Search

Your search keyword '"Figueroa-Balderas, Rosa"' showing total 238 results
Start Over Author "Figueroa-Balderas, Rosa"
238 results on '"Figueroa-Balderas, Rosa"'

1. Genome analysis of the esca-associated Basidiomycetes Fomitiporia mediterranea, Fomitiporia polymorpha, Inonotus vitis, and Tropicoporus texanus reveals virulence factor repertoires characteristic of white-rot fungi.

Author

Garcia, Jadran, Figueroa-Balderas, Rosa, Comont, Gwenaëlle, Delmas, Chloé, Baumgartner, Kendra, and Cantu, Dario

Subjects
Fomitiporia mediterranea, Fomitiporia polymorpha, Inonotus vitis, Tropicoporus texanus, comparative genomics, fungal secondary metabolism, gene family evolution, plant cell wall degradation, Virulence Factors, Genome, Fungal, Plant Diseases, Basidiomycota, Vitis, Phylogeny, Genomics, Multigene Family, Fungal Proteins
Abstract

Some Basidiomycete fungi are important plant pathogens, and certain species have been associated with the grapevine trunk disease esca. We present the genomes of 4 species associated with esca: Fomitiporia mediterranea, Fomitiporia polymorpha, Tropicoporus texanus, and Inonotus vitis. We generated high-quality phased genome assemblies using long-read sequencing. The genomic and functional comparisons identified potential virulence factors, suggesting their roles in disease development. Similar to other white-rot fungi known for their ability to degrade lignocellulosic substrates, these 4 genomes encoded a variety of lignin peroxidases and carbohydrate-active enzymes (CAZymes) such as CBM1, AA9, and AA2. The analysis of gene family expansion and contraction revealed dynamic evolutionary patterns, particularly in genes related to secondary metabolite production, plant cell wall decomposition, and xenobiotic degradation. The availability of these genomes will serve as a reference for further studies of diversity and evolution of virulence factors and their roles in esca symptoms and host resistance.

Published
2024

2. A super-pangenome of the North American wild grape species.

Author

Guarracino, Andrea, Garcia, Jadran, Figueroa-Balderas, Rosa, Massonnet, Mélanie, Kasuga, Takao, Londo, Jason, Garrison, Erik, Gaut, Brandon, Cochetel, Noé, Cantu, Dario, and Minio, Andrea

Subjects
Grapevine, Pan-GWAS, Super-pangenome, Vitis genus, Wild species, Genome, Plant, Vitis, Plant Breeding, Genomics, North America
Abstract

BACKGROUND: Capturing the genetic diversity of wild relatives is crucial for improving crops because wild species are valuable sources of agronomic traits that are essential to enhance the sustainability and adaptability of domesticated cultivars. Genetic diversity across a genus can be captured in super-pangenomes, which provide a framework for interpreting genomic variations. RESULTS: Here we report the sequencing, assembly, and annotation of nine wild North American grape genomes, which are phased and scaffolded at chromosome scale. We generate a reference-unbiased super-pangenome using pairwise whole-genome alignment methods, revealing the extent of the genomic diversity among wild grape species from sequence to gene level. The pangenome graph captures genomic variation between haplotypes within a species and across the different species, and it accurately assesses the similarity of hybrids to their parents. The species selected to build the pangenome are a great representation of the genus, as illustrated by capturing known allelic variants in the sex-determining region and for Pierces disease resistance loci. Using pangenome-wide association analysis, we demonstrate the utility of the super-pangenome by effectively mapping short reads from genus-wide samples and identifying loci associated with salt tolerance in natural populations of grapes. CONCLUSIONS: This study highlights how a reference-unbiased super-pangenome can reveal the genetic basis of adaptive traits from wild relatives and accelerate crop breeding research.

Published
2023

3. Clonal reproduction of Moniliophthora roreri and the emergence of unique lineages with distinct genomes during range expansion.

Author

Figueroa-Balderas, Rosa, Cohen, Stephen, Ali, Shahin, Carriel, Denny, Britto, Dahyana, Stack, Conrad, Baruah, Indrani, Marelli, Jean-Philippe, Bailey, Bryan, Cantu, Dario, and Minio, Andrea

Subjects
Theobroma cacao, cacao frosty pod, genome evolution, mating type loci, pathogenomics, Agaricales, Basidiomycota, Reproduction, Colombia, Plant Diseases
Abstract

The basidiomycete Moniliophthora roreri causes frosty pod rot of cacao (Theobroma cacao) in the western hemisphere. Moniliophthora roreri is considered asexual and haploid throughout its hemibiotrophic life cycle. To understand the processes driving genome modification, using long-read sequencing technology, we sequenced and assembled 5 high-quality M. roreri genomes out of a collection of 99 isolates collected throughout the pathogens range. We obtained chromosome-scale assemblies composed of 11 scaffolds. We used short-read technology to sequence the genomes of 22 similarly chosen isolates. Alignments among the 5 reference assemblies revealed inversions, translocations, and duplications between and within scaffolds. Isolates at the front of the pathogens expanding range tend to share lineage-specific structural variants, as confirmed by short-read sequencing. We identified, for the first time, 3 new mating type A locus alleles (5 in total) and 1 new potential mating type B locus allele (3 in total). Currently, only 2 mating type combinations, A1B1 and A2B2, are known to exist outside of Colombia. A systematic survey of the M. roreri transcriptome across 2 isolates identified an expanded candidate effector pool and provided evidence that effector candidate genes unique to the Moniliophthoras are preferentially expressed during the biotrophic phase of disease. Notably, M. roreri isolates in Costa Rica carry a chromosome segment duplication that has doubled the associated gene complement and includes secreted proteins and candidate effectors. Clonal reproduction of the haploid M. roreri genome has allowed lineages with unique genome structures and compositions to dominate as it expands its range, displaying a significant founder effect.

Published
2023

4. Haplotype-resolved powdery mildew resistance loci reveal the impact of heterozygous structural variation on NLR genes in Muscadinia rotundifolia

Author

Massonnet, Mélanie, Vondras, Amanda M, Cochetel, Noé, Riaz, Summaira, Pap, Dániel, Minio, Andrea, Figueroa-Balderas, Rosa, Walker, Michael Andrew, and Cantu, Dario

Subjects
Genetics, 2.1 Biological and endogenous factors, Aetiology, Ascomycota, Disease Resistance, Haplotypes, Leucine, Nucleotides, Plant Diseases, Vitis, genetic resistance, haplotype phasing, nucleotide-binding leucine-rich repeat genes, genomic structural variation
Abstract

Muscadinia rotundifolia cv. Trayshed is a valuable source of resistance to grape powdery mildew. It carries 2 powdery mildew resistance-associated genetic loci, Run1.2 on chromosome 12 and Run2.2 on chromosome 18. The purpose of this study was to identify candidate resistance genes associated with each haplotype of the 2 loci. Both haplotypes of each resistance-associated locus were identified, phased, and reconstructed. Haplotype phasing allowed the identification of several structural variation events between haplotypes of both loci. Combined with a manual refinement of the gene models, we found that the heterozygous structural variants affected the gene content, with some resulting in duplicated or hemizygous nucleotide-binding leucine-rich repeat genes. Heterozygous structural variations were also found to impact the domain composition of some nucleotide-binding leucine-rich repeat proteins. By comparing the nucleotide-binding leucine-rich repeat proteins at Run1.2 and Run2.2 loci, we discovered that the 2 loci include different numbers and classes of nucleotide-binding leucine-rich repeat genes. To identify powdery mildew resistance-associated genes, we performed a gene expression profiling of the nucleotide-binding leucine-rich repeat genes at Run1.2b and Run2.2 loci with or without powdery mildew present. Several nucleotide-binding leucine-rich repeat genes were constitutively expressed, suggesting a role in powdery mildew resistance. These first complete, haplotype-resolved resistance-associated loci and the candidate nucleotide-binding leucine-rich repeat genes identified by this study are new resources that can aid the development of powdery mildew-resistant grape cultivars.

Published
2022

5. HiFi chromosome-scale diploid assemblies of the grape rootstocks 110R, Kober 5BB, and 101–14 Mgt

Author

Minio, Andrea, Cochetel, Noé, Massonnet, Mélanie, Figueroa-Balderas, Rosa, and Cantu, Dario

Subjects
Agricultural, Veterinary and Food Sciences, Biological Sciences, Genetics, Horticultural Production, Human Genome, Chromosomes, Plant, Diploidy, Plant Breeding, Vitis
Abstract

Cultivated grapevines are commonly grafted on closely related species to cope with specific biotic and abiotic stress conditions. The three North American Vitis species V. riparia, V. rupestris, and V. berlandieri, are the main species used for breeding grape rootstocks. Here, we report the diploid chromosome-scale assembly of three widely used rootstocks derived from these species: Richter 110 (110R), Kober 5BB, and 101-14 Millardet et de Grasset (Mgt). Draft genomes of the three hybrids were assembled using PacBio HiFi sequences at an average coverage of 53.1 X-fold. Using the tool suite HaploSync, we reconstructed the two sets of nineteen chromosome-scale pseudomolecules for each genome with an average haploid genome size of 494.5 Mbp. Residual haplotype switches were resolved using shared-haplotype information. These three reference genomes represent a valuable resource for studying the genetic basis of grape adaption to biotic and abiotic stresses, and designing trait-associated markers for rootstock breeding programs.

Published
2022

6. The grape powdery mildew resistance loci Ren2, Ren3, Ren4D, Ren4U, Run1, Run1.2b, Run2.1, and Run2.2 activate different transcriptional responses to Erysiphe necator

Author

Massonnet, Mélanie, Riaz, Summaira, Pap, Dániel, Figueroa-Balderas, Rosa, Walker, M Andrew, and Cantu, Dario

Subjects
Biological Sciences, Genetics, grape, genetic disease resistance, powdery mildew, comparative transcriptomics, disease evaluation, Plant Biology, Crop and pasture production, Plant biology
Abstract

Multiple grape powdery mildew (PM) genetic resistance (R) loci have been found in wild grape species. Little is known about the defense responses associated with each R locus. In this study, we compare the defense mechanisms associated with PM resistance in interspecific crosses segregating for a single R locus from Muscadinia rotundifolia (Run1, Run1.2b, Run2.1, Run2.2), Vitis cinerea (Ren2), V. romanetii (Ren4D and Ren4U), and the interspecific hybrid Villard blanc (Ren3). By combining optical microscopy, visual scoring, and biomass estimation, we show that the eight R loci confer resistance by limiting infection at different stages. We assessed the defense mechanisms triggered in response to PM at 1 and 5 days post-inoculation (dpi) via RNA sequencing. To account for the genetic differences between species, we developed for each accession a diploid synthetic reference transcriptome by incorporating into the PN40024 reference homozygous and heterozygous sequence variants and de novo assembled transcripts. Most of the R loci exhibited a higher number of differentially expressed genes (DEGs) associated with PM resistance at 1 dpi compared to 5 dpi, suggesting that PM resistance is mostly associated with an early transcriptional reprogramming. Comparison of the PM resistance-associated DEGs showed a limited overlap between pairs of R loci, and nearly half of the DEGs were specific to a single R locus. The largest overlap of PM resistance-associated DEGs was found between Ren3 +, Ren4D +, and Ren4U + genotypes at 1 dpi, and between Ren4U + and Run1 + accessions at 5 dpi. The Ren3 +, Ren4D +, and Ren4U + were also found to have the highest number of R locus-specific DEGs in response to PM. Both shared and R locus-specific DEGs included genes from different defense-related categories, indicating that the presence of E. necator triggered distinct transcriptional responses in the eight R loci.

Published
2022

8. Rootstock influences the effect of grapevine leafroll‐associated viruses on berry development and metabolism via abscisic acid signalling

Author

Vondras, Amanda M, Lerno, Larry, Massonnet, Mélanie, Minio, Andrea, Rowhani, Adib, Liang, Dingren, Garcia, Jadran, Quiroz, Daniela, Figueroa‐Balderas, Rosa, Golino, Deborah A, Ebeler, Susan E, Rwahnih, Maher Al, and Cantu, Dario

Subjects
Plant Biology, Biological Sciences, Genetics, Infection, Abscisic Acid, Fruit, Plant Diseases, Satellite Viruses, Vitis, Closteroviridae, leafroll disease, plant-virus interaction, rootstock-scion interaction, Vitis vinifera, Closteroviridae, Vitis vinifera, Microbiology, Crop and Pasture Production, Plant Biology & Botany, Evolutionary biology, Plant biology
Abstract

Grapevine leafroll-associated virus (GLRaV) infections are accompanied by symptoms influenced by host genotype, rootstock, environment, and which individual or combination of GLRaVs is present. Using a dedicated experimental vineyard, we studied the responses to GLRaVs in ripening berries from Cabernet Franc grapevines grafted to different rootstocks and with zero, one, or pairs of leafroll infection(s). RNA sequencing data were mapped to a high-quality Cabernet Franc genome reference assembled to carry out this study and integrated with hormone and metabolite abundance data. This study characterized conserved and condition-dependent responses to GLRaV infection(s). Common responses to GLRaVs were reproduced in two consecutive years and occurred in plants grafted to different rootstocks in more than one infection condition. Though different infections were inconsistently distinguishable from one another, the effects of infections in plants grafted to different rootstocks were distinct at each developmental stage. Conserved responses included the modulation of genes related to pathogen detection, abscisic acid (ABA) signalling, phenylpropanoid biosynthesis, and cytoskeleton remodelling. ABA, ABA glucose ester, ABA and hormone signalling-related gene expression, and the expression of genes in several transcription factor families differentiated the effects of GLRaVs in berries from Cabernet Franc grapevines grafted to different rootstocks. These results support that ABA participates in the shared responses to GLRaV infection and differentiates the responses observed in grapevines grafted to different rootstocks.

Published
2021

9. Transcriptomics Provides a Genetic Signature of Vineyard Site and Offers Insight into Vintage-Independent Inoculated Fermentation Outcomes

Author

Reiter, Taylor, Montpetit, Rachel, Byer, Shelby, Frias, Isadora, Leon, Esmeralda, Viano, Robert, Mcloughlin, Michael, Halligan, Thomas, Hernandez, Desmon, Figueroa-Balderas, Rosa, Cantu, Dario, Steenwerth, Kerri, Runnebaum, Ron, and Montpetit, Ben

Subjects
Human Genome, Genetics, Saccharomyces cerevisiae, fermentation, gene expression, microbiome, transcriptomics
Abstract

Ribosomal DNA amplicon sequencing of grape musts has demonstrated that microorganisms occur nonrandomly and are associated with the vineyard of origin, suggesting a role for the vineyard, grape, and wine microbiome in shaping wine fermentation outcomes. Here, ribosomal DNA amplicon sequencing from grape musts and RNA sequencing of eukaryotic transcripts from primary fermentations inoculated with the wine yeast Saccharomyces cerevisiae RC212 were used to profile fermentations from 15 vineyards in California and Oregon across two vintages. These data demonstrate that the relative abundance of fungal organisms detected by ribosomal DNA amplicon sequencing correlated with neither transcript abundance from those same organisms within the RNA sequencing data nor gene expression of the inoculated RC212 yeast strain. These data suggest that the majority of the fungi detected in must by ribosomal DNA amplicon sequencing were not active during the primary stage of these inoculated fermentations and were not a major factor in determining RC212 gene expression. However, unique genetic signatures were detected within the ribosomal DNA amplicon and eukaryotic transcriptomic sequencing that were predictive of vineyard site and region. These signatures included S. cerevisiae gene expression patterns linked to nitrogen, sulfur, and thiamine metabolism. These genetic signatures of site offer insight into specific environmental factors to consider with respect to fermentation outcomes and vineyard site and regional wine characteristics.IMPORTANCE The wine industry generates billions of dollars of revenue annually, and economic productivity is in part associated with regional distinctiveness of wine sensory attributes. Microorganisms associated with grapes and wineries are influenced by region of origin, and given that some microorganisms play a role in fermentation, it is thought that microbes may contribute to the regional distinctiveness of wine. In this work, as in previous studies, it is demonstrated that specific bacteria and fungi are associated with individual wine regions and vineyard sites. However, this work further shows that their presence is not associated with detectable fungal gene expression during the primary fermentation or the expression of specific genes by the inoculate Saccharomyces cerevisiae strain RC212. The detected RC212 gene expression signatures associated with region and vineyard site also allowed the identification of flavor-associated metabolic processes and environmental factors that could impact primary fermentation outcomes. These data offer novel insights into the complexities and subtleties of vineyard-specific inoculated wine fermentation and starting points for future investigations into factors that contribute to regional wine distinctiveness.

Published
2021

10. Diploid chromosome-scale assembly of the Muscadinia rotundifolia genome supports chromosome fusion and disease resistance gene expansion during Vitis and Muscadinia divergence.

Author

Cochetel, Noé, Minio, Andrea, Massonnet, Mélanie, Vondras, Amanda M, Figueroa-Balderas, Rosa, and Cantu, Dario

Subjects
Chromosomes, Vitis, Plant Diseases, Diploidy, Disease Resistance, Plant Breeding, Erysiphe, disease resistance, full-length cDNA sequencing, hybrid genome assembly, muscadine grapes, optical maps, powdery mildew, vitaceae evolution, Genetics, Human Genome
Abstract

Muscadinia rotundifolia, the muscadine grape, has been cultivated for centuries in the southeastern United States. M. rotundifolia is resistant to many of the pathogens that detrimentally affect Vitis vinifera, the grape species commonly used for winemaking. For this reason, M. rotundifolia is a valuable genetic resource for breeding. Single-molecule real-time reads were combined with optical maps to reconstruct the two haplotypes of each of the 20 M. rotundifolia cv. Trayshed chromosomes. The completeness and accuracy of the assembly were confirmed using a high-density linkage map. Protein-coding genes were annotated using an integrated and comprehensive approach. This included using full-length cDNA sequencing (Iso-Seq) to improve gene structure and hypothetical spliced variant predictions. Our data strongly support that Muscadinia chromosomes 7 and 20 are fused in Vitis and pinpoint the location of the fusion in Cabernet Sauvignon and PN40024 chromosome 7. Disease-related gene numbers in Trayshed and Cabernet Sauvignon were similar, but their clustering locations were different. A dramatic expansion of the Toll/Interleukin-1 Receptor-like Nucleotide-Binding Site Leucine-Rich Repeat (TIR-NBS-LRR) class was detected on Trayshed chromosome 12 at the Resistance to Uncinula necator 1 (RUN1)/Resistance to Plasmopara viticola 1 (RPV1) locus, which confers strong dominant resistance to powdery and downy mildews. A genome browser, annotation, and Blast tool for Trayshed are available at www.grapegenomics.com.

Published
2021

11. Fungal and bacterial communities of ‘Pinot noir’ must: effects of vintage, growing region, climate, and basic must chemistry

Author

Steenwerth, Kerri L, Morelan, Ian, Stahel, Ruby, Figueroa-Balderas, Rosa, Cantu, Dario, Lee, Jungmin, Runnebaum, Ron C, and Poret-Peterson, Amisha T

Subjects
Microbiology, Agricultural, Veterinary and Food Sciences, Biological Sciences, Horticultural Production, Vitis vinifera L., Environmental filtering, Distance-decay relationship, Microbiome, Wine grape, Enterobacteriaceae, Hanseniaspora uvarum, Grape must, Biogeography, Vintage, Medical and Health Sciences
Abstract

BackgroundThe geographic and temporal distributions of bacterial and fungal populations are poorly understood within the same wine grape cultivar. In this work, we describe the microbial composition from 'Pinot noir' must with respect to vintage, growing region, climate, and must chemistry across the states of California and Oregon, USA.Materials and methodsWe sampled 'Pinot noir' clone 667 clusters from 15 vineyards existing in a latitudinal gradient spanning nearly 1,200 km in California and Oregon for two vintages (2016 and 2017). Regions included five American Viticultural Areas (AVA). In order from southern California to Oregon, these AVAs were Santa Barbara, Monterey, Sonoma, Mendocino, and Willamette Valley. Uninoculated grape musts were subjected to 16S rRNA gene and ITS-1 amplicon sequencing to assess composition of microbial communities. We also measured grape maturity metrics. Finally, to describe regions by precipitation and growing degree days, we queried the Parameter-elevation Regressions on Independent Slopes Model (PRISM) spatial climate dataset.ResultsMost of the dominant bacterial taxa in must samples were in the family Enterobacteriaceae, notably the lactic acid bacteria or the acetic acid bacteria groups, but some, like the betaproteobacterial genus Massilia, belonged to groups not commonly found in grape musts. Fungal communities were dominated by Hanseniaspora uvarum (Saccharomycetaceae). We detected relationships between covariates (e.g., vintage, precipitation during the growing season, pH, titratable acidity, and total soluble solids) and bacterial genera Gluconobacter and Tatumella in the family Enterobacteraceae, Sphingomonas (Sphingomonodaceae), Lactobacillus (Lactobacillaceae), and Massilia (Oxalobacteraceae), as well as fungal genera in Hanseniaspora, Kazachstania, Lachancea, Torulaspora in the family Saccharomycetaceae, as well as Alternaria (Pleosporaceae), Erysiphe (Erysiphaceae), and Udeniomyces (Cystofilobasidiaceae). Fungal community distances were significantly correlated with geographic distances, but this was not observed for bacterial communities. Climate varied across regions and vintages, with growing season precipitation ranging from 11 mm to 285 mm and growing degree days ranging from 1,245 to 1,846.DiscussionWe determined that (1) bacterial beta diversity is structured by growing season precipitation, (2) fungal beta diversity reflects growing season precipitation and growing degree days, and (3) microbial differential abundances of specific genera vary with vintage, growing season precipitation, and fruit maturity metrics. Further, the correlation between fungal community dissimilarities and geographic distance suggests dispersal limitation and the vineyard as a source for abundant fungal taxa. Contrasting this observation, the lack of correlation between bacterial community dissimilarity and geographic distance suggests that environmental filtering is shaping these communities.

Published
2021

12. Independent Whole-Genome Duplications Define the Architecture of the Genomes of the Devastating West African Cacao Black Pod Pathogen Phytophthora megakarya and Its Close Relative Phytophthora palmivora.

Author

Morales-Cruz, Abraham, Ali, Shahin S, Minio, Andrea, Figueroa-Balderas, Rosa, García, Jadran F, Kasuga, Takao, Puig, Alina S, Marelli, Jean-Philippe, Bailey, Bryan A, and Cantu, Dario

Subjects
RxLR motif, effectors, oomycetes, plant diseases, transposable elements, whole-genome duplication, Genetics
Abstract

Phytophthora megakarya and P. palmivora are oomycete pathogens that cause black pod rot of cacao (Theobroma cacao), the most economically important disease on cacao globally. While P. palmivora is a cosmopolitan pathogen, P. megakarya, which is more aggressive on cacao than P. palmivora, has been reported only in West and Central Africa where it has been spreading and devastating cacao farms since the 1950s. In this study, we reconstructed the complete diploid genomes of multiple isolates of both species using single-molecule real-time sequencing. Thirty-one additional genotypes were sequenced to analyze inter- and intra-species genomic diversity. The P. megakarya genome is exceptionally large (222 Mbp) and nearly twice the size of P. palmivora (135 Mbp) and most known Phytophthora species (∼100 Mbp on average). Previous reports pointed toward a whole-genome duplication (WGD) in P. palmivora In this study, we demonstrate that both species underwent independent and relatively recent WGD events. In P. megakarya we identified a unique combination of WGD and large-scale transposable element driven genome expansion, which places this genome in the upper range of Phytophthora genome sizes, as well as effector pools with 1,382 predicted RxLR effectors. Finally, this study provides evidence of adaptive evolution of effectors like RxLRs and Crinklers, and discusses the implications of effector expansion and diversification.

Published
2020

13. The genetic basis of sex determination in grapes.

Author

Massonnet, Mélanie, Cochetel, Noé, Minio, Andrea, Vondras, Amanda M, Lin, Jerry, Muyle, Aline, Garcia, Jadran F, Zhou, Yongfeng, Delledonne, Massimo, Riaz, Summaira, Figueroa-Balderas, Rosa, Gaut, Brandon S, and Cantu, Dario

Abstract

It remains a major challenge to identify the genes and mutations that lead to plant sexual differentiation. Here, we study the structure and evolution of the sex-determining region (SDR) in Vitis species. We report an improved, chromosome-scale Cabernet Sauvignon genome sequence and the phased assembly of nine wild and cultivated grape genomes. By resolving twenty Vitis SDR haplotypes, we compare male, female, and hermaphrodite haplotype structures and identify sex-linked regions. Coupled with gene expression data, we identify a candidate male-sterility mutation in the VviINP1 gene and potential female-sterility function associated with the transcription factor VviYABBY3. Our data suggest that dioecy has been lost during domestication through a rare recombination event between male and female haplotypes. This work significantly advances the understanding of the genetic basis of sex determination in Vitis and provides the information necessary to rapidly identify sex types in grape breeding programs.

Published
2020

14. Regulation of monocot and dicot plant development with constitutively active alleles of phytochrome B.

Author

Hu, Wei, Figueroa-Balderas, Rosa, Chi-Ham, Cecilia, and Lagarias, J Clark

Subjects
flowering regulation, light signal transduction, photobiology, photoperiodism, phytochrome, shade avoidance
Abstract

The constitutively active missense allele of Arabidopsis phytochrome B, AtPHYBY276H or AtYHB, encodes a polypeptide that adopts a light-insensitive, physiologically active conformation capable of sustaining photomorphogenesis in darkness. Here, we show that the orthologous OsYHB allele of rice phytochrome B (OsPHYBY283H ) also encodes a dominant "constitutively active" photoreceptor through comparative phenotypic analyses of AtYHB and OsYHB transgenic lines of four eudicot species, Arabidopsis thaliana, Nicotiana tabacum (tobacco), Nicotiana sylvestris and Solanum lycopersicum cv. MicroTom (tomato), and of two monocot species, Oryza sativa ssp. japonica and Brachypodium distachyon. Reciprocal transformation experiments show that the gain-of-function constitutive photomorphogenic (cop) phenotypes by YHB expression are stronger in host plants within the same class than across classes. Our studies also reveal additional YHB-dependent traits in adult plants, which include extreme shade tolerance, both early and late flowering behaviors, delayed leaf senescence, reduced tillering, and even viviparous seed germination. However, the strength of these gain-of-function phenotypes depends on the specific combination of YHB allele and species/cultivar transformed. Flowering and tillering of OsYHB- and OsPHYB-expressing lines of rice Nipponbare and Kitaake cultivars were compared, also revealing differences in YHB/PHYB allele versus genotype interaction on the phenotypic behavior of the two rice cultivars. In view of recent evidence that the regulatory activity of AtYHB is not only light insensitive but also temperature insensitive, selective YHB expression is expected to yield improved agronomic performance of both dicot and monocot crop plant species not possible with wild-type PHYB alleles.

Published
2020

15. The genomic diversification of grapevine clones.

Author

Vondras, Amanda, Figueroa-Balderas, Rosa, Penn, Michael, Zhou, Yongfeng, Ye, Zirou, Liang, Dingren, Espinoza, Lucero, Anderson, Michael, Walker, M, Gaut, Brandon, Cantu, Dario, Blanco-Ulate, Barbara, Seymour, Danelle, and Minio, Andrea

Subjects
Clonal propagation, DNA methylation, Genome diversification, Somatic mutations, Structural variation, Transposable elements, Clonal Evolution, DNA, Intergenic, Genome, Plant, Mutation, Vitis, Whole Genome Sequencing
Abstract

BACKGROUND: Vegetatively propagated clones accumulate somatic mutations. The purpose of this study was to better appreciate clone diversity and involved defining the nature of somatic mutations throughout the genome. Fifteen Zinfandel winegrape clone genomes were sequenced and compared to one another using a highly contiguous genome reference produced from one of the clones, Zinfandel 03. RESULTS: Though most heterozygous variants were shared, somatic mutations accumulated in individual and subsets of clones. Overall, heterozygous mutations were most frequent in intergenic space and more frequent in introns than exons. A significantly larger percentage of CpG, CHG, and CHH sites in repetitive intergenic space experienced transition mutations than in genic and non-repetitive intergenic spaces, likely because of higher levels of methylation in the region and because methylated cytosines often spontaneously deaminate. Of the minority of mutations that occurred in exons, larger proportions of these were putatively deleterious when they occurred in relatively few clones. CONCLUSIONS: These data support three major conclusions. First, repetitive intergenic space is a major driver of clone genome diversification. Second, clones accumulate putatively deleterious mutations. Third, the data suggest selection against deleterious variants in coding regions or some mechanism by which mutations are less frequent in coding than noncoding regions of the genome.

Published
2019

16. Diploid Genome Assembly of the Wine Grape Carménère.

Author

Minio, Andrea, Massonnet, Mélanie, Figueroa-Balderas, Rosa, Castro, Alvaro, and Cantu, Dario

Subjects
Vitis, Gene Expression Profiling, Computational Biology, Genomics, Phylogeny, Haplotypes, Heterozygote, Diploidy, Genome, Plant, Wine, Genetic Variation, Molecular Sequence Annotation, Transcriptome, Vitis vinifera, genome assembly, haplotype phasing, heterozygosity, structural variation, Genome, Plant, Genetics
Abstract

In this genome report, we describe the sequencing and annotation of the genome of the wine grape Carménère (clone 02, VCR-702). Long considered extinct, this old French wine grape variety is now cultivated mostly in Chile where it was imported in the 1850s just before the European phylloxera epidemic. Genomic DNA was sequenced using Single Molecule Real Time technology and assembled with FALCON-Unzip, a diploid-aware assembly pipeline. To optimize the contiguity and completeness of the assembly, we tested about a thousand combinations of assembly parameters, sequencing coverage, error correction and repeat masking methods. The final scaffolds provide a complete and phased representation of the diploid genome of this wine grape. Comparison of the two haplotypes revealed numerous heterozygous variants, including loss-of-function ones, some of which in genes associated with polyphenol biosynthesis. Comparisons with other publicly available grape genomes and transcriptomes showed the impact of structural variation on gene content differences between Carménère and other wine grape cultivars. Among the putative cultivar-specific genes, we identified genes potentially involved in aroma production and stress responses. The genome assembly of Carménère expands the representation of the genomic variability in grapes and will enable studies that aim to understand its distinctive organoleptic and agronomical features and assess its still elusive extant genetic variability. A genome browser for Carménère, its annotation, and an associated blast tool are available at http://cantulab.github.io/data.

Published
2019

17. Iso-Seq Allows Genome-Independent Transcriptome Profiling of Grape Berry Development.

Author

Minio, Andrea, Massonnet, Mélanie, Figueroa-Balderas, Rosa, Vondras, Amanda M, Blanco-Ulate, Barbara, and Cantu, Dario

Subjects
Vitis, Fruit, Gene Expression Profiling, Sequence Analysis, RNA, Genomics, Gene Expression Regulation, Developmental, Gene Expression Regulation, Plant, RNA-seq, Vitis vinifera, berry ripening, transcriptome reference, Gene Expression Regulation, Developmental, Plant, Sequence Analysis, RNA, Genetics
Abstract

Transcriptomics has been widely applied to study grape berry development. With few exceptions, transcriptomic studies in grape are performed using the available genome sequence, PN40024, as reference. However, differences in gene content among grape accessions, which contribute to phenotypic differences among cultivars, suggest that a single reference genome does not represent the species' entire gene space. Though whole genome assembly and annotation can reveal the relatively unique or "private" gene space of any particular cultivar, transcriptome reconstruction is a more rapid, less costly, and less computationally intensive strategy to accomplish the same goal. In this study, we used single molecule-real time sequencing (SMRT) to sequence full-length cDNA (Iso-Seq) and reconstruct the transcriptome of Cabernet Sauvignon berries during berry ripening. In addition, short reads from ripening berries were used to error-correct low-expression isoforms and to profile isoform expression. By comparing the annotated gene space of Cabernet Sauvignon to other grape cultivars, we demonstrate that the transcriptome reference built with Iso-Seq data represents most of the expressed genes in the grape berries and includes 1,501 cultivar-specific genes. Iso-Seq produced transcriptome profiles similar to those obtained after mapping on a complete genome reference. Together, these results justify the application of Iso-Seq to identify cultivar-specific genes and build a comprehensive reference for transcriptional profiling that circumvents the necessity of a genome reference with its associated costs and computational weight.

Published
2019

18. Genome analysis of the esca-associated Basidiomycetes Fomitiporia mediterranea, Fomitiporia polymorpha, Inonotus vitis, and Tropicoporus texanus reveals virulence factor repertoires characteristic of white-rot fungi.

Author

Garcia, Jadran F, Figueroa-Balderas, Rosa, Comont, Gwenaëlle, Delmas, Chloé E L, Baumgartner, Kendra, and Cantu, Dario

Subjects
*PLANT cell walls, *LIGNIN peroxidases, *GENE families, *FUNGAL metabolism, *COMPARATIVE genomics, *GRAPE diseases & pests
Abstract

Some Basidiomycete fungi are important plant pathogens, and certain species have been associated with the grapevine trunk disease esca. We present the genomes of 4 species associated with esca: Fomitiporia mediterranea , Fomitiporia polymorpha , Tropicoporus texanus , and Inonotus vitis. We generated high-quality phased genome assemblies using long-read sequencing. The genomic and functional comparisons identified potential virulence factors, suggesting their roles in disease development. Similar to other white-rot fungi known for their ability to degrade lignocellulosic substrates, these 4 genomes encoded a variety of lignin peroxidases and carbohydrate-active enzymes (CAZymes) such as CBM1, AA9, and AA2. The analysis of gene family expansion and contraction revealed dynamic evolutionary patterns, particularly in genes related to secondary metabolite production, plant cell wall decomposition, and xenobiotic degradation. The availability of these genomes will serve as a reference for further studies of diversity and evolution of virulence factors and their roles in esca symptoms and host resistance. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

19. Profiling grapevine trunk pathogens in planta: a case for community-targeted DNA metabarcoding.

Author

Morales-Cruz, Abraham, Figueroa-Balderas, Rosa, García, Jadran F, Tran, Eric, Rolshausen, Philippe E, Baumgartner, Kendra, and Cantu, Dario

Subjects
Ascomycota, Vitis, DNA, Fungal, Mycological Typing Techniques, Plant Diseases, Metagenomics, DNA Barcoding, Taxonomic, High-Throughput Nucleotide Sequencing, Amplicon sequencing, Botryosphaeria dieback, Esca, Eutypa dieback, Grapevine trunk diseases, High-throughput DNA sequencing, Phomopsis dieback, DNA Barcoding, Taxonomic, DNA, Fungal, Biological Sciences, Agricultural and Veterinary Sciences, Medical and Health Sciences, Microbiology
Abstract

BACKGROUND:DNA metabarcoding, commonly used in exploratory microbial ecology studies, is a promising method for the simultaneous in planta-detection of multiple pathogens associated with disease complexes, such as the grapevine trunk diseases. Profiling of pathogen communities associated with grapevine trunk diseases is particularly challenging, due to the presence within an individual wood lesion of multiple co-infecting trunk pathogens and other wood-colonizing fungi, which span a broad range of taxa in the fungal kingdom. As such, we designed metabarcoding primers, using as template the ribosomal internal transcribed spacer of grapevine trunk-associated ascomycete fungi (GTAA) and compared them to two universal primer widely used in microbial ecology. RESULTS:We first performed in silico simulations and then tested the primers by high-throughput amplicon sequencing of (i) multiple combinations of mock communities, (ii) time-course experiments with controlled inoculations, and (iii) diseased field samples from vineyards under natural levels of infection. All analyses showed that GTAA had greater affinity and sensitivity, compared to those of the universal primers. Importantly, with GTAA, profiling of mock communities and comparisons with shotgun-sequencing metagenomics of field samples gave an accurate representation of genera of important trunk pathogens, namely Phaeomoniella, Phaeoacremonium, and Eutypa, the abundances of which were over- or under-estimated with universal primers. CONCLUSIONS:Overall, our findings not only demonstrate that DNA metabarcoding gives qualitatively and quantitatively accurate results when applied to grapevine trunk diseases, but also that primer customization and testing are crucial to ensure the validity of DNA metabarcoding results.

Published
2018

20. Closed‐reference metatranscriptomics enables in planta profiling of putative virulence activities in the grapevine trunk disease complex

Author

Morales‐Cruz, Abraham, Allenbeck, Gabrielle, Figueroa‐Balderas, Rosa, Ashworth, Vanessa E, Lawrence, Daniel P, Travadon, Renaud, Smith, Rhonda J, Baumgartner, Kendra, Rolshausen, Philippe E, and Cantu, Dario

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Human Genome, Genetics, 2.2 Factors relating to the physical environment, Ascomycota, High-Throughput Nucleotide Sequencing, Metagenomics, Plant Diseases, Virulence, Vitis, Botryosphaeria dieback, Esca, Eutypa dieback, metagenomics, next-generation sequencing, Phomopsis dieback, Microbiology, Plant Biology, Crop and Pasture Production, Plant Biology & Botany, Evolutionary biology, Plant biology
Abstract

Grapevines, like other perennial crops, are affected by so-called 'trunk diseases', which damage the trunk and other woody tissues. Mature grapevines typically contract more than one trunk disease and often multiple grapevine trunk pathogens (GTPs) are recovered from infected tissues. The co-existence of different GTP species in complex and dynamic microbial communities complicates the study of the molecular mechanisms underlying disease development, especially under vineyard conditions. The objective of this study was to develop and optimize a community-level transcriptomics (i.e. metatranscriptomics) approach that could monitor simultaneously the virulence activities of multiple GTPs in planta. The availability of annotated genomes for the most relevant co-infecting GTPs in diseased grapevine wood provided the unprecedented opportunity to generate a multi-species reference for the mapping and quantification of DNA and RNA sequencing reads. We first evaluated popular sequence read mappers using permutations of multiple simulated datasets. Alignment parameters of the selected mapper were optimized to increase the specificity and sensitivity for its application to metagenomics and metatranscriptomics analyses. Initial testing on grapevine wood experimentally inoculated with individual GTPs confirmed the validity of the method. Using naturally infected field samples expressing a variety of trunk disease symptoms, we show that our approach provides quantitative assessments of species composition, as well as genome-wide transcriptional profiling of potential virulence factors, namely cell wall degradation, secondary metabolism and nutrient uptake for all co-infecting GTPs.

Published
2018

21. Lipopolysaccharide O-antigen delays plant innate immune recognition of Xylella fastidiosa.

Author

Rapicavoli, Jeannette N, Blanco-Ulate, Barbara, Muszyński, Artur, Figueroa-Balderas, Rosa, Morales-Cruz, Abraham, Azadi, Parastoo, Dobruchowska, Justyna M, Castro, Claudia, Cantu, Dario, and Roper, M Caroline

Subjects
Xylella, Vitis, Lipopolysaccharides, O Antigens, Gene Expression Profiling, Plant Diseases, Gene Expression Regulation, Plant, Host-Pathogen Interactions, Immunity, Innate, Plant Immunity, Gene Expression Regulation, Plant, Immunity, Innate
Abstract

Lipopolysaccharides (LPS) are among the known pathogen-associated molecular patterns (PAMPs). LPSs are potent elicitors of PAMP-triggered immunity (PTI), and bacteria have evolved intricate mechanisms to dampen PTI. Here we demonstrate that Xylella fastidiosa (Xf), a hemibiotrophic plant pathogenic bacterium, possesses a long chain O-antigen that enables it to delay initial plant recognition, thereby allowing it to effectively skirt initial elicitation of innate immunity and establish itself in the host. Lack of the O-antigen modifies plant perception of Xf and enables elicitation of hallmarks of PTI, such as ROS production specifically in the plant xylem tissue compartment, a tissue not traditionally considered a spatial location of PTI. To explore translational applications of our findings, we demonstrate that pre-treatment of plants with Xf LPS primes grapevine defenses to confer tolerance to Xf challenge.

Published
2018

22. Condition‐dependent co‐regulation of genomic clusters of virulence factors in the grapevine trunk pathogen Neofusicoccum parvum

Author

Massonnet, Mélanie, Morales‐Cruz, Abraham, Figueroa‐Balderas, Rosa, Lawrence, Daniel P, Baumgartner, Kendra, and Cantu, Dario

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Genetics, Microbiology, Plant Biology, Biotechnology, Human Genome, Aetiology, 2.2 Factors relating to the physical environment, Infection, Ascomycota, DNA, Circular, Gene Expression Profiling, Gene Expression Regulation, Fungal, Gene Regulatory Networks, Genes, Fungal, Genome, Fungal, Molecular Sequence Annotation, Multigene Family, Plant Diseases, Plant Stems, Sequence Analysis, DNA, Sequence Analysis, RNA, Transcription, Genetic, Virulence, Virulence Factors, Vitis, Wood, Botryosphaeria dieback, CAZymes, cell wall degradation, RNA-seq, secondary metabolism, single-molecule real-time (SMRT) sequencing, weighted co-expression network analysis, Crop and Pasture Production, Plant Biology & Botany, Evolutionary biology, Plant biology
Abstract

The ascomycete Neofusicoccum parvum, one of the causal agents of Botryosphaeria dieback, is a destructive wood-infecting fungus and a serious threat to grape production worldwide. The capability to colonize woody tissue, combined with the secretion of phytotoxic compounds, is thought to underlie its pathogenicity and virulence. Here, we describe the repertoire of virulence factors and their transcriptional dynamics as the fungus feeds on different substrates and colonizes the woody stem. We assembled and annotated a highly contiguous genome using single-molecule real-time DNA sequencing. Transcriptome profiling by RNA sequencing determined the genome-wide patterns of expression of virulence factors both in vitro (potato dextrose agar or medium amended with grape wood as substrate) and in planta. Pairwise statistical testing of differential expression, followed by co-expression network analysis, revealed that physically clustered genes coding for putative virulence functions were induced depending on the substrate or stage of plant infection. Co-expressed gene clusters were significantly enriched not only in genes associated with secondary metabolism, but also in those associated with cell wall degradation, suggesting that dynamic co-regulation of transcriptional networks contributes to multiple aspects of N. parvum virulence. In most of the co-expressed clusters, all genes shared at least a common motif in their promoter region, indicative of co-regulation by the same transcription factor. Co-expression analysis also identified chromatin regulators with correlated expression with inducible clusters of virulence factors, suggesting a complex, multi-layered regulation of the virulence repertoire of N. parvum.

Published
2018

23. Whole-Genome Resequencing and Pan-Transcriptome Reconstruction Highlight the Impact of Genomic Structural Variation on Secondary Metabolite Gene Clusters in the Grapevine Esca Pathogen Phaeoacremonium minimum.

Author

Massonnet, Mélanie, Morales-Cruz, Abraham, Minio, Andrea, Figueroa-Balderas, Rosa, Lawrence, Daniel P, Travadon, Renaud, Rolshausen, Philippe E, Baumgartner, Kendra, and Cantu, Dario

Subjects
Esca, comparative genomics, intraspecific genetic diversity, pan-transcriptome, pathogenomics, secondary metabolism, structural variation, Genetics, Biotechnology, Human Genome, Aetiology, 2.1 Biological and endogenous factors, Infection, Environmental Science and Management, Soil Sciences, Microbiology
Abstract

The Ascomycete fungus Phaeoacremonium minimum is one of the primary causal agents of Esca, a widespread and damaging grapevine trunk disease. Variation in virulence among Pm. minimum isolates has been reported, but the underlying genetic basis of the phenotypic variability remains unknown. The goal of this study was to characterize intraspecific genetic diversity and explore its potential impact on virulence functions associated with secondary metabolism, cellular transport, and cell wall decomposition. We generated a chromosome-scale genome assembly, using single molecule real-time sequencing, and resequenced the genomes and transcriptomes of multiple isolates to identify sequence and structural polymorphisms. Numerous insertion and deletion events were found for a total of about 1 Mbp in each isolate. Structural variation in this extremely gene dense genome frequently caused presence/absence polymorphisms of multiple adjacent genes, mostly belonging to biosynthetic clusters associated with secondary metabolism. Because of the observed intraspecific diversity in gene content due to structural variation we concluded that a transcriptome reference developed from a single isolate is insufficient to represent the virulence factor repertoire of the species. We therefore compiled a pan-transcriptome reference of Pm. minimum comprising a non-redundant set of 15,245 protein-coding sequences. Using naturally infected field samples expressing Esca symptoms, we demonstrated that mapping of meta-transcriptomics data on a multi-species reference that included the Pm. minimum pan-transcriptome allows the profiling of an expanded set of virulence factors, including variable genes associated with secondary metabolism and cellular transport.

Published
2018

25. Red blotch disease alters grape berry development and metabolism by interfering with the transcriptional and hormonal regulation of ripening

Author

Blanco-Ulate, Barbara, Hopfer, Helene, Figueroa-Balderas, Rosa, Ye, Zirou, Rivero, Rosa M, Albacete, Alfonso, Pérez-Alfocea, Francisco, Koyama, Renata, Anderson, Michael M, Smith, Rhonda J, Ebeler, Susan E, and Cantu, Dario

Subjects
Genetics, 2.1 Biological and endogenous factors, Aetiology, Fruit, Geminiviridae, Gene Expression Profiling, Oligonucleotide Array Sequence Analysis, Plant Diseases, Vitis, Developmental regulation, metabolic flux, perennial woody crop, plant-virus interaction, secondary metabolism, veraison, viral disease, plant–virus interaction, véraison, Plant Biology, Crop and Pasture Production, Plant Biology & Botany
Abstract

Grapevine red blotch-associated virus (GRBaV) is a major threat to the wine industry in the USA. GRBaV infections (aka red blotch disease) compromise crop yield and berry chemical composition, affecting the flavor and aroma properties of must and wine. In this study, we combined genome-wide transcriptional profiling with targeted metabolite analyses and biochemical assays to characterize the impact of the disease on red-skinned berry ripening and metabolism. Using naturally infected berries collected from two vineyards, we were able to identify consistent berry responses to GRBaV across different environmental and cultural conditions. Specific alterations of both primary and secondary metabolism occurred in GRBaV-infected berries during ripening. Notably, GRBaV infections of post-véraison berries resulted in the induction of primary metabolic pathways normally associated with early berry development (e.g. thylakoid electron transfer and the Calvin cycle), while inhibiting ripening-associated pathways, such as a reduced metabolic flux in the central and peripheral phenylpropanoid pathways. We show that this metabolic reprogramming correlates with perturbations at multiple regulatory levels of berry development. Red blotch caused the abnormal expression of transcription factors (e.g. NACs, MYBs, and AP2-ERFs) and elements of the post-transcriptional machinery that function during red-skinned berry ripening. Abscisic acid, ethylene, and auxin pathways, which control both the initiation of ripening and stress responses, were also compromised. We conclude that GRBaV infections disrupt normal berry development and stress responses by altering transcription factors and hormone networks, which result in the inhibition of ripening pathways involved in the generation of color, flavor, and aroma compounds.

Published
2017

27. Phased diploid genome assembly with single-molecule real-time sequencing.

Author

Chin, Chen-Shan, Peluso, Paul, Sedlazeck, Fritz J, Nattestad, Maria, Concepcion, Gregory T, Clum, Alicia, Dunn, Christopher, O'Malley, Ronan, Figueroa-Balderas, Rosa, Morales-Cruz, Abraham, Cramer, Grant R, Delledonne, Massimo, Luo, Chongyuan, Ecker, Joseph R, Cantu, Dario, Rank, David R, and Schatz, Michael C

Subjects
Humans, Basidiomycota, Arabidopsis, Vitis, DNA, Fungal, DNA, Plant, Sequence Analysis, DNA, Genomics, Haplotypes, Heterozygote, Diploidy, Polymorphism, Single Nucleotide, Genome, Fungal, Genome, Plant, Algorithms, Biological Sciences, Technology, Medical and Health Sciences, Developmental Biology
Abstract

While genome assembly projects have been successful in many haploid and inbred species, the assembly of noninbred or rearranged heterozygous genomes remains a major challenge. To address this challenge, we introduce the open-source FALCON and FALCON-Unzip algorithms (https://github.com/PacificBiosciences/FALCON/) to assemble long-read sequencing data into highly accurate, contiguous, and correctly phased diploid genomes. We generate new reference sequences for heterozygous samples including an F1 hybrid of Arabidopsis thaliana, the widely cultivated Vitis vinifera cv. Cabernet Sauvignon, and the coral fungus Clavicorona pyxidata, samples that have challenged short-read assembly approaches. The FALCON-based assemblies are substantially more contiguous and complete than alternate short- or long-read approaches. The phased diploid assembly enabled the study of haplotype structure and heterozygosities between homologous chromosomes, including the identification of widespread heterozygous structural variation within coding sequences.

Published
2016

28. MYB24 orchestrates terpene and flavonol metabolism as light responses to anthocyanin depletion in variegated grape berries

Author

Ministerio de Ciencia, Innovación y Universidades (España), Ministerio de Ciencia e Innovación (España), European Commission, Agencia Estatal de Investigación (España), National Science Foundation (US), China Scholarship Council, Zhang, Cheng [0009-0009-4730-5040], Dai, Zhanwu [0000-0002-7625-8337], Ferrier, Thilia [0009-0000-6067-2309], Orduña, Luis [0000-0003-2756-4028], Santiago, Antonio [0000-0002-9180-3241], Peris, Arnau [0009-0002-9091-5679], Wong, Darren [0000-0001-6534-0901], Kappel, Christian [0000-0002-1450-1864], Savoi, Stefania [0000-0002-2665-223X], Loyola, Rodrigo [0000-0001-5638-0610], Amato, Alessandra [0000-0001-8178-6102], Kozak, Bartosz [0000-0001-6472-3273], Li, Miaomiao [0000-0003-2132-6168], Liang, Akun [0000-0002-0515-0484], Carrasco Gata, David [0000-0002-0551-820X], Meyer-Regueiro, Carlos [0000-0003-1724-6499], Espinoza, Carmen [0000-0003-1469-9492], Hilbert, Ghislaine [0000-0003-0279-6703], Figueroa-Balderas, Rosa [0000-0003-3321-1376], Cantu, Dario [0000-0002-4858-1508], Arroyo García, Rosa Adela [0000-0002-0597-1282], Arce-Johnson, Patricio [0000-0003-3854-1286], Claudel, Patricia [0000-0002-2760-4387], Errandonea, Daniel [0000-0003-0189-4221], Rodriguez-Concepcion, Manuel [0000-0002-1280-2305], Duchêne, Eric [0000-0003-2712-1892], Huang, Shao-Shan Carol [0000-0001-7811-0398], Castellarin, Simone Diego [0000-0001-6289-3770], Tornielli, Giovanni Battista [0000-0001-5027-0269], Barrieu, Francois [0000-0001-5735-8933], Matus, José Tomás [0000-0002-9196-1813], Zhang, Chen, Dai, Zhanwu, Ferrier, Thilia, Orduña, Luis, Santiago, Antonio, Peris, Arnau, Wong, Darren, Kappel, Christian, Savoi, Stefania, Loyola, Rodrigo, Amato, Alessandra, Kozak, Bartosz, Li, Miaomiao, Liang, Akun, Carrasco Gata, David, Meyer-Regueiro, Carlos, Espinoza, Carmen, Hilbert, Ghislaine, Figueroa-Balderas, Rosa, Cantu, Dario, Arroyo García, Rosa Adela, Arce-Johnson, Patricio, Claudel, Patricia, Errandonea, Daniel, Rodriguez-Concepcion, Manuel, Duchêne, Eric, Huang, Shao-Shan Carol, Castellarin, Simone Diego, Tornielli, Giovanni Battista, Barrieu, Francois, Matus, José Tomás, Ministerio de Ciencia, Innovación y Universidades (España), Ministerio de Ciencia e Innovación (España), European Commission, Agencia Estatal de Investigación (España), National Science Foundation (US), China Scholarship Council, Zhang, Cheng [0009-0009-4730-5040], Dai, Zhanwu [0000-0002-7625-8337], Ferrier, Thilia [0009-0000-6067-2309], Orduña, Luis [0000-0003-2756-4028], Santiago, Antonio [0000-0002-9180-3241], Peris, Arnau [0009-0002-9091-5679], Wong, Darren [0000-0001-6534-0901], Kappel, Christian [0000-0002-1450-1864], Savoi, Stefania [0000-0002-2665-223X], Loyola, Rodrigo [0000-0001-5638-0610], Amato, Alessandra [0000-0001-8178-6102], Kozak, Bartosz [0000-0001-6472-3273], Li, Miaomiao [0000-0003-2132-6168], Liang, Akun [0000-0002-0515-0484], Carrasco Gata, David [0000-0002-0551-820X], Meyer-Regueiro, Carlos [0000-0003-1724-6499], Espinoza, Carmen [0000-0003-1469-9492], Hilbert, Ghislaine [0000-0003-0279-6703], Figueroa-Balderas, Rosa [0000-0003-3321-1376], Cantu, Dario [0000-0002-4858-1508], Arroyo García, Rosa Adela [0000-0002-0597-1282], Arce-Johnson, Patricio [0000-0003-3854-1286], Claudel, Patricia [0000-0002-2760-4387], Errandonea, Daniel [0000-0003-0189-4221], Rodriguez-Concepcion, Manuel [0000-0002-1280-2305], Duchêne, Eric [0000-0003-2712-1892], Huang, Shao-Shan Carol [0000-0001-7811-0398], Castellarin, Simone Diego [0000-0001-6289-3770], Tornielli, Giovanni Battista [0000-0001-5027-0269], Barrieu, Francois [0000-0001-5735-8933], Matus, José Tomás [0000-0002-9196-1813], Zhang, Chen, Dai, Zhanwu, Ferrier, Thilia, Orduña, Luis, Santiago, Antonio, Peris, Arnau, Wong, Darren, Kappel, Christian, Savoi, Stefania, Loyola, Rodrigo, Amato, Alessandra, Kozak, Bartosz, Li, Miaomiao, Liang, Akun, Carrasco Gata, David, Meyer-Regueiro, Carlos, Espinoza, Carmen, Hilbert, Ghislaine, Figueroa-Balderas, Rosa, Cantu, Dario, Arroyo García, Rosa Adela, Arce-Johnson, Patricio, Claudel, Patricia, Errandonea, Daniel, Rodriguez-Concepcion, Manuel, Duchêne, Eric, Huang, Shao-Shan Carol, Castellarin, Simone Diego, Tornielli, Giovanni Battista, Barrieu, Francois, and Matus, José Tomás

Abstract

Variegation is a rare type of mosaicism not fully studied in plants, especially fruits. We examined red and white sections of grape (Vitis vinifera cv. 'Béquignol') variegated berries and found that accumulation of products from branches of the phenylpropanoid and isoprenoid pathways showed an opposite tendency. Light-responsive flavonol and monoterpene levels increased in anthocyanin-depleted areas in correlation with increasing MYB24 expression. Cistrome analysis suggested that MYB24 binds to the promoters of 22 terpene synthase (TPS) genes, as well as 32 photosynthesis/light-related genes, including carotenoid pathway members, the flavonol regulator HY5 HOMOLOGUE (HYH), and other radiation response genes. Indeed, TPS35, TPS09, the carotenoid isomerase gene CRTISO2, and HYH were activated in the presence of MYB24 and MYC2. We suggest that MYB24 modulates ultraviolet and high-intensity visible light stress responses that include terpene and flavonol synthesis and potentially affects carotenoids. The MYB24 regulatory network is developmentally triggered after the onset of berry ripening, while the absence of anthocyanin sunscreens accelerates its activation, likely in a dose-dependent manner due to increased radiation exposure. Anthocyanins and flavonols in variegated berry skins act as effective sunscreens but for different wavelength ranges. The expression patterns of stress marker genes in red and white sections of 'Béquignol' berries strongly suggest that MYB24 promotes light stress amelioration but only partly succeeds during late ripening.

Published
2023

29. Comparative transcriptomics of Central Asian Vitis vinifera accessions reveals distinct defense strategies against powdery mildew

Author

Amrine, Katherine CH, Blanco-Ulate, Barbara, Riaz, Summaira, Pap, Dániel, Jones, Laura, Figueroa-Balderas, Rosa, Walker, M Andrew, and Cantu, Dario

Subjects
Antimicrobial Resistance, Infectious Diseases, Genetics
Abstract

Grape powdery mildew (PM), caused by the biotrophic ascomycete Erysiphe necator, is a devastating fungal disease that affects most Vitis vinifera cultivars. We have previously identified a panel of V. vinifera accessions from Central Asia with partial resistance to PM that possess a Ren1-like local haplotype. In this study, we show that in addition to the typical Ren1-associated late post-penetration resistance, these accessions display a range of different levels of disease development suggesting that alternative alleles or additional genes contribute to determining the outcome of the interaction with the pathogen. To identify potential Ren1-dependent transcriptional responses and functions associated with the different levels of resistance, we sequenced and analyzed the transcriptomes of these Central Asian accessions at two time points of PM infection. Transcriptomes were compared to identify constitutive differences and PM-inducible responses that may underlie their disease resistant phenotype. Responses to E. necator in all resistant accessions were characterized by an early up-regulation of 13 genes, most encoding putative defense functions, and a late down-regulation of 32 genes, enriched in transcriptional regulators and protein kinases. Potential Ren1-dependent responses included a hotspot of co-regulated genes on chromosome 18. We also identified 81 genes whose expression levels and dynamics correlated with the phenotypic differences between the most resistant accessions 'Karadzhandahal', DVIT3351.27, and O34-16 and the other genotypes. This study provides a first exploration of the functions associated with varying levels of partial resistance to PM in V. vinifera accessions that can be exploited as sources of genetic resistance in grape breeding programs.

Published
2015

32. MYB24 orchestrates terpene and flavonol metabolism as light responses to anthocyanin depletion in variegated grape berries

Author

Zhang, Chen, primary, Dai, Zhanwu, additional, Ferrier, Thilia, additional, Orduña, Luis, additional, Santiago, Antonio, additional, Peris, Arnau, additional, Wong, Darren C J, additional, Kappel, Christian, additional, Savoi, Stefania, additional, Loyola, Rodrigo, additional, Amato, Alessandra, additional, Kozak, Bartosz, additional, Li, Miaomiao, additional, Liang, Akun, additional, Carrasco, David, additional, Meyer-Regueiro, Carlos, additional, Espinoza, Carmen, additional, Hilbert, Ghislaine, additional, Figueroa-Balderas, Rosa, additional, Cantu, Dario, additional, Arroyo-Garcia, Rosa, additional, Arce-Johnson, Patricio, additional, Claudel, Patricia, additional, Errandonea, Daniel, additional, Rodríguez-Concepción, Manuel, additional, Duchêne, Eric, additional, Huang, Shao-shan Carol, additional, Castellarin, Simone Diego, additional, Tornielli, Giovanni Battista, additional, Barrieu, Francois, additional, and Matus, José Tomás, additional

Published
2023
Full Text
View/download PDF

33. A super-pangenome of the North American wild grape species

Author

Cochetel, Noé, primary, Minio, Andrea, additional, Guarracino, Andrea, additional, Garcia, Jadran F., additional, Figueroa-Balderas, Rosa, additional, Massonnet, Mélanie, additional, Kasuga, Takao, additional, Londo, Jason, additional, Garrison, Erik, additional, Gaut, Brandon, additional, and Cantu, Dario, additional

Published
2023
Full Text
View/download PDF

34. Clonal reproduction of Moniliophthora roreri and the emergence of unique lineages with distinct genomes during range expansion

Author

Minio, Andrea, primary, Figueroa-Balderas, Rosa, additional, Cohen, Stephen P, additional, Ali, Shahin S, additional, Carriel, Denny, additional, Britto, Dahyana, additional, Stack, Conrad, additional, Baruah, Indrani K, additional, Marelli, Jean-Philippe, additional, Cantu, Dario, additional, and Bailey, Bryan A, additional

Published
2023
Full Text
View/download PDF

36. Supplemental Material for Minio et al., 2023

Author

Minio, Andrea, Figueroa-Balderas, Rosa, Cohen, Stephen P., Ali, Shahin S., Carriel, Denny, Britto, Dahyana, Stack, Conrad, Baruah, Indrani K., Marelli, Jean-Philippe, Cantu, Dario, and Bailey, Bryan A.

Subjects
Genomics
Abstract

Supplemental Figure 1 contains the variant distribution across the five M. roreri SMRT-reads assemblies, Supplemental Figure 2 contains the phylogeny between M. roreri isolates based on shared structural variants, Supplemental Figure 3contains the breakdown of non-single copy genes shared between the different isolates, Supplemental Figure 4 contains the shared orthogroups between the 22 M. roreri isolates, Supplemental Figure 5 contains the counts of genes affected by variants categorized by gene function, Supplemental Figure 6 contains the function distribution of the genes affected by SNPs and structural variants in MrC26, Supplemental Table 1 contains the geographic origin of the Moniliophthora roreri isolates used in this study, Supplemental Table 2 contains the complete statistics for the assembly results, Supplemental Table 3 reports the genomes assembly completeness assessment, Supplemental Table 4 reports the results of the RNAseq and differential expression analysis, Supplemental Table 5 reports the count and expression analysis results for the secretome genes, Supplemental Table 6 contains the secretome gene cluster analysis results.

Published
2023
Full Text
View/download PDF

40. "Uniform ripening" Encodes a "Golden 2-like" Transcription Factor Regulating Tomato Fruit Chloroplast Development

Author

Powell, Ann L. T., Nguyen, Cuong V., Hill, Theresa, Cheng, KaLai Lam, Figueroa-Balderas, Rosa, Aktas, Hakan, Ashrafi, Hamid, Pons, Clara, Fernández-Muñoz, Rafael, Vicente, Ariel, Lopez-Baltazar, Javier, Barry, Cornelius S., Liu, Yongsheng, Chetelat, Roger, Granell, Antonio, Van Deynze, Allen, Giovannoni, James J., and Bennett, Alan B.

Published
2012
Full Text
View/download PDF

43. Glutathione S-transferase: a candidate gene for berry color in muscadine grapes (Vitis rotundifolia)

Author

Varanasi, Aruna, primary, Worthington, Margaret, additional, Nelson, Lacy, additional, Brown, Autumn, additional, Chizk, Thomas Mason, additional, Threlfall, Renee, additional, Howard, Luke, additional, Conner, Patrick, additional, Figueroa-Balderas, Rosa, additional, Massonnet, Mélanie, additional, Cantu, Dario, additional, and Clark, John R, additional

Published
2022
Full Text
View/download PDF

45. The grape MYB24 mediates the coordination of light-induced terpene and flavonol accumulation in response to berry anthocyanin sunscreen depletion

Author

Zhang Chen, Dai Zhanwu, Ferrier Thilia, Orduña Luis, Santiago Antonio, Peris Arnau, Wong Darren, Kappel Christian, Savoi Stefania, Loyola Rodrigo, Amato Alessandra, Kozak Bartosz, Li Miaomiao, Carrasco David, Meyer Carlos, Espinoza Carmen, Hilbert Ghislaine, Figueroa-Balderas Rosa, Cantu Dario, Arroyo Rosa, Arce-Johnson Patricio, Claudel Patricia, Duchêne Eric, Huang Shao-shan Carol, Castellarin Simone Diego, Tornielli Giovanni Battista, Barrieu Francois, and Matus J. Tomás

Subjects
food and beverages
Abstract

The presence of naturally-occurring color mutants in plants has permitted the identification of many regulatory genes implicated in the synthesis of discrete metabolic compounds, mostly anthocyanins and carotenoids. Conversely, transcription factors that coordinate more than one specialized metabolic pathway seem challenging to screen from a forward genetics’ perspective. We explored the relationship between different branches of the phenylpropanoid and isoprenoid pathways while examining an infrequent berry skin color variegation in grapevine. Red and white berry skin sections were compared at the genetic, transcriptomic and metabolomic levels showing that, as in most cultivated white grape varieties, the uncolored skin section convened the non-functional alleles of the anthocyanin regulators MYBA1 and MYBA2, explaining the lack of pigments. In contrast, light-responsive flavonols and monoterpenes increased in anthocyanin-depleted areas. We disclosed an enrichment of the flavonol, terpene and carotenoid pathways among up-regulated genes from white-skin sections, accompanied by increased expressions of flavonol regulators and the still uncharacterized MYB24 gene. We used DAP-seq to examine the in vitro binding of affinity-purified MYB24 protein to genomic DNA and demonstrated its binding in the promoter regions of terpene (22) and carotenoid (6) genes, in addition to more than 30 photosynthesis and light-response genes, including the flavonol-regulator HY5 homologue (HYH). We confirmed the activation of TPS35 and HYH promoter:luciferase reporters in the presence of MYB24 and the grape bHLH MYC2, all of which correlate in their higher expression in white skin variegated sections. The integration of several datasets allowed to define a list of high confidence targets, suggesting MYB24 as a modulator of light responses including the synthesis of flavonoids (flavonols) and isoprenoids (terpenes, and putatively carotenoids). The correspondence between MYB24 and monoterpenes in all conditions surveyed implies that this regulatory network is broadly triggered towards berry ripening, and that the absence of anthocyanin sunscreens accelerates its activation most likely in a dose-dependent manner due to increased radiation exposure.

Published
2021
Full Text
View/download PDF

47. Rootstocks influence the response of ripening grape berries to leafroll associated viruses

Author

Vondras, Amanda M., primary, Lerno, Larry, additional, Massonnet, Mélanie, additional, Minio, Andrea, additional, Rowhani, Adib, additional, Liang, Dingren, additional, Garcia, Jadran, additional, Quiroz, Daniela, additional, Figueroa-Balderas, Rosa, additional, Golino, Deborah A., additional, Ebeler, Susan E., additional, Al Rwahnih, Maher, additional, and Cantu, Dario, additional

Published
2021
Full Text
View/download PDF

50. Transcriptomics provides a genetic signature of vineyard site with insight into vintage-independent regional wine characteristics

Author

Reiter, Taylor, primary, Montpetit, Rachel, additional, Byer, Shelby, additional, Frias, Isadora, additional, Leon, Esmeralda, additional, Viano, Robert, additional, Mcloughlin, Michael, additional, Halligan, Thomas, additional, Hernandez, Desmon, additional, Figueroa-Balderas, Rosa, additional, Cantu, Dario, additional, Steenwerth, Kerri, additional, Runnebaum, Ron, additional, and Montpetit, Ben, additional

Published
2021
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results