bar graphs indicate total peak areas of AG and IG molecular ions obtained during LC/MS analysis. The results and are means ± SD from three independent experiments with three biological replicates in each (n = 9). Significantly different statistical groups indicated by ANOVA (P <0.05, Tukey's test) are shown with upper-case (AGs) and lowercase (IGs) letters. AGs – aliphatic glucosinolates, IGs – indolic glucosinolates; # - not detectedPublished as part of Czerniawski, Paweł, Piasecka, Anna & Bednarek, Paweł, 2021, Evolutionary changes in the glucosinolate biosynthetic capacity in species representing Capsella, Camelina and...
Fig. 1. An archetypic glucosinolate-myrosinase system, leading to an isothiocyanate (A) and an oxazo...
Fig. 5. Structural redundancy and innovation in glucosinolate (GSL) biodiversity. A. Representative ...
Fig. 8. Biochemical aspects of aliphatic side chain oxidation of glucosinolates (GSLs). A. Biosynthe...
Fig. 4. The investigated Camelineae species differ from A. thaliana in their glucosinolate modificat...
Fig. 1. General scheme of aliphatic and indolic glucosinolate biosynthesis. Dashed arrows represent ...
Czerniawski, Paweł, Piasecka, Anna, Bednarek, Paweł (2021): Evolutionary changes in the glucosinolat...
Fig. 3. Expression of genes encoding glucosinolate biosynthetic enzymes correlates with product accu...
Fig. 8. IGMT phylogenetic tree is incongruent with the phylogeny of the investigated species. A neig...
Fig. 3. All glucosinolates (GSLs) derived from aromatic amino acids known from the tribe Cardamineae...
Fig. 6. Diversification of CYP81F enzymes in the Camelineae species.A neighbor-joining tree of CYP81...
Fig. 4. All glucosinolates (GSLs) derived from aliphatic amino acids known from the tribe Cardaminea...
Fig. 7. Divergence of the IGMT1-4 locus in the Camelineae species. Graphical representation of genom...
Fig. 6. Aspects of glucosinolate (GSL) evolution in the order Brassicales with focus on the tribe Ca...
Fig. 5. Divergence of the CYP81F1/3/4 locus in the Camelineae species.Graphical representation of ge...
Fig. 2. The essence of glucosinolate (GSL) biosynthesis as imagined for the presumably ancient 2-met...
Fig. 1. An archetypic glucosinolate-myrosinase system, leading to an isothiocyanate (A) and an oxazo...
Fig. 5. Structural redundancy and innovation in glucosinolate (GSL) biodiversity. A. Representative ...
Fig. 8. Biochemical aspects of aliphatic side chain oxidation of glucosinolates (GSLs). A. Biosynthe...
Fig. 4. The investigated Camelineae species differ from A. thaliana in their glucosinolate modificat...
Fig. 1. General scheme of aliphatic and indolic glucosinolate biosynthesis. Dashed arrows represent ...
Czerniawski, Paweł, Piasecka, Anna, Bednarek, Paweł (2021): Evolutionary changes in the glucosinolat...
Fig. 3. Expression of genes encoding glucosinolate biosynthetic enzymes correlates with product accu...
Fig. 8. IGMT phylogenetic tree is incongruent with the phylogeny of the investigated species. A neig...
Fig. 3. All glucosinolates (GSLs) derived from aromatic amino acids known from the tribe Cardamineae...
Fig. 6. Diversification of CYP81F enzymes in the Camelineae species.A neighbor-joining tree of CYP81...
Fig. 4. All glucosinolates (GSLs) derived from aliphatic amino acids known from the tribe Cardaminea...
Fig. 7. Divergence of the IGMT1-4 locus in the Camelineae species. Graphical representation of genom...
Fig. 6. Aspects of glucosinolate (GSL) evolution in the order Brassicales with focus on the tribe Ca...
Fig. 5. Divergence of the CYP81F1/3/4 locus in the Camelineae species.Graphical representation of ge...
Fig. 2. The essence of glucosinolate (GSL) biosynthesis as imagined for the presumably ancient 2-met...
Fig. 1. An archetypic glucosinolate-myrosinase system, leading to an isothiocyanate (A) and an oxazo...
Fig. 5. Structural redundancy and innovation in glucosinolate (GSL) biodiversity. A. Representative ...
Fig. 8. Biochemical aspects of aliphatic side chain oxidation of glucosinolates (GSLs). A. Biosynthe...