RNA-seq, de novo transcriptome assembly and flavonoid gene analysis in 13 wild and cultivated berry fruit species with high content of phenolics

Thole, Vera; Bassard, Jean‐Etienne; Ramírez-González, Ricardo H.; Trick, Martin; Afshar, Bijan Ghasemi; Breitel, Dario; Hill, Lionel; Foito, Alexandre; Shepherd, L.V.T.; Freitag, Sabine; Santos, Cláudia N.; Menezes, Regina; Banãdos, Pilar; Næsby, Michael; Wang, Yunlong; Sorokin, Artem; Tikhonova, O. A.; Шеленга, Т. В.; Stewart, Derek; Vain, Philippe; Martin, Cathie

doi:10.1186/s12864-019-6183-2

Cited by 32 publications

(23 citation statements)

References 121 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In that study it is also said that Ru MYB 5 interacts with other transcription factors ( RuTTG1 and RubHLH1 ) related to proanthocyanidins synthesis, showing decreasing transcript levels during ripening. Despite not having seen differential gene expression of RuMYB5 in our work, the tendency discussed in Thole et al 42 . work has been seen, with a higher concentration of catechin and epicatechin in red fruit and a lower concentration in black fruit.…”

Section: Discussioncontrasting

confidence: 77%

“…However, in our study, RuMYB 5 did not exceed the control differential expression. In the work of Thole et al ., 42 it is said that RuMYB5 from cultivated blackberry has a peak of expression at the early intermediate ripening fruit stage, which could be related to a higher concentration of catechin and epicatechin in green‐red fruit stages. In that study it is also said that Ru MYB 5 interacts with other transcription factors ( RuTTG1 and RubHLH1 ) related to proanthocyanidins synthesis, showing decreasing transcript levels during ripening.…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Metabolic elicitors of Pseudomonas fluorescens N 21.4 elicit flavonoid metabolism in blackberry fruit

et al. 2020

View full text Add to dashboard Cite

Background The beneficial rhizobacterium, Pseudomonas fluorescens N 21.4, and its metabolic elicitors were inoculated in commercial cultivars of blackberry plants (Rubus cv. Loch Ness). Phenolic compounds present in red and black fruit and the expression of structural marker genes of the phenylpropanoid pathway during fruit ripening were studied. Results An inverse relationship between gene expression and accumulation of metabolites was seen, except for the RuDFR gene, which had a direct correlation with cyanidin 3‐O‐glucoside synthesis, increasing its content 1.3 times when RuDFR was overexpressed in the red fruit of plants inoculated with the metabolic elicitors of P. fluorescens N 21.4, compared with red fruit of plants inoculated with N 21.4. The RuCHS gene also had a fundamental role in the accumulation of metabolites. Both rhizobacterium and metabolic elicitors triggered the flavonoid metabolism, enhancing the catechin and epicatechin content between 1.1 and 1.6 times in the case of red fruit and between 1.1 and 1.8 times in the case of black fruit. Both treatments also boosted the anthocyanin, quercetin, and kaempferol derivative content, highlighting the effects of metabolic elicitors in red fruit and the effects of live rhizobacterium in black fruit. Conclusion The metabolic elicitors' capacity to modulate gene expression and to increase secondary metabolites content was demonstrated. This work therefore suggests that they are effective, affordable, easily manageable, and ecofriendly plant inoculants that complement, or are alternatives to, beneficial rhizobacteria. © 2020 Society of Chemical Industry

show abstract

Section: Discussioncontrasting

confidence: 77%

Section: Discussionmentioning

confidence: 99%

Metabolic elicitors of Pseudomonas fluorescens N 21.4 elicit flavonoid metabolism in blackberry fruit

et al. 2020

View full text Add to dashboard Cite

show abstract

“…Of course, the effects of the MBW complex on anthocyanin production reflect the net responses of all anthocyanin biosynthetic genes and the relative changes in enzyme and transporter activity on anthocyanin accumulation. To investigate the net effect of the MBW components on the regulation of anthocyanin production in N. benthamiana , we tested different combinations of regulatory proteins for induction of anthocyanins in the leaves of N. benthamiana ‘Northern Territory’ which does not suffer from reported problems with induction of anthocyanins in leaves of the more commonly used laboratory strain (Bally et al ., 2015; Thole et al ., 2019). Anthocyanin levels were significantly induced by Ros 1 on its own (>25 fold) and these were further elevated by inclusion of a vector expressing Del in the transient assay (>45 fold) (Fig.…”

Section: Resultsmentioning

confidence: 99%

Discrete bHLH transcription factors play functionally overlapping roles in pigmentation patterning in flowers of Antirrhinum majus

et al. 2021

Self Cite

View full text Add to dashboard Cite

Floral pigmentation patterning is important for pollinator attraction as well as aesthetic appeal. Patterning of anthocyanin accumulation is frequently associated with variation in activity of the Myb, bHLH and WDR transcription factor complex (MBW) that regulates anthocyanin biosynthesis.Investigation of two classic mutants in Antirrhinum majus, mutabilis and incolorata I, showed they affect a gene encoding a bHLH protein belonging to subclade bHLH-2. The previously characterised gene, Delila, which encodes a bHLH-1 protein, has a bicoloured mutant phenotype, with residual lobe-specific pigmentation conferred by Incolorata I.Both Incolorata I and Delila induce expression of the anthocyanin biosynthetic gene DFR. Rosea 1 (Myb) and WDR1 proteins compete for interaction with Delila, but interact positively to promote Incolorata I activity. Delila positively regulates Incolorata I and WDR1 expression. Hierarchical regulation can explain the bicoloured patterning of delila mutants, through effects on both regulatory gene expression and the activity of promoters of biosynthetic genes like DFR that mediate MBW regulation.bHLH-1 and bHLH-2 proteins contribute to establishing patterns of pigment distribution in A. majus flowers in two ways: through functional redundancy in regulating anthocyanin biosynthetic gene expression, and through differences between the proteins in their ability to regulate genes encoding transcription factors.

show abstract

“…Hence, it is necessary to attain a comprehensive understanding of the molecular mechanisms of resistance to BRV in Ribes for novel blackcurrant breeding programs and acceleration of the selection process. Recently, RNA-sequencing (RNA-Seq) technology and digital gene expression analysis have provided new and rapid approaches for detecting differences in the transcriptomes of non-model plants [ 17 , 18 , 19 ]. Global investigation of gene expression during BRV infection will help to elucidate the mechanisms of BRV resistance in Ribes plants.…”

Section: Introductionmentioning

confidence: 99%

De Novo Transcriptome Analysis of R. nigrum cv. Aldoniai in Response to Blackcurrant Reversion Virus Infection

Mažeikienė

Juškytė

Bendokas

et al. 2022

IJMS

View full text Add to dashboard Cite

The most damaging pathogen in blackcurrant plantations is mite-transmitted blackcurrant reversion virus (BRV). Some Ribes species have an encoded genetic resistance to BRV. We performed RNA sequencing analysis of BRV-resistant blackcurrant cv. Aldoniai to evaluate the molecular mechanisms related to the BRV infection response. The RNA of virus-inoculated and mock-inoculated microshoots was sequenced, and the transcriptional changes at 2- and 4-days post inoculation (dpi) were analyzed. The accumulation and expression of BRV RNA1 were detected in infected plants. In total, 159,701 transcripts were obtained and 30.7% were unigenes, annotated in 7 databases. More than 25,000 differentially expressed genes (DEGs) according to FPKM were upregulated or downregulated. We observed 221 and 850 DEGs at 2 and 4 dpi, respectively, in BRV-infected microshoots related to the stress response. The proportion of upregulated DEGs at 4 dpi was about 3.5 times higher than at 2 dpi. Pathways of the virus defense response were activated, and key candidate genes were identified. The phenylpropanoid and the cutin, suberine, and wax biosynthesis pathways were activated in infected plants. Our comparative de novo analysis of the R. nigrum transcriptome provides clues not only for understanding the molecular BRV resistance mechanisms but also for breeding BRV-tolerant genotypes.

show abstract

RNA-seq, de novo transcriptome assembly and flavonoid gene analysis in 13 wild and cultivated berry fruit species with high content of phenolics

Cited by 32 publications

References 121 publications

Metabolic elicitors of Pseudomonas fluorescens N 21.4 elicit flavonoid metabolism in blackberry fruit

Metabolic elicitors of Pseudomonas fluorescens N 21.4 elicit flavonoid metabolism in blackberry fruit

Discrete bHLH transcription factors play functionally overlapping roles in pigmentation patterning in flowers of Antirrhinum majus

De Novo Transcriptome Analysis of R. nigrum cv. Aldoniai in Response to Blackcurrant Reversion Virus Infection

Contact Info

Product

Resources

About