Your search keyword '"10722001"' showing total 15 results

1. A Simple Screening of Flower Sensitivity to Ethylene in Several Ornamental Asteraceae Species

Author

10722001, 20704480, Yang, Yang, Ohno, Sho, Tanaka, Yoshiyuki, Doi, Motoaki, 10722001, 20704480, Yang, Yang, Ohno, Sho, Tanaka, Yoshiyuki, and Doi, Motoaki

Published

2023

2. Effects of Deflowering and Defoliating on the Postharvest Characteristics of Individual Organs in Cut Dahlias

Author

10722001, 20704480, Yang, Yang, Ohno, Sho, Tanaka, Yoshiyuki, Doi, Motoaki, 10722001, 20704480, Yang, Yang, Ohno, Sho, Tanaka, Yoshiyuki, and Doi, Motoaki

Abstract

Cut dahlia (Dahlia Cav.) flowers have recently become popular, but their marketability has been limited due to their poor vase life. The purposes of this study were to clarify the roles of leaves and inflorescences in the senescence of cut dahlias and to discuss the sink-source relationship between vegetative organs and inflorescences. The leaf life was maintained much longer (16.7 days) than the inflorescence life (7.4 days). The inflorescence life was not affected by removal of leaves, while leaf life was prolonged (19.6 days) by removal of inflorescences. Sucrose, glucose, fructose and small quantities of myo-inositol were detected in florets, and in addition to these sugars, nystose and 1-kestose were detected in stems and leaves. Total sugar levels of the middle florets (14.5 mg·g⁻¹ FW on day 0) declined rapidly before their senescence. Total sugar levels of leaves (20.5 mg·g⁻¹ FW on day 0) and stems (19.0–22.5 mg·g⁻¹ FW on day 0) also decreased gradually during the postharvest period, but the levels decreased more slowly in deflowered cut stems. Sugar leakage from stem bases into vase water occurred during the initial few days. Removal of inflorescences increased sugar leakage significantly and promoted callus formation on the stem base. From these results, the inflorescence is considered to be a strong sink for carbohydrates, and stems and leaves serve as source organs. Heat girdling applied to the flower necks and petioles, also increased sugar concentrations of stem bases, thus resulting in higher sugar leakage and callus formation, although both heat girdling treatments shortened the leaf life. The sharp decrease in sugar levels of florets and an insufficient sugar supply are considered to be responsible for the short vase life of cut dahlias. It is suggested that these effects might be partly due to the blockage of sugar flows into petals through abscission layer development in the petal-ovary boundaries. Based on these results, we illustrate the senescin

Published

2022

3. A novel aldo–keto reductase gene is involved in 6′-deoxychalcone biosynthesis in dahlia (Dahlia variabilis)

Author

10722001, Ohno, Sho, Yamada, Haruka, Maruyama, Kei, Deguchi, Ayumi, Kato, Yasunari, Yokota, Mizuki, Tatsuzawa, Fumi, Hosokawa, Munetaka, Doi, Motoaki, 10722001, Ohno, Sho, Yamada, Haruka, Maruyama, Kei, Deguchi, Ayumi, Kato, Yasunari, Yokota, Mizuki, Tatsuzawa, Fumi, Hosokawa, Munetaka, and Doi, Motoaki

Abstract

The yellow pigments of dahlia flowers are derived from 6′-deoxychalcones, which are synthesized via a two-step process, involving the conversion of 3-malonyl-CoA and 4-coumaloyl-CoA into isoliquiritigenin in the first step, and the subsequent generation of butein from isoliquiritigenin. The first step reaction is catalyzed by chalcone synthase (CHS) and aldo–keto reductase (AKR). AKR has been implicated in the isoflavone biosynthesis in legumes, however, isolation of butein biosynthesis related AKR members are yet to be reported. A comparative RNA-seq analysis between two dahlia cultivars, ‘Shukuhai’ and its butein-deficient lateral mutant ‘Rinka’, was used in this study to identify a novel AKR gene involved in 6'-deoxychalcone biosynthesis. DvAKR1 encoded a AKR 13 sub-family protein with significant differential expression levels, and was phylogenetically distinct from the chalcone reductases, which belongs to the AKR 4A sub-family in legumes. DNA sequence variation and expression profiles of DvAKR1 gene were correlated with 6′-deoxychalcone accumulation in the tested dahlia cultivars. A single over-expression analysis of DvAKR1 was not sufficient to initiate the accumulation of isoliquiritigenin in tobacco, in contrast, its co-overexpression with a chalcone 4′-O-glucosyltransferase (Am4′CGT) from Antirrhinum majus and a MYB transcription factor, CaMYBA from Capsicum annuum successfully induced isoliquiritigenin accumulation. In addition, DvAKR1 homologous gene expression was detected in Coreopsideae species accumulating 6′-deoxychalcone, but not in Asteraceae species lacking 6′-deoxychalcone production. These results not only demonstrate the involvement of DvAKR1 in the biosynthesis of 6'-deoxychalcone in dahlia, but also show that 6′-deoxychalcone occurrence in Coreopsideae species developed evolutionarily independent from legume species.

Published

2022

4. Post-transcriptional gene silencing of CYP76AD controls betalain biosynthesis in bracts of bougainvillea

Author

10722001, Ohno, Sho, Makishima, Rikako, Doi, Motoaki, 10722001, Ohno, Sho, Makishima, Rikako, and Doi, Motoaki

Abstract

Betalain is one of four major plant pigments and shares some features with anthocyanin; however, no plant has been found to biosynthesize both pigments. Previous studies have reported that anthocyanin biosynthesis in some plants is regulated by post-transcriptional gene-silencing (PTGS), but the importance of PTGS in betalain biosynthesis remains unclear. In this study, we report the occurrence of PTGS in betalain biosynthesis in bougainvillea (Bougainvillea peruviana) ‘Thimma’, which produces bracts of three different color on the same plant, namely pink, white, and pink-white. This resembles the unstable anthocyanin pigmentation phenotype that is associated with PTGS, and hence we anticipated the presence of PTGS in the betalain biosynthetic pathway. To test this, we analysed pigments, gene expression, small RNAs, and transient overexpression. Our results demonstrated that PTGS of BpCYP76AD1, a gene encoding one of the betalain biosynthesis enzymes, is responsible for the loss of betalain biosynthesis in ‘Thimma’. Neither the genetic background nor DNA methylation in the BpCYP76AD1 sequence could explain the induction of PTGS, implying that another locus controls the unstable pigmentation. Our results indicate that naturally occurring PTGS contributes to the diversification of color patterns not only in anthocyanin biosynthesis but also in betalain biosynthesis.

Published

2021

5. Identification of Chalcones and their Contribution to Yellow Coloration in Dahlia (Dahlia variabilis) Ray Florets

Author

10722001, Ohno, Sho, Yokota, Mizuki, Yamada, Haruka, Tatsuzawa, Fumi, Doi, Motoaki, 10722001, Ohno, Sho, Yokota, Mizuki, Yamada, Haruka, Tatsuzawa, Fumi, and Doi, Motoaki

Abstract

Yellow color in dahlia flowers is conferred from chalcones, butein and isoliquiritigenin. The color intensity of yellow dahlia cultivars is diverse, but a detailed study on this has not yet been performed. In this study, we first identified structures of flavonoids by nuclear magnetic resonance imaging in ray florets of the red-white bicolor ‘Shukuhai’, which contains chalcones, flavones and anthocyanins. Four anthocyanins, four flavone derivatives, five isoliquiritigenin derivatives and five butein derivatives were identified. Among the identified compounds, butein 4'-malonylsophoroside is considered to be the final product for butein derivatives and the presence of chalcone 4'-glucosyltransferase, chalcone 4'-glucoside glucosyltransferase, and chalcone 4'-glucoside malonyltransferase for isoliquiritigenin and butein modification was predicted. Also, the biosynthetic pathway of butein and isoliquiritigenin derivatives in dahlia with butein 4'-malonylsophoroside as the final product was predicted from the identified compounds. Next, we used nine yellow cultivars and lines with different color intensities and analyzed the correlation between the b* value, an indicator of yellow color, and level of chalcones. There was no difference in the presence or absence of major peaks among the cultivars and lines. Peak area per fresh weight measured by HPLC was high in butein 4'-malonylglucoside, butein 4'-sophoroside and isoliquiritigenin 4'-malonylglucoside, suggesting these three compounds were accumulated abundantly. Among the identified chalcones, the highest correlation coefficient was detected between the b* value and butein 4'-malonylglucoside (r = 0.86), butein 4'-sophoroside (r = 0.82) or isoliquiritigenin 4'-malonylglucoside (r = 0.76). These results suggest that these three chalcones confer yellow color in dahlia ray florets. The findings in this study will contribute not only to efforts at breeding new yellow dahlia cultivars, but also to molecular breeding of yell

Published

2021

6. Difference in the CaMYBA genome among anthocyanin pigmented cultivars and non-pigmented cultivars in pepper (Capsicum annuum)

Author

10722001, 40164090, Ohno, Sho, Ueno, Maiko, Doi, Motoaki, 10722001, 40164090, Ohno, Sho, Ueno, Maiko, and Doi, Motoaki

Abstract

Anthocyanin in pepper is beneficial as a food antioxidant compound and as a pigment for ornamentals, while unexpected anthocyanin accumulation in fruit, known as black spots, reduces the commercial quality of some cultivars. Previous studies demonstrated that the Anthocyanin (A) locus determines the anthocyanin accumulation in pepper fruits, and an MYB transcription factor, CaMYBA, was found to be located near the A locus. However, the causal gene sequence of the A locus has not yet been identified. With progress regarding genome information in pepper, two other homologous MYB genes were found to be located near CaMYBA, and they are also considered to be candidate genes for the A locus. In this study, we attempted to identify the causal gene sequence of the A locus by performing linkage analysis, genomic sequence analysis, and gene expression analysis of the three candidate MYB genes. A crossing experiment between pigmented ‘Peruvian Purple’ and non-pigmented cultivars confirmed that anthocyanin accumulation in the pigmented cultivar was controlled by a single locus. Gene expression analysis demonstrated that a basic helix-loop-helix transcription factor, CaMYC, and CaMYBA were expressed abundantly in pigmented cultivars, but the other two MYB genes were not. Genotyping of the F2 population derived from the cross demonstrated that the anthocyanin accumulation phenotype was highly linked to CaMYBA, but not to CaMYC. The DNA sequence of CaMYBA in pigmented cultivars had an insertion of a 4.3 kb retrotransposable element LINE-1 in the first intron, but that of non-pigmented cultivars did not. No pigmented cultivar-specific sequence was found in the promoter region of CaMYBA. Therefore, it was suggested that CaMYBA, but not the other two homologous MYB genes, is the A locus gene, and insertion of LINE-1 in CaMYBA appeared to be important for the regulation of anthocyanin accumulation, although the mechanism by which the LINE-1 insertion induces CaMYBA expression is unkn

Published

2020

7. A new role for histone demethylases in the maintenance of plant genome integrity

Author

10722001, Antunez-Sanchez, Javier, Naish, Matthew, Ramirez-Prado, Juan Sebastian, Ohno, Sho, Huang, Ying, Dawson, Alexander, Opassathian, Korawit, Manza-Mianza, Deborah, Ariel, Federico, Raynaud, Cecile, Wibowo, Anjar, Daron, Josquin, Ueda, Minako, Latrasse, David, Slotkin, R Keith, Weigel, Detlef, Benhamed, Moussa, Gutierrez-Marcos, Jose, 10722001, Antunez-Sanchez, Javier, Naish, Matthew, Ramirez-Prado, Juan Sebastian, Ohno, Sho, Huang, Ying, Dawson, Alexander, Opassathian, Korawit, Manza-Mianza, Deborah, Ariel, Federico, Raynaud, Cecile, Wibowo, Anjar, Daron, Josquin, Ueda, Minako, Latrasse, David, Slotkin, R Keith, Weigel, Detlef, Benhamed, Moussa, and Gutierrez-Marcos, Jose

Abstract

Histone modifications deposited by the Polycomb repressive complex 2 (PRC2) play a critical role in the control of growth, development, and adaptation to environmental fluctuations of most multicellular eukaryotes. The catalytic activity of PRC2 is counteracted by Jumonji-type (JMJ) histone demethylases, which shapes the genomic distribution of H3K27me3. Here, we show that two JMJ histone demethylases in Arabidopsis, EARLY FLOWERING 6 (ELF6) and RELATIVE OF EARLY FLOWERING 6 (REF6), play distinct roles in H3K27me3 and H3K27me1 homeostasis. We show that failure to reset these chromatin marks during sexual reproduction results in the transgenerational inheritance of histone marks, which cause a loss of DNA methylation at heterochromatic loci and transposon activation. Thus, Jumonji-type histone demethylases play a dual role in plants by helping to maintain transcriptional states through development and safeguard genome integrity during sexual reproduction.

Published

2020

8. Post-transcriptional silencing of chalcone synthase is involved in phenotypic lability in petals and leaves of bicolor dahlia (Dahlia variabilis) ‘Yuino’

Author

10722001, 40164090, Ohno, Sho, Hori, Wakako, Hosokawa, Munetaka, Tatsuzawa, Fumi, Doi, Motoaki, 10722001, 40164090, Ohno, Sho, Hori, Wakako, Hosokawa, Munetaka, Tatsuzawa, Fumi, and Doi, Motoaki

Abstract

Main conclusion: Post-transcriptional gene silencing (PTGS) of a chalcone synthase ( DvCHS2 ) occurred in the white part of bicolor petals and flavonoid-poor leaves; however, it did not in red petals and flavonoid-rich leaves. Petal color lability is a prominent feature of bicolor dahlia cultivars, and causes plants to produce not only original bicolor petals with colored bases and pure white tips, but also frequently single-colored petals without white tips. In this study, we analysed the molecular mechanisms that are associated with petal color lability using the red-white bicolor cultivar ‘Yuino’. Red single-colored petals lose their white tips as a result of recover of flavonoid biosynthesis. Among flavonoid biosynthetic genes including four chalcone synthase (CHS)-like genes (DvCHS1, DvCHS2, DvCHS3, and DvCHS4), DvCHS1 and DvCHS2 had significantly lower expression levels in the white part of bicolor petals than in red petals, while DvCHS3, DvCHS4, and other flavonoid biosynthetic genes had almost the same expression levels. Small RNAs from the white part of a bicolor petal were mapped onto DvCHS1 and DvCHS2, while small RNAs from a red single-colored petal were not mapped onto any of the four CHS genes. A relationship between petal color and leaf flavonoid accumulation has previously been demonstrated, whereby red petal-producing plants accumulate flavonoids in their leaves, while bicolor petal-producing plants tend not to. The expression level of DvCHS2 was down-regulated in flavonoid-poor leaves and small RNAs from flavonoid-poor leaves were mapped onto DvCHS2, suggesting that the down-regulation of DvCHS2 in flavonoid-poor leaves occurs post-transcriptionally. Genomic analysis also suggested that DvCHS2 is the key gene involved in bicolor formation. Together, these results suggest that post-transcriptional gene silencing of DvCHS2 plays a key role in phenotypic lability in this bicolor dahlia.

Published

2018

9. Quantitative Evaluation of the Contribution of Four Major Anthocyanins to Black Flower Coloring of Dahlia Petals

Author

40164090, 10722001, Deguchi, Ayumi, Tatsuzawa, Fumi, Hosokawa, Munetaka, Doi, Motoaki, Ohno, Sho, 40164090, 10722001, Deguchi, Ayumi, Tatsuzawa, Fumi, Hosokawa, Munetaka, Doi, Motoaki, and Ohno, Sho

Abstract

The black flower color of dahlias (Dahlia variabilis) has been suggested to be attributed to a high accumulation of cyanidin (Cy)-based anthocyanins. A possible explanation for this effect is that Cy-based anthocyanins in dahlias contribute more to the black flower color than pelargonidin (Pg)-based anthocyanins by lowering petal lightness (L*) and chroma (C*), but no obvious evidence has been reported. In this study, four major anthocyanins accumulated in dahlia petals, 3, 5-diglucoside (3, 5diG) and 3-(6''-malonylglucoside)-5-glucoside (3MG5G) of Pg and Cy, were purified and their colors were evaluated in vitro at various pHs (3.0, 4.0, 4.5, 5.0, 5.5, 6.0, or 7.0) and various concentrations (0.25, 0.5, 1.0, 2.0, or 3.0 mg·mL−1 at pH 5.0 or pH 3.0). The color of solution of purified anthocyanins varied depending on pH. At pH 5.0, which is approximately the same as pH of dahlia petals, and at pH 3.0, at which anthocyanins are relatively stable, the L* and C* of Cy 3, 5diG were similar to or higher than those of Pg 3, 5diG, suggesting that Cy 3, 5diG did not contribute more to the black flower coloring than Pg 3, 5diG. On the other hand, the L* and C* of Cy 3MG5G were significantly lower than those of Pg 3MG5G, particularly above 2.0 mg·mL−1, suggesting that Cy 3MG5G contributed more than Pg 3MG5G. A similar tendency was observed in the color measurement of mixed anthocyanins in various proportion of Pg and Cy. The L* and C* of Pg 3MG5G were much higher than those of the other three anthocyanins; therefore, its color was considered to be the farthest from black among the four anthocyanins. The accumulated amount of 3MG5G-type anthocyanins was much higher than that of 3, 5diG-type anthocyanins in all nine cultivars, although the proportion of Pg- and Cy-based anthocyanins varied among the cultivars. Considering these results, it was suggested that because 3MG5G-type anthocyanins predominantly accumulate in petals, and Cy 3MG5G has a significantly higher contribution t

Published

2016

10. Petal Color Is Associated with Leaf Flavonoid Accumulation in a Labile Bicolor Flowering Dahlia (Dahlia variabilis) ‘Yuino’

Author

10722001, 40301246, 40164090, Ohno, Sho, Hori, Wakako, Hosokawa, Munetaka, Tatsuzawa, Fumi, Doi, Motoaki, 10722001, 40301246, 40164090, Ohno, Sho, Hori, Wakako, Hosokawa, Munetaka, Tatsuzawa, Fumi, and Doi, Motoaki

Abstract

Bicolor flowering dahlias generally produce inflorescences with bicolor petals characterized by a colored basal part and a white tip; however, they frequently produce single-colored petals. This petal color lability prevents uniform production of cut or pot flowers of bicolor dahlias and reduces the economic value of bicolor cultivars. In this study, to reveal the underlying mechanism and control color lability, the pattern of occurrence of single-colored petals was characterized in a red–white bicolor flowering cultivar ‘Yuino’. ‘Yuino’ produced inflorescences with bicolor petals, red petals, and both red and bicolor petals. Red petals occurred almost always at the outer whorls or sectorally in a mixed inflorescence, similar to a chimera or a lateral mutant. The occurrence of red petals was higher in field experiments during May to December than in greenhouse experiments during October to next July. We identified the “R-line” plant, which produced red petals with high frequency during the winter to spring cultivation; this characteristic to produce red petals with high frequency was retained through vegetative propagation. There were strong relationships between inflorescence color and leaf phenotype; red petal-producing plants accumulated flavonoids in leaves, whereas only bicolor petal-producing plants tended not to accumulate flavonoid in leaves. This suggests that petal color of ‘Yuino’ is associated with flavonoid synthetic potential in shoot. Therefore, a phenotypic difference is observed not only in petal colors but also at the whole plant level.

Published

2016

11. Tobacco streak virus (strain dahlia) suppresses post-transcriptional gene silencing of flavone synthase II in black dahlia cultivars and causes a drastic flower color change.

Author

40164090, 10722001, Deguchi, Ayumi, Tatsuzawa, Fumi, Hosokawa, Munetaka, Doi, Motoaki, Ohno, Sho, 40164090, 10722001, Deguchi, Ayumi, Tatsuzawa, Fumi, Hosokawa, Munetaka, Doi, Motoaki, and Ohno, Sho

Abstract

Tobacco streak virus suppressed post-transcriptional gene silencing and caused a flower color change in black dahlias, which supported the role of cyanidin-based anthocyanins for black flower appearance. Black flower color of dahlia (Dahlia variabilis) has been attributed, in part, to the high accumulation of cyanidin-based anthocyanins that occurs when flavone synthesis is reduced because of post-transcriptional gene silencing (PTGS) of flavone synthase II (DvFNS). There are also purple-flowering plants that have emerged from a black cultivar 'Kokucho'. We report that the purple color is not caused by a mutation, as previously thought, but by infection with tobacco streak virus (TSVdahlia), which suppresses the PTGS of DvFNS. When TSVdahlia was eliminated from the purple-flowering 'Kokucho' by leaf primordia-free shoot apical meristem culture, the resulting flowers were black. TSVdahlia-infected purple flowers had lower numbers of siRNAs to DvFNS than black flowers, suggesting that TSVdahlia has a silencing suppressor. The graft inoculation of other black cultivars with TSVdahlia altered their flower color drastically except for 'Fidalgo Blacky', a very deep black cultivar with the highest amount of cyanidin-based anthocyanins. The flowers of all six TSVdahlia-infected cultivars accumulated increased amounts of flavones and reduced amounts of cyanidin-based anthocyanins. 'Fidalgo Blacky' remained black despite the change in pigment accumulation, and the amounts of cyanidin-based anthocyanins in its TSVdahlia-infected plants were still higher than those of other cultivars. We propose that black flower color in dahlia is controlled by two different mechanisms that increase the amount of cyanidin-based anthocyanins: DvFNS PTGS-dependent and -independent mechanisms. If both mechanisms occur simultaneously, the flower color will be blacker than if only a single mechanism is active.

Published

2015

12. A basic helix-loop-helix transcription factor DvIVS determines flower color intensity in cyanic dahlia cultivars.

Author

10722001, 40164090, Ohno, Sho, Deguchi, Ayumi, Hosokawa, Munetaka, Tatsuzawa, Fumi, Doi, Motoaki, 10722001, 40164090, Ohno, Sho, Deguchi, Ayumi, Hosokawa, Munetaka, Tatsuzawa, Fumi, and Doi, Motoaki

Abstract

The study was aimed to identify the factors that regulate the intensity of flower color in cyanic dahlia (Dahlia variabilis), using fifteen cultivars with different color intensities in their petals. The cultivars were classified into three groups based on their flavonoid composition: ivory white cultivars with flavones; purple and pink cultivars with flavones and anthocyanins; and red cultivars with flavones, anthocyanins, and chalcones. Among the purple, pink, and ivory white cultivars, an inverse relationship was detected between lightness, which was used as an indicator for color intensity and anthocyanin content. A positive correlation was detected between anthocyanin contents and the expression of some structural genes in the anthocyanin synthesis pathway that are regulated by DvIVS, a basic helix-loop-helix transcription factor. A positive correlation between anthocyanin content and expression of DvIVS was also found. The promoter region of DvIVS was classified into three types, with cultivars carrying Type 1 promoter exhibited deep coloring, those carrying Type 2 and/or Type 3 exhibited pale coloring, and those carrying Type 1 and Type 2 and/or Type 3 exhibited medium coloring. The transcripts of the genes from these promoters encoded full-length predicted proteins. These results suggested that the genotype of the promoter region in DvIVS is one of the key factors determining the flower color intensity.

Published

2013

13. Endogenous post-transcriptional gene silencing of flavone synthase resulting in high accumulation of anthocyanins in black dahlia cultivars.

Author

10722001, 40164090, Deguchi, Ayumi, Ohno, Sho, Hosokawa, Munetaka, Tatsuzawa, Fumi, Doi, Motoaki, 10722001, 40164090, Deguchi, Ayumi, Ohno, Sho, Hosokawa, Munetaka, Tatsuzawa, Fumi, and Doi, Motoaki

Abstract

Black color in flowers is a highly attractive trait in the floricultural industry, but its underlying mechanisms are largely unknown. This study was performed to identify the bases of the high accumulation of anthocyanidins in black cultivars and to determine whether the high accumulation of total anthocyanidins alone leads to the black appearance. Our approach was to compare black dahlia (Dahlia variabilis) cultivars with purple cultivars and a purple flowering mutant of a black cultivar, using pigment and molecular analyses. Black cultivars characteristically exhibited low lightness, high petal accumulation of cyanidin and total anthocyanidins without flavones, and marked suppression of flavone synthase (DvFNS) expression. A comparative study using black and purple cultivars revealed that neither the absence of flavones nor high accumulation of total anthocyanidins is solely sufficient for black appearance, but that cyanidin content in petals is also an important factor in the phenotype. A study comparing the black cultivar 'Kokucho' and its purple mutant showed that suppression of DvFNS abolishes the competition between anthocyanidin and flavone synthesis and leads to accumulation of cyanidin and total anthocyanidins that produce a black appearance. Surprisingly, in black cultivars the suppression of DvFNS occurred in a post-transcriptional manner, as determined by small RNA mapping.

Published

2013

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

Author

10722001, 40164090, Ohno, Sho, Hosokawa, Munetaka, Kojima, Misa, Kitamura, Yoshikuni, Hoshino, Atsushi, Tatsuzawa, Fumi, Doi, Motoaki, Yazawa, Susumu, 10722001, 40164090, Ohno, Sho, Hosokawa, Munetaka, Kojima, Misa, Kitamura, Yoshikuni, Hoshino, Atsushi, Tatsuzawa, Fumi, Doi, Motoaki, and Yazawa, Susumu

Abstract

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.

Published

2011

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

Author

10722001, 40164090, 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, 10722001, 40164090, Ohno, Sho, Hosokawa, Munetaka, Hoshino, Atsushi, Kitamura, Yoshikuni, Morita, Yasumasa, Park, Kyeung-Ii, Nakashima, Akiko, Deguchi, Ayumi, Tatsuzawa, Fumi, Doi, Motoaki, Iida, Shigeru, and Yazawa, Susumu

Abstract

Dahlias (Dahlia variabilis) exhibit a wide range of flower colours because of accumulation of anthocyanin and other flavonoids in their ray florets. Two lateral mutants were used that spontaneously occurred in 'Michael J' (MJW) which has yellow ray florets with orange variegation. MJOr, a bud mutant producing completely orange ray florets, accumulates anthocyanins, flavones, and butein, and MJY, another mutant producing completely yellow ray florets, accumulates flavones and butein. Reverse transcription-PCR analysis showed that expression of chalcone synthase 1 (DvCHS1), flavanone 3-hydroxylase (DvF3H), dihydroflavonol 4-reductase (DvDFR), anthocyanidin synthase (DvANS), and DvIVS encoding a basic helix-loop-helix transcription factor were suppressed, whereas that of chalcone isomerase (DvCHI) and DvCHS2, another CHS with 69% nucleotide identity with DvCHS1, was not suppressed in the yellow ray florets of MJY. A 5.4 kb CACTA superfamily transposable element, transposable element of Dahlia variabilis 1 (Tdv1), was found in the fourth intron of the DvIVS gene of MJW and MJY, and footprints of Tdv1 were detected in the variegated flowers of MJW. It is shown that only one type of DvIVS gene was expressed in MJOr, whereas these plants are likely to have three types of the DvIVS gene. On the basis of these results, the mechanism regulating the formation of orange and yellow ray florets in dahlia is discussed.

Published

2011