Enhancement of the anthocyanin contents of Caladium leaves and petioles via metabolic engineering with co-overexpression of AtPAP1 and ZmLc transcription factors

Abstract: IntroductionMetabolic engineering of anthocyanin synthesis is an active research area for pigment breeding and remains a research hotspot involving AtPAP1 and ZmLc transcription factors. Caladium bicolor is a desirable anthocyanin metabolic engineering receptor, with its abundant leaf color and stable genetic transformation system.MethodsWe transformed C. bicolor with AtPAP1 and ZmLc and successfully obtained transgenic plants. We then used a combination of metabolome, transcriptome, WGCNA and PPI co-expressio… Show more

Evaluation of the genetic uniformity, yield potential, and chilling-stress responses of tuber progeny of aneuploid caladium somaclonal variants in the second vegetative cycle

Evaluation of the genetic uniformity, yield potential, and chilling-stress responses of tuber progeny of aneuploid caladium somaclonal variants in the second vegetative cycle