A bHLH transcription factor, DvIVS, is involved in regulation of anthocyanin synthesis in dahlia (Dahlia variabilis)

Ohno, Sho; Hosokawa, Munetaka; Hoshino, Atsushi; Kitamura, Yoshikuni; Morita, Yasumasa; Park, Kyeung Ii; Nakashima, Akiko; Deguchi, Ayumi; Tatsuzawa, Fumi; Doi, Motoaki; Iida, Shigeru; Yazawa, Susumu

doi:10.1093/jxb/err216

Cited by 96 publications

(62 citation statements)

References 66 publications

(82 reference statements)

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“…In plants, the MYB-bHLH-WD40 complex is critical for activating the anthocyanin biosynthesis pathway. The mutation of these regulated genes usually causes color variation in apple (Espley et al, 2007), purple cauliflower (Chiu et al, 2010), Dahlia (Ohno et al, 2011), and blood oranges (Butelli et al, 2012). Anthocyaninregulated genes were found to be useful for increasing food quality.…”

Section: Discussionmentioning

confidence: 99%

“…These factors form a complex that binds to the anthocyanin structural gene promoter to control its transcription (Grotewold et al, 2000;Gonzalez et al, 2008;Schaart et al, 2013). In many plants, the mutation of anthocyanin-related genes usually causes color variation, such as in Vitis vinifera (Kobayashi et al, 2004), Dahlia (Ohno et al, 2011), and Tulipa fosteriana (Toda et al, 2002;Yuan et al, 2014). Uncovering anthocyanin-related genes using a traditional method for plants without a reference genome is time consuming.…”

Section: Introductionmentioning

confidence: 99%

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Transcriptome analysis and anthocyanin-related genes in red leaf lettuce

Zhang

Cheng

et al. 2016

Genet. Mol. Res.

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ABSTRACT.This study aimed to analyze the transcriptome profile of red lettuce and identify the genes involved in anthocyanin accumulation. Red leaf lettuce is a popular vegetable and popular due to its high anthocyanin content. However, there is limited information available about the genes involved in anthocyanin biosynthesis in this species. In this study, transcriptomes of 15-day-old seedlings and 40-day-old red lettuce leaves were analyzed using an Illuminia Hiseq TM 2500 platform. A total of 10.6 GB clean data were obtained and de novo assembled into 83,333 unigenes with an N50 of 1067. After annotation against public databases, 51,850 unigene sequences were identified, among which 46,087 were annotated in the NCBI non-redundant protein database, and 41,752 were annotated in the Swiss-Prot database. A total of 9125 unigenes were mapped into 163 pathways using the Kyoto Encyclopedia of Genes and Genomes database. Thirty-four structural genes were found to cover the main steps of the anthocyanin pathway, including chalcone synthase, chalcone isomerase, flavanone 3-hydroxylase, flavonoid 3'-hydroxylase, flavonoid 3',5'-hydroxylase, dihydroflavonol 4-reductase, and anthocyanidin synthase. Seven MYB, three bHLH, and two WD40 genes, considered anthocyanin regulatory genes, were also identified. In addition, 3607 simple sequence repeat (SSR) markers were identified from 2916 unigenes. This research uncovered the transcriptomic characteristics of red leaf lettuce seedlings and mature plants. The identified candidate genes related to anthocyanin biosynthesis and the detected SSRs provide useful tools for future molecular breeding studies.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Transcriptome analysis and anthocyanin-related genes in red leaf lettuce

Zhang

Cheng

et al. 2016

Genet. Mol. Res.

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“…While this feature is present in both petunia and Arabidopsis (Baudry et al, 2006;Xu et al, 2013), this does not seem to be necessary in Arabidopsis for pigmentation to occur, as GL3/EGL3 (bHLH1) can act redundantly with TT8 (bHLH2) for anthocyanin synthesis (Zhang et al, 2003). By contrast, petunia (Spelt et al, 2000, Albert et al, 2011, Ipomoea sp (Park et al, 2004), pea (Pisum sativa; Hellens et al, 2010), and Dahlia variabilis (Ohno et al, 2011) bHLH2 mutants result in a complete or severe loss of anthocyanin pigmentation, despite the continued expression of bHLH1 having been shown in the case of petunia, Ipomoea, and Dahlia. Thus, it appears that the requirement of bHLH2 activity for anthocyanin synthesis, and the hierarchical regulation between bHLH components, varies throughout the Eudicots and likely reflects functional specialization of the bHLH factor roles between genera.…”

Section: An Integrated Model For Anthocyanin Regulation In Eudicotsmentioning

confidence: 99%

A Conserved Network of Transcriptional Activators and Repressors Regulates Anthocyanin Pigmentation in Eudicots

et al. 2014

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Plants require sophisticated regulatory mechanisms to ensure the degree of anthocyanin pigmentation is appropriate to myriad developmental and environmental signals. Central to this process are the activity of MYB-bHLH-WD repeat (MBW) complexes that regulate the transcription of anthocyanin genes. In this study, the gene regulatory network that regulates anthocyanin synthesis in petunia (Petunia hybrida) has been characterized. Genetic and molecular evidence show that the R2R3-MYB, MYB27, is an anthocyanin repressor that functions as part of the MBW complex and represses transcription through its C-terminal EAR motif. MYB27 targets both the anthocyanin pathway genes and basic-helix-loop-helix (bHLH) ANTHOCYANIN1 (AN1), itself an essential component of the MBW activation complex for pigmentation. Other features of the regulatory network identified include inhibition of AN1 activity by the competitive R3-MYB repressor MYBx and the activation of AN1, MYB27, and MYBx by the MBW activation complex, providing for both reinforcement and feedback regulation. We also demonstrate the intercellular movement of the WDR protein (AN11) and R3-repressor (MYBx), which may facilitate anthocyanin pigment pattern formation. The fundamental features of this regulatory network in the Asterid model of petunia are similar to those in the Rosid model of Arabidopsis thaliana and are thus likely to be widespread in the Eudicots.

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“…All these CHS genes have conserved CHS active site residues (Ferrer et al 1999;Ma et al 2009) and the characteristic intron insertion site conserved in polyketide synthase (Zheng et al 2001). In addition to this, 12 sequences of DvCHS1 mRNA and 2 sequences of DvCHS2 mRNA are expressed in petals of a bicolor cultivar 'Michael J' (Ohno et al 2011). In the seed coats of yellow soybean (Glycine max), which has nine CHS, all CHS are simultaneously silenced by post-transcriptional gene silencing (PTGS) (Kurauchi et al 2009;Tuteja et al 2009).…”

Section: Introductionmentioning

confidence: 97%

Simultaneous post-transcriptional gene silencing of two different chalcone synthase genes resulting in pure white flowers in the octoploid dahlia

Ohno

Hosokawa

Kojima

et al. 2011

Planta

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Garden dahlias (Dahlia variabilis) are autoallooctoploids with redundant genes producing wide color variations in flowers. There are no pure white dahlia cultivars, despite its long breeding history. However, the white areas of bicolor flower petals appear to be pure white. The objective of this experiment was to elucidate the mechanism by which the pure white color is expressed in the petals of some bicolor cultivars. A pigment analysis showed that no flavonoid derivatives were detected in the white areas of petals in a star-type cultivar 'Yuino' and the two seedling cultivars 'OriW1' and 'OriW2' borne from a red-white bicolor cultivar, 'Orihime', indicating that their white areas are pure white. Semi-quantitative RT-PCR showed that in the pure white areas, transcripts of two chalcone synthases (CHS), DvCHS1 and DvCHS2 which share 69% nucleotide similarity with each other, were barely detected. Premature mRNA of DvCHS1 and DvCHS2 were detected, indicating that these two CHS genes are silenced post-transcriptionally. RNA gel blot analysis revealed that small interfering RNAs (siRNAs) derived from CHSs were produced in these pure white areas. By high-throughput sequence analysis of small RNAs in the pure white areas with no mismatch acceptance, small RNAs were mapped to two alleles of DvCHS1 and two alleles of DvCHS2 expressed in 'Yuino' petals. Therefore, we concluded that simultaneous siRNA-mediated post-transcriptional gene silencing of redundant CHS genes results in the appearance of pure white color in dahlias.

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A bHLH transcription factor, DvIVS, is involved in regulation of anthocyanin synthesis in dahlia (Dahlia variabilis)

Cited by 96 publications

References 66 publications

Transcriptome analysis and anthocyanin-related genes in red leaf lettuce

Transcriptome analysis and anthocyanin-related genes in red leaf lettuce

A Conserved Network of Transcriptional Activators and Repressors Regulates Anthocyanin Pigmentation in Eudicots

Simultaneous post-transcriptional gene silencing of two different chalcone synthase genes resulting in pure white flowers in the octoploid dahlia

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