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Plant cytochrome P450 plasticity and evolution

Cecilie Cetti Hansen, David R. Nelson, Birger Lindberg Møller, Danièle Werck‐Reichhart

2021Molecular Plant30 citationsDOIOpen Access PDF

Abstract

(Molecular Plant 14(8); 1244–1265; August 2 2021; https://doi.org/10.1016/j.molp.2021.06.028) In the original supplemental data 1 of this article, there is an error in the column that reports the presence of CYP71 family members in plants. The cell that lists plant taxons where CYP71 family are found should only show an ‘A’ instead of ‘A, G’, as this CYP family is realized only to be present in angiosperms. Figure 2, which illustrates some information from supplemental data 1, correctly shows that CYP71 family members are only found in angiosperms. The authors apologize for this error and any inconvenience that may have caused. Plant cytochrome P450 plasticity and evolutionHansen et al.Molecular PlantJune 30, 2021In BriefCytochrome P450 enzymes play critical roles in regulation and diversification of plant metabolism. This review article provides an updated annotation of the plant cytochrome P450 families within the plant lineage, and discusses molecular features and dynamics of cytochrome P450 plasticity and evolution. This is presented along with specific examples from various biosynthetic pathways. Full-Text PDF Open Access

Topics & Concepts

BiologyCytochrome P450Diversification (marketing strategy)Computational biologyLineage (genetic)AnnotationEvolutionary biologyGeneticsGeneEnzymeBiochemistryBusinessMarketingPlant tissue culture and regeneration
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