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2. Assembly and analysis of the genome of Notholithocarpus densiflorus.

Author

Cai, Ying, Anderson, Ellis, Xue, Wen, Wong, Sylvia, Cui, Luman, Cheng, Xiaofang, Wang, Ou, Mao, Qing, Liu, Sophie, Davis, John, Magalang, Paulo, Schmidt, Douglas, Kasuga, Takao, Garbelotto, Matteo, Drmanac, Radoje, Kua, Chai-Shian, Cannon, Charles, Peters, Brock, and Maloof, Julin

Subjects
SOD, cobarcoding, stLFR, tanoak, Genome, Plant, Fagaceae, Phylogeny, Molecular Sequence Annotation, Genomics, Polymorphism, Single Nucleotide
Abstract

Tanoak (Notholithocarpus densiflorus) is an evergreen tree in the Fagaceae family found in California and southern Oregon. Historically, tanoak acorns were an important food source for Native American tribes, and the bark was used extensively in the leather tanning process. Long considered a disjunct relictual element of the Asian stone oaks (Lithocarpus spp.), phylogenetic analysis has determined that the tanoak is an example of convergent evolution. Tanoaks are deeply divergent from oaks (Quercus) of the Pacific Northwest and comprise a new genus with a single species. These trees are highly susceptible to sudden oak death (SOD), a plant pathogen (Phytophthora ramorum) that has caused widespread deaths of tanoaks. In this study, we set out to assemble the genome and perform comparative studies among a number of individuals that demonstrated varying levels of susceptibility to SOD. First, we sequenced and de novo assembled a draft reference genome of N. densiflorus using cobarcoded library processing methods and an MGI DNBSEQ-G400 sequencer. To increase the contiguity of the final assembly, we also sequenced Oxford Nanopore long reads to 30× coverage. To our knowledge, the draft genome reported here is one of the more contiguous and complete genomes of a tree species published to date, with a contig N50 of ∼1.2 Mb, a scaffold N50 of ∼2.1 Mb, and a complete gene score of 95.5% through BUSCO analysis. In addition, we sequenced 11 genetically distinct individuals and mapped these onto the draft reference genome, enabling the discovery of almost 25 million single nucleotide polymorphisms and ∼4.4 million small insertions and deletions. Finally, using cobarcoded data, we were able to generate a complete haplotype coverage of all 11 genomes.

Published
2024

9. The Epidemiology of Sudden Oak Death Disease Caused by Phytophthora ramorum in a Mixed Bay Laurel-Oak Woodland Provides Important Clues for Disease Management.

Author

Kozanitas, Melina, Metz, Margaret, Osmundson, Todd, Serrano, Maria, and Garbelotto, Matteo

Subjects
Quercus agrifolia, Umbellularia californica, biological invasions, disease ecology, refugial host, superspreader
Abstract

Epidemiological models are important for the understanding of disease progression in plants and for the design of control strategies. Phytophthora ramorum, the pathogen responsible for the disease known as Sudden Oak Death, causes lethal infection on several oaks but relies on California bay laurels for transmission. Here, repeated surveys of bay laurels and oaks indicated that bay laurel disease incidence was positively correlated with rainfall, bay laurel density, and an eastern aspect, and negatively correlated with bay laurel basal area. Oak infection only occurred in years when rainfall was higher than the 30-year average, and although infection rates were greater among larger trees, mortality was greater among smaller trees. Additionally, larger oaks closer to infected bay laurels exhibited greater infection rates. Disease incidence differed among sites, and only a fraction of bay laurels were disease superspreaders, while even fewer individuals were refugial trees harboring active infections during dry periods. Based on this study, reducing bay laurel density in denser stands and the number of superspreaders or refugial trees in less dense stands may reduce disease incidence. However, the selective removal of bay laurel trees 0-10 m from oaks is likely to be more effective in preventing infection of specific oaks.

Published
2022

10. Efficacy of Chemical and Biological Stump Treatments for the Control of Heterobasidion occidentale Infection of California Abies concolor.

Author

Poloni, Adrian, Garbelotto, Matteo, Lee, Christopher, and Cobb, Richard

Subjects
California, Heterobasidion root disease, Phlebiopsis gigantea, bark beetle, white fir
Abstract

We conducted an experimental evaluation of treatments to limit Heterobasidion occidentale infection of white fir (Abies concolor) stumps and wounds in California mixed conifer forests. We tested the efficacy of urea, borate, and a mixture of two locally collected Phlebiopsis gigantea strains in preventing pathogen colonization of fir stumps and separately, urea and borate as infection controls on experimental stem wounds. These were paired with a laboratory test on ~100 g wood blocks with and without a one-week delay between inoculation and treatment. Urea, borates, and Phlebiopsis treatments all significantly reduced the stump surface area that was colonized by H. occidentale at 84%, 91%, and 68%, respectively, relative to the controls. However, only the borate treatments significantly lowered the number of stumps that were infected by the pathogen. The laboratory study matched the patterns that were found in the stump experiment with a reduced area of colonization for urea, borates, or P. gigantea treatments relative to the controls; delaying the treatment did not affect efficacy. The field wound experiment did not result in any Heterobasidion colonization, even in positive control treatments, rendering the experiment uninformative. Our study suggests treatments that are known to limit Heterobasidion establishment on pine or spruce stumps elsewhere in the world may also be effective on true firs in California.

Published
2021

11. Innate Resistance and Phosphite Treatment Affect Both the Pathogens and Hosts Transcriptomes in the Tanoak-Phytophthora ramorum Pathosystem.

Author

Kasuga, Takao, Hayden, Katherine, Eyre, Catherine, Croucher, Peter, Schechter, Shannon, Wright, Jessica, and Garbelotto, Matteo

Subjects
Notholithocarpus densiflorus, Sudden Oak Death (SOD), gene set enrichment analysis (GSEA), in planta RNA-Seq, phosphonate, plant defense
Abstract

Phosphites have been used to control Sudden Oak Death; however, their precise mode of action is not fully understood. To study the mechanism of action of phosphites, we conducted an inoculation experiment on two open-pollinated tanoak families, previously found to be partially resistant. Stems of treatment group individuals were sprayed with phosphite, and seven days later, distal leaves were inoculated with the Sudden Oak Death pathogen Phytophthora ramorum. Leaves from treated and untreated control plants were harvested before and seven days after inoculation, and transcriptomes of both host and pathogen were analyzed. We found that tanoak families differed in the presence of innate resistance (resistance displayed by untreated tanoak) and in the response to phosphite treatment. A set of expressed genes associated with innate resistance was found to overlap with an expressed gene set for phosphite-induced resistance. This observation may indicate that phosphite treatment increases the resistance of susceptible host plants. In addition, genes of the pathogen involved in detoxification were upregulated in phosphite-treated plants compared to phosphite-untreated plants. In summary, our RNA-Seq analysis supports a two-fold mode of action of phosphites, including a direct toxic effect on P. ramorum and an indirect enhancement of resistance in the tanoak host.

Published
2021

12. Asexual Evolution and Forest Conditions Drive Genetic Parallelism in Phytophthora ramorum.

Author

Yuzon, Jennifer David, Travadon, Renaud, Malar C, Mathu, Tripathy, Sucheta, Rank, Nathan, Mehl, Heather K, Rizzo, David M, Cobb, Richard, Small, Corinn, Tang, Tiffany, McCown, Haley E, Garbelotto, Matteo, and Kasuga, Takao

Subjects
Phytophthora ramorum, Structural Variants, asexual reproduction, forest pathology, parallel evolution
Abstract

It is commonly assumed that asexual lineages are short-lived evolutionarily, yet many asexual organisms can generate genetic and phenotypic variation, providing an avenue for further evolution. Previous work on the asexual plant pathogen Phytophthora ramorum NA1 revealed considerable genetic variation in the form of Structural Variants (SVs). To better understand how SVs arise and their significance to the California NA1 population, we studied the evolutionary histories of SVs and the forest conditions associated with their emergence. Ancestral state reconstruction suggests that SVs arose by somatic mutations among multiple independent lineages, rather than by recombination. We asked if this unusual phenomenon of parallel evolution between isolated populations is transmitted to extant lineages and found that SVs persist longer in a population if their genetic background had a lower mutation load. Genetic parallelism was also found in geographically distant demes where forest conditions such as host density, solar radiation, and temperature, were similar. Parallel SVs overlap with genes involved in pathogenicity such as RXLRs and have the potential to change the course of an epidemic. By combining genomics and environmental data, we identified an unexpected pattern of repeated evolution in an asexual population and identified environmental factors potentially driving this phenomenon.

Published
2020

14. Molecular analyses identify hybridization-mediated nuclear evolution in newly discovered fungal hybrids.

Author

Sillo, Fabiano, Gonthier, Paolo, Lockman, Blakey, Kasuga, Takao, and Garbelotto, Matteo

Subjects
Heterobasidion, forest pathogen, hybridization, rapid evolution
Abstract

Hybridization may be a major driver in the evolution of plant pathogens. In a high elevation Alpine larch stand in Montana, a novel hybrid fungal pathogen of trees originating from the mating of Heterobasidion irregulare with H. occidentale has been recently discovered. In this study, sequence analyses of one mitochondrial and four nuclear loci from 11 Heterobasidion genotypes collected in the same Alpine larch stand indicated that hybridization has increased allelic diversity by generating novel polymorphisms unreported in either parental species. Sequence data and ploidy analysis through flow cytometry confirmed that heterokaryotic (n + n) genotypes were not first-generation hybrids, but were the result of multiple backcrosses, indicating hybrids are fertile. Additionally, all admixed genotypes possessed the H. occidentale mitochondrion, indicating that the hybrid progeny may have been backcrossing mostly with H. occidentale. Based on reticulate phylogenetic network analysis by PhyloNet, Bayesian assignment, and ordination tests, alleles can be defined as H. irregulare-like or H. occidentale-like. H. irregulare-like alleles are clearly distinct from all known H. irregulare alleles and are derived from the admixing of both Heterobasidion species. Instead, all but one H. occidentale alleles found in hybrids, although novel, were not clearly distinct from alleles found in the parental H. occidentale population. This discovery demonstrates that Alpine larch can be a universal host favouring the interspecific hybridization between H. irregulare and H. occidentale and the hybridization-mediated evolution of a nucleus, derived from H. irregulare parental species but clearly distinct from it.

Published
2019

15. Letter to the editor

Author

Matsuoka, Gary and Garbelotto, Matteo

Subjects
nursery stock, Phytophthora
Abstract

Re: Soil- and waterborne Phytophthora species linked to recent outbreaks in Northern California restoration sites by Matteo M. Garbelotto, et al. (vol. 72, no. 4, October–December 2018)I am curious if any researcher has linked the inadvertent introduction of Phytophthora to restoration areas to the current practice of using dead plant tissue (compost) as part of the growing media.

Published
2019

16. New Taxon-Specific Heterobasidion PCR Primers Detect and Differentiate North American Heterobasidion spp. in Various Substrates and Led to the Discovery of Heterobasidion irregulare in British Columbia, Canada

Author

Shamoun, Simon Francis, Hammett, Craig, Sumampong, Grace, Li, Xiang, and Garbelotto, Matteo

Subjects
Plant Biology, Biological Sciences, elongation factor 1 alpha, glyceraldehyde 3-phosphate dehydrogenase, Heterobasidion species, molecular identification, phytosanitary, wood products trade, Immunology, Medical Microbiology, Microbiology, Medical microbiology
Abstract

Heterobasidion annosum sensu lato is a species complex of pathogenic white-rot wood decay fungi which cause root and butt rot in conifer and hardwood species across the Northern hemisphere. Annual losses to forest managers are valued in the billions of dollars, due to tree mortality, reduction in timber yield, and wood decay. In North America, H. irregulare and H. occidentale have a partially overlapping host and geographic range, cause similar disease symptoms and produce similar fruiting bodies, making discrimination between the two of them often difficult. We developed two sets of primers that bind specifically to conserved, but species-specific portions of glyceraldehyde 3-phosphate dehydrogenase and elongation factor 1α alleles. The method is sensitive enough to detect either species from infected wood. Analysis of North American isolates has further clarified the distribution of both species on this continent, including the detection of H. irregulare for the first time on ponderosa pine (Pinus ponderosa) and eastern white pine (Pinus strobus) in British Columbia. This method has the potential to be a valuable tool for the detection of the pathogen in exported/imported wood products, as well as for the further identification and assessment of the distribution of North American Heterobasidion species.

Published
2019

17. Climatic variability, spatial heterogeneity and the presence of multiple hosts drive the population structure of the pathogen Phytophthora ramorum and the epidemiology of Sudden Oak Death.

Author

Kozanitas, Melina, Knaus, Brian J., Tabima, Javier F., Grünwald, Niklaus J., and Garbelotto, Matteo

Subjects
PLANT epidemiology, POPULATION genetics, INFECTIOUS disease transmission, SUDDEN death, MICROEVOLUTION
Abstract

We implement a population genetics approach to clarify the role that temporal and environmental variability, spatially distinct locations and different hosts may have in the epidemiology of a plant disease and in the microevolution of its causative pathogen. In California and southern Oregon (USA), the introduction of the invasive pathogen Phytophthora ramorum, causal agent of the widespread disease Sudden Oak Death (SOD), has resulted in extensive mortality of various oaks Quercus sp. and of tanoak Notholithocarpus densiflorus. Although the disease can infect over a hundred hosts, California bay laurel Umbellularia californica is the most competent transmissive host but is not lethally affected by the disease. Using population genetics data, we identify the relationship among P. ramorum populations in bay laurels, oaks and tanoaks to clarify the contribution of each host on the epidemiology of SOD and on the microevolution of its causal agent and to explore differences in population structure across sites and years. We conclude that bay laurel is the primary source for infections of both tanoak and oak, and that tanoak contributes minimally to oak infection but can infect bay laurel, creating a secondary pathogen amplification process. Overall, pathogen diversity is associated with rainfall and presence of bay laurels, which sustain the largest populations of the pathogen. Additionally, we clarify that while bay laurels are a common source of inoculum, oaks and tanoaks act as sinks that maintain host‐specific pathogen genotypes not observed in bay laurel populations. Finally, we conclude that different sites support a dominance of different pathogen genotypes. Some genotypes were widespread, while others were limited to a subset of the plots. Sites with higher bay laurel densities sustained a higher genotypic diversity of the pathogen. This work provides novel insight into the ecology and evolutionary trajectories of SOD epidemics in natural ecosystems. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Characterization of phenotypic variation and genome aberrations observed among Phytophthora ramorum isolates from diverse hosts

Author

Elliott, Marianne, Yuzon, Jennifer, C, Mathu Malar, Tripathy, Sucheta, Bui, Mai, Chastagner, Gary A, Coats, Katie, Rizzo, David M, Garbelotto, Matteo, and Kasuga, Takao

Subjects
Microbiology, Plant Biology, Biological Sciences, Chromosome Aberrations, DNA Copy Number Variations, Genomics, Haplotypes, Host-Parasite Interactions, Phenotype, Phytophthora, Umbellularia, Invasive pathogens, Aneuploidy, Transposable elements, Loss of heterozygosity, Information and Computing Sciences, Medical and Health Sciences, Bioinformatics, Biological sciences, Biomedical and clinical sciences
Abstract

BACKGROUND:Accumulating evidence suggests that genome plasticity allows filamentous plant pathogens to adapt to changing environments. Recently, the generalist plant pathogen Phytophthora ramorum has been documented to undergo irreversible phenotypic alterations accompanied by chromosomal aberrations when infecting trunks of mature oak trees (genus Quercus). In contrast, genomes and phenotypes of the pathogen derived from the foliage of California bay (Umbellularia californica) are usually stable. We define this phenomenon as host-induced phenotypic diversification (HIPD). P. ramorum also causes a severe foliar blight in some ornamental plants such as Rhododendron spp. and Viburnum spp., and isolates from these hosts occasionally show phenotypes resembling those from oak trunks that carry chromosomal aberrations. The aim of this study was to investigate variations in phenotypes and genomes of P. ramorum isolates from non-oak hosts and substrates to determine whether HIPD changes may be equivalent to those among isolates from oaks. RESULTS:We analyzed genomes of diverse non-oak isolates including those taken from foliage of Rhododendron and other ornamental plants, as well as from natural host species, soil, and water. Isolates recovered from artificially inoculated oak logs were also examined. We identified diverse chromosomal aberrations including copy neutral loss of heterozygosity (cnLOH) and aneuploidy in isolates from non-oak hosts. Most identified aberrations in non-oak hosts were also common among oak isolates; however, trisomy, a frequent type of chromosomal aberration in oak isolates was not observed in isolates from Rhododendron. CONCLUSION:This work cross-examined phenotypic variation and chromosomal aberrations in P. ramorum isolates from oak and non-oak hosts and substrates. The results suggest that HIPD comparable to that occurring in oak hosts occurs in non-oak environments such as in Rhododendron leaves. Rhododendron leaves are more easily available than mature oak stems and thus can potentially serve as a model host for the investigation of HIPD, the newly described plant-pathogen interaction.

Published
2018

19. Mitonuclear interactions may contribute to fitness of fungal hybrids.

Author

Giordano, Luana, Sillo, Fabiano, Garbelotto, Matteo, and Gonthier, Paolo

Subjects
Adaptation, Biological, Basidiomycota, DNA, Mitochondrial, Genetic Fitness, Hybrid Vigor, Recombination, Genetic
Abstract

Hybridization between species is being recognized as a major force in the rapid adaptive evolution of fungal plant pathogens. The first stages of interspecific hybridization necessarily involve nuclear-mitochondrial chimeras. In their 2001 publication, Olson and Stenlid reported that mitochondria control the virulence of first generation hybrids between the North American fungal pathogen Heterobasidion irregulare and its congeneric H. occidentale. By assessing saprobic ability and gene expression of H. irregulare × H. annosum sensu stricto hybrids and of their parental genotypes, we demonstrate that mitochondria also influence saprobic growth of hybrids. Moreover, gene expression data suggest that fungal fitness is modulated by an intimate interplay between nuclear genes and mitochondrial type, and is dependent on the specific mitonuclear combination.

Published
2018

20. Evidence for rapid adaptive evolution of tolerance to chemical treatments in Phytophthora species and its practical implications.

Author

Hunter, Shannon, Williams, Nari, McDougal, Rebecca, Scott, Peter, and Garbelotto, Matteo

Subjects
Genetic Variation, Genotype, Phosphites, Phylogeny, Phytophthora, Plant Diseases, Selection, Genetic
Abstract

Chemical treatments are used widely in agricultural and natural settings to protect plants from diseases; however, they may exert an important selection pressure on plant pathogens, promoting the development of tolerant isolates through adaptive evolution. Phosphite is used to manage diseases caused by Phytophthora species which include a large number of the most economically damaging plant pathogens worldwide. Phosphite controls the growth of Phytophthora species in planta without killing it; as a result, isolates can develop tolerance to phosphite after prolonged exposure. We investigated the inter- and intra-specific variability in phosphite tolerance of eleven Phytophthora species, including P. ramorum, an internationally important, highly regulated pathogen. Phytophthora ramorum is a good model system because it is comprised of multiple genetically homogeneous lineages. Seven species were found to be consistently sensitive to phosphite based on the low Effective Concentration (EC) 50 values of all isolates tested (amount of phosphite required to inhibit mycelial growth by 50% relative to growth in the absence of phosphite). However, P. ramorum, P. lateralis, P. crassamura and P. cambivora showed intraspecific variability in sensitivity to phosphite, with at least one isolate showing significantly higher tolerance than the other isolates. Within the three P. ramorum evolutionarily divergent lineages tested, NA1 was the most susceptible to phosphite, the NA1 and EU1 lineages showed intralineage variability and the NA2 lineage showed a decreased sensitivity to phosphite overall as all isolates were relatively tolerant. This finding is relevant because NA1 is dominant in the wild and can be controlled using phosphite, while the EU1 lineage has recently been identified in the wild and is phosphite-tolerant, making the treatment approach potentially less effective. Phytophthora ramorum, P. lateralis and P. crassamura are either selfing, homothallic species, or are known to reproduce exclusively clonally, indicating tolerance to phosphite can emerge even in the absence of sexual recombination.

Published
2018

21. Soil- and waterborne Phytophthora species linked to recent outbreaks in Northern California restoration sites

Author

Garbelotto, Matteo M, Frankel, Susan J, and Scanu, Bruno

Subjects
ecological restoration, nursery stock, Phytophthora
Abstract

Many studies around the globe have identified plant production facilities as major sources of plant pathogens that may be released in the wild, with significant consequences for the health and integrity of natural ecosystems. Recently, a large number of soilborne and waterborne species belonging to the plant pathogenic genus Phytophthora have been identified for the first time in California native plant production facilities, including those focused on the production of plant stock used in ecological restoration efforts. Additionally, the same Phytophthora species present in production facilities have often been identified in failing restoration projects, further endangering plant species already threatened or endangered. To our knowledge, the identification of Phytophthora species in restoration areas and in plant production facilities that produce plant stock for restoration projects is a novel discovery that finds many land managers unprepared, due to a lack of previous experience with these pathogens. This review summarizes some of the key knowledge about the genus Phytophthora in general and lists some of the many soilborne and waterborne species recently recovered from some California restoration sites and plant production facilities.

Published
2018

25. Contributors

Author

Aldea, Jorge, primary, Asiegbu, Fred O., additional, Awan, Hafiz Umair M., additional, Barnes, Irene, additional, Benitez, David, additional, Bernier, Louis, additional, Brown, Nathan, additional, Camarero, J. Julio, additional, Cannon, Philip, additional, Cook, Zachary, additional, Cordell, Susan, additional, Courty, Pierre-Emmanuel, additional, Crampton, Bridget, additional, Dana Nelson, C., additional, Denman, Sandra, additional, Diez, J.J., additional, Elías-Román, Rubén Damián, additional, Fernández-Fernández, M.M., additional, Friday, James B., additional, Garbelotto, Matteo, additional, Gazol, Antonio, additional, Ghelardini, Luisa, additional, Giardina, Christian, additional, Gonthier, Paolo, additional, Granados, Ginna M., additional, Grodzki, Wojciech, additional, Hamelin, Richard C., additional, Harrington, Thomas, additional, Hauff, Rob, additional, Heinzelmann, Renate, additional, Honkaniemi, Juha, additional, Hughes, Flint, additional, Hughes, Marc, additional, Jaber, Emad, additional, Juzwik, Jennifer, additional, Kasanen, Risto, additional, Kashif, Muhammed, additional, Keith, Lisa, additional, Kim, Mee-Sook, additional, Kirisits, Thomas, additional, Kjær, Erik, additional, Klopfenstein, Ned B., additional, Kosawang, Chatchai, additional, Kovalchuk, Andriy, additional, Kwaśna, Hanna, additional, Labbé, Frédéric, additional, Laubray, Simon, additional, Löf, Magnus, additional, Luchi, Nicola, additional, Luiz, Blaine, additional, Marçais, Benoit, additional, Marchand, Marylise, additional, Martín-García, J., additional, Morales-Rodriguez, Carmen, additional, Olson, Åke, additional, Ota, Yuko, additional, Peck, Robert, additional, Perroy, Ryan, additional, Pildain, María Belén, additional, Plassard, Claude, additional, Robin, Cécile, additional, Roy, Kylle, additional, Santini, Alberto, additional, Sierota, Zbigniew, additional, Smith, Sheri, additional, Sniezko, Richard A., additional, Stenlid, Jan, additional, Stewart, Jane E., additional, Sun, Hui, additional, Tapia, Carmen Romeralo, additional, Tarwacki, Grzegorz, additional, van der Nest, Ariska, additional, Vanguelova, Elena, additional, Vannini, Andrea, additional, Wen, Zilan, additional, Wingfield, Michael J., additional, Witzell, Johanna, additional, Woodward, Stephen, additional, Yelenik, Stephanie, additional, Zamora-Ballesteros, C., additional, and Zarsav, Artin, additional

Published
2022
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27. Drought heightens severity of diseases caused by Botryosphaeria dothideaand Cryptostroma corticaleand needs to be factored in to properly assess pathogenicity or fulfill Koch’s postulates

Author

Garbelotto, Matteo

Abstract

Climate change is driving the emergence of novel tree diseases at the global scale, requiring new approaches for the formal confirmation of the pathogenicity of novel pathogens on novel hosts. At the same time, predictive models need to account for the possible effect of environmental changes and of abiotic stressors on disease severity for all diseases. By wound-inoculating Botryosphaeria dothideaon potted California coast live oaks and Cryptostroma corticaleon potted silver maples, simultaneously in well-watered and in water-deprived conditions, I show that drought conditions increase the severity of disease symptoms. I also show that, by including a water-stressed treatment, I can formally prove pathogenicity and fulfill Koch’s postulates for putative pathogens that could not be confirmed in the absence of the stressor. Additionally, I show that the inclusion of data obtained in water stress conditions increases the differentiation between symptoms caused by fungal infection vs. symptoms caused by wound trauma, thus reducing the possible effect of outliers, a significant problem affecting many trials for fulfilling Koch’s postulates conducted with a limited number of replicates. The availability of comparable datasets in the presence and the absence of an abiotic stressor allows for the calculation of an Environmental Disease Component Index. Positive values of the index indicate a significant role of environmental change in disease progression and identify those pathogens that must be modeled factoring in climatic stressors. I suggest that this index may be extremely valuable for identifying pathogens likely to become emergent as climate changes.

Published
2024
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30. Host-induced aneuploidy and phenotypic diversification in the Sudden Oak Death pathogen Phytophthora ramorum

Author

Kasuga, Takao, Bui, Mai, Bernhardt, Elizabeth, Swiecki, Tedmund, Aram, Kamyar, Cano, Liliana M, Webber, Joan, Brasier, Clive, Press, Caroline, Grünwald, Niklaus J, Rizzo, David M, and Garbelotto, Matteo

Subjects
Microbiology, Plant Biology, Biological Sciences, Genetics, Infection, Aneuploidy, California, DNA Copy Number Variations, DNA Transposable Elements, Gene Duplication, Gene Expression Profiling, Genetic Linkage, Genotype, Loss of Heterozygosity, Phenotype, Phytophthora, Plant Diseases, Polymorphism, Single Nucleotide, Quercus, Transcriptome, Invasive pathogens, Transposable elements, Loss of heterozygosity, Information and Computing Sciences, Medical and Health Sciences, Bioinformatics, Biological sciences, Biomedical and clinical sciences
Abstract

BackgroundAneuploidy can result in significant phenotypic changes, which can sometimes be selectively advantageous. For example, aneuploidy confers resistance to antifungal drugs in human pathogenic fungi. Aneuploidy has also been observed in invasive fungal and oomycete plant pathogens in the field. Environments conducive to the generation of aneuploids, the underlying genetic mechanisms, and the contribution of aneuploidy to invasiveness are underexplored. We studied phenotypic diversification and associated genome changes in Phytophthora ramorum, a highly destructive oomycete pathogen with a wide host-range that causes Sudden Oak Death in western North America and Sudden Larch Death in the UK. Introduced populations of the pathogen are exclusively clonal. In California, oak (Quercus spp.) isolates obtained from trunk cankers frequently exhibit host-dependent, atypical phenotypes called non-wild type (nwt), apparently without any host-associated population differentiation. Based on a large survey of genotypes from different hosts, we previously hypothesized that the environment in oak cankers may be responsible for the observed phenotypic diversification in P. ramorum.ResultsWe show that both normal wild type (wt) and nwt phenotypes were obtained when wt P. ramorum isolates from the foliar host California bay (Umbellularia californica) were re-isolated from cankers of artificially-inoculated canyon live oak (Q. chrysolepis). We also found comparable nwt phenotypes in P. ramorum isolates from a bark canker of Lawson cypress (Chamaecyparis lawsoniana) in the UK; previously nwt was not known to occur in this pathogen population. High-throughput sequencing-based analyses identified major genomic alterations including partial aneuploidy and copy-neutral loss of heterozygosity predominantly in nwt isolates. Chromosomal breakpoints were located at or near transposons.ConclusionThis work demonstrates that major genome alterations of a pathogen can be induced by its host species. This is an undocumented type of plant-microbe interaction, and its contribution to pathogen evolution is yet to be investigated, but one of the potential collateral effects of nwt phenotypes may be host survival.

Published
2016

34. Selection processes in simple sequence repeats suggest a correlation with their genomic location: insights from a fungal model system.

Author

Gonthier, Paolo, Sillo, Fabiano, Lagostina, Elisa, Roccotelli, Angela, Cacciola, Olga, Stenlid, Jan, and Garbelotto, Matteo

Subjects
5 Untranslated Regions, Genome, Plant, Genomics, Microsatellite Repeats, Open Reading Frames, Polymorphism, Genetic
Abstract

BACKGROUND: Adaptive processes shape the evolution of genomes and the diverse functions of different genomic regions are likely to have an impact on the trajectory and outcome of this evolution. The main underlying hypothesis of this study is that the evolution of Simple Sequence Repeats (SSRs) is correlated with the evolution of the genomic region in which they are located, resulting in differences of motif size, number of repeats, and levels of polymorphisms. These differences should be clearly detectable when analyzing the frequency and type of SSRs within the genome of a species, when studying populations within a species, and when comparing closely related sister taxa. By coupling a genome-wide SSR survey in the genome of the plant pathogenic fungus Heterobasidion irregulare with an analysis of intra- and interspecific variability of 39 SSR markers in five populations of the two sibling species H. irregulare and H. annosum, we investigated mechanisms of evolution of SSRs. RESULTS: Results showed a clear dominance of trirepeats and a selection against other repeat number, i.e. di- and tetranucleotides, both in regions inside Open Reading Frames (ORFs) and upstream 5 untranslated region (5UTR). Locus per locus AMOVA showed SSRs both inside ORFs and upstream 5UTR were more conserved within species compared to SSRs in other genomic regions, suggesting their evolution is constrained by the functions of the regions they are in. Principal coordinates analysis (PCoA) indicated that even if SSRs inside ORFs were less polymorphic than those in intergenic regions, they were more powerful in differentiating species. These findings indicate SSRs evolution undergoes a directional selection pressure comparable to that of the ORFs they interrupt and to that of regions involved in regulatory functions. CONCLUSIONS: Our work linked the variation and the type of SSRs with regions upstream 5UTR, putatively harbouring regulatory elements, and shows that the evolution of SSRs might be affected by their location in the genome. Additionally, this study provides a first glimpse on a possible molecular basis for fast adaptation to the environment mediated by SSRs.

Published
2015

35. Comparative Genomics of Sibling Fungal Pathogenic Taxa Identifies Adaptive Evolution without Divergence in Pathogenicity Genes or Genomic Structure.

Author

Sillo, Fabiano, Garbelotto, Matteo, Friedman, Maria, and Gonthier, Paolo

Subjects
Heterobasidion, allopatric speciation, dN/dS, plant pathogenic fungi, structural variations, Adaptation, Physiological, Base Sequence, Basidiomycota, Evolution, Molecular, Genetic Variation, Genome, Fungal, Molecular Sequence Data, Virulence
Abstract

It has been estimated that the sister plant pathogenic fungal species Heterobasidion irregulare and Heterobasidion annosum may have been allopatrically isolated for 34-41 Myr. They are now sympatric due to the introduction of the first species from North America into Italy, where they freely hybridize. We used a comparative genomic approach to 1) confirm that the two species are distinct at the genomic level; 2) determine which gene groups have diverged the most and the least between species; 3) show that their overall genomic structures are similar, as predicted by the viability of hybrids, and identify genomic regions that instead are incongruent; and 4) test the previously formulated hypothesis that genes involved in pathogenicity may be less divergent between the two species than genes involved in saprobic decay and sporulation. Results based on the sequencing of three genomes per species identified a high level of interspecific similarity, but clearly confirmed the status of the two as distinct taxa. Genes involved in pathogenicity were more conserved between species than genes involved in saprobic growth and sporulation, corroborating at the genomic level that invasiveness may be determined by the two latter traits, as documented by field and inoculation studies. Additionally, the majority of genes under positive selection and the majority of genes bearing interspecific structural variations were involved either in transcriptional or in mitochondrial functions. This study provides genomic-level evidence that invasiveness of pathogenic microbes can be attained without the high levels of pathogenicity presumed to exist for pathogens challenging naïve hosts.

Published
2015

36. Phytophthora ramorum can survive introduction into finished compost

Author

Swain, Steven and Garbelotto, Matteo M

Subjects
disease and pest management, epidemiology, plant health
Abstract

Composted municipal green waste is a potential vehicle for the transmission of Phytophtora ramorum, the pathogen responsible for the disease known as sudden oak death. To assess the survival rate of the pathogen in compost, we introduced zoospores — a type of infectious propagule — into six composts of varying provenance and maturity. The compost samples represented three production facilities, two production techniques (turned windrow and forced air static pile) and two levels of maturity (fresh, defined as aged for less than 1 week; and mature, aged for more than 4 weeks). Positive re-isolations — indicating survival of the pathogen — were obtained from all composts. The re-isolation rate from the compost from one of the three production facilities was greater than that obtained from an inert substrate (filter paper) inoculated with the pathogen (P < 0.01), while re-isolation rates from the other two sources were statistically indistinguishable from those obtained from the inert substrate (P < 0.01). There was no significant difference in re-isolation rate between composts produced by the turned windrow method and composts produced by the forced air static pile technique. Re-isolation rates were greater from mature composts than from fresh composts (P < 0.01). The results show that P. ramorum may be present and infectious if introduced into finished compost, and that variations in compost characteristics appear to influence survival rates.

Published
2015

39. Protecting Trees from Sudden Oak Death before Infection

Author

Lee, Chris, Valachovic, Yana, and Garbelotto, Matteo

Subjects
forest management, forestry, wooded grasslands, grasslands, hardwood, plant diseases and disorders
Abstract

Sudden oak death, caused by Phytophthora ramorum infection, has killed over a million oak trees in California. Most infected trees do die of the disease, but this publication gives some steps you can take to prevent infection in the first place.

Published
2011

43. Modeling the Effect of Temperature on the Severity of Blueberry Stem Blight and Dieback with a Focus on Neofusicoccum parvum and Cultivar Susceptibility.

Author

Martino, Ilaria, Lione, Guglielmo, Garbelotto, Matteo, Gonthier, Paolo, and Guarnaccia, Vladimiro

Subjects
TEMPERATURE effect, DIEBACK, BLUEBERRIES, GLOBAL warming, VACCINIUM corymbosum, COLONIZATION (Ecology)
Abstract

Stem blight and dieback rank among the most relevant diseases affecting blueberry production worldwide. In Northern Italy, Neofusicoccum parvum, Diaporthe rudis, Cadophora luteo-olivacea and Peroneutypa scoparia have been reported to cause stem blight and dieback in blueberry. Considering that the incidence and severity of these diseases are on the rise in Northern Italy, two of the main aims of the present study were a—to compare the in vitro growth rate of the four fungi at different temperatures and b—to assess the aggressiveness of the same fungi on four commercial blueberry cultivars. Neofusicoccum parvum had the fastest growth rate and was the most aggressive pathogen. A possible effect of temperature on host colonization by N. parvum and disease expression was postulated and tested as a third aim. In planta trials were performed to model and predict the influence of temperature on the severity of blueberry stem blight and dieback caused by N. parvum. Increasing temperatures boosted the aggressiveness of the pathogen, causing higher disease severity and host mortality. Our findings suggest that temperature plays a relevant role in the severity of blueberry stem blight and dieback caused by N. parvum. Given the predictions of a warmer climate, this disease may become increasingly more significant and should be actively managed. [ABSTRACT FROM AUTHOR]

Published
2024
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44. Assembly and analysis of the genome ofNotholithocarpus densiflorus

Author

Cai, Ying, primary, Anderson, Ellis, additional, Xue, Wen, additional, Wong, Sylvia, additional, Cui, Luman, additional, Cheng, Xiaofang, additional, Wang, Ou, additional, Mao, Qing, additional, Liu, Sophie Jia, additional, Davis, John T., additional, Magalang, Paulo R., additional, Schmidt, Douglas, additional, Kasuga, Takao, additional, Garbelotto, Matteo, additional, Drmanac, Radoje, additional, Kua, Chai-Shian, additional, Cannon, Charles, additional, Maloof, Julin N., additional, and Peters, Brock, additional

Published
2023
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47. Scaling up from greenhouse resistance to fitness in the field for a host of an emerging forest disease

Author

Hayden, Katherine J, Garbelotto, Matteo, Dodd, Richard, and Wright, Jessica W

Subjects
Good Health and Well Being, forest management, generalized linear mixed models, host-parasite interactions, invasive species, natural selection and contemporary evolution, quantitative genetics, sudden oak death, survival analysis, host–parasite interactions, Medicinal and Biomolecular Chemistry, Evolutionary Biology, Genetics
Abstract

Forest systems are increasingly threatened by emergent, exotic diseases, yet management strategies for forest trees may be hindered by long generation times and scant background knowledge. We tested whether nursery disease resistance and growth traits have predictive value for the conservation of Notholithocarpus densiflorus, the host most susceptible to sudden oak death. We established three experimental populations to assess nursery growth and resistance to Phytophthora ramorum, and correlations between nursery-derived breeding values with seedling survival in a field disease trial. Estimates of nursery traits' heritability were low to moderate, with lowest estimates for resistance traits. Within the field trial, survival likelihood was increased in larger seedlings and decreased with the development of disease symptoms. The seed-parent family wide likelihood of survival was likewise correlated with family predictors for size and resistance to disease in 2nd year laboratory assays, though not resistance in 1st year leaf assays. We identified traits and seedling families with increased survivorship in planted tanoaks, and a framework to further identify seed parents favored for restoration. The additive genetic variation and seedling disease dynamics we describe hold promise to refine current disease models and expand the understanding of evolutionary dynamics of emergent infectious diseases in highly susceptible hosts.

Published
2013

49. Insight into trade-off between wood decay and parasitism from the genome of a fungal forest pathogen

Author

Olson, Ake, Aerts, Andrea, Asiegbu, Fred, Belbahri, Lassaad, Bouzid, Ourdia, Broberg, Anders, Canback, Bjorn, Coutinho, Pedro M., Cullen, Dan, Dalman, Kerstin, Deflorio, Giuliana, Diepen, Linda T. A. van, Dunand, Christophe, Duplessis, Sebastien, Durling, Mikael, Gonthier, Paolo, Grimwood, Jane, Fossdal, Carl Gunnar, Hansson, David, Henrissat, Bernard, Hietala, Ari, Himmelstrand, Kajsa, Hoffmeister, Dirk, Hogberg, Nils, James, Timothy Y., Karlsson, Magnus, Kohler, Annegret, Lucas, Susan, Lunden, Karl, Morin, Emmanuelle, Murat, Claude, Park, Jongsun, Raffaello, Tommaso, Rouze, Pierre, Salamov, Asaf, Schmutz, Jeremy, Solheim, Halvor, Stahlberg, Jerry, Velez, Heriberto, Vries, Ronald P. de, Wiebenga, Ad, Woodward, Steve, Yakovlev, Igor, Garbelotto, Matteo, Martin, Francis, Grigoriev, Igor V., and Stenlid, Jan

Subjects
genome, Heterobasidion, parasitism, pathology, saprotrophy, trade-off, wood decay
Abstract

Parasitism and saprotrophic wood decay are two fungal strategies fundamental for succession and nutrient cycling in forest ecosystems. An opportunity to assess the trade-off between these strategies is provided by the forest pathogen and wood decayer Heterobasidion annosum sensu lato.We report the annotated genome sequence and transcript profiling, as well as the quantitative trait loci mapping, of one member of the species complex: H. irregulare. Quantitative trait loci critical for pathogenicity, and rich in transposable elements, orphan and secreted genes, were identified.A wide range of cellulose-degrading enzymes are expressed during wood decay. By contrast, pathogenic interaction between H. irregulare and pine engages fewer carbohydrate-active enzymes, but involves an increase in pectinolytic enzymes, transcription modules for oxidative stress and secondary metabolite production.Our results show a trade-off in terms of constrained carbohydrate decomposition and membrane transport capacity during interaction with living hosts. Our findings establish that saprotrophic wood decay and necrotrophic parasitism involve two distinct, yet overlapping, processes.

Published
2012

50. Phenotypic diversification is associated with host-induced transposon derepression in the sudden oak death pathogen Phytophthora ramorum.

Author

Kasuga, Takao, Kozanitas, Melina, Bui, Mai, Hüberli, Daniel, Rizzo, David, and Garbelotto, Matteo

Subjects
California, Cluster Analysis, Gene Expression Profiling, Gene Expression Regulation, Fungal, Genetic Variation, Genotype, Host-Pathogen Interactions, Microsatellite Repeats, Phenotype, Phytophthora, Plant Diseases, Quercus, Reproducibility of Results, Retroelements, Trees, Umbellularia, Virulence
Abstract

The oomycete pathogen Phytophthora ramorum is responsible for sudden oak death (SOD) in California coastal forests. P. ramorum is a generalist pathogen with over 100 known host species. Three or four closely related genotypes of P. ramorum (from a single lineage) were originally introduced in California forests and the pathogen reproduces clonally. Because of this the genetic diversity of P. ramorum is extremely low in Californian forests. However, P. ramorum shows diverse phenotypic variation in colony morphology, colony senescence, and virulence. In this study, we show that phenotypic variation among isolates is associated with the host species from which the microbe was originally cultured. Microarray global mRNA profiling detected derepression of transposable elements (TEs) and down-regulation of crinkler effector homologs (CRNs) in the majority of isolates originating from coast live oak (Quercus agrifolia), but this expression pattern was not observed in isolates from California bay laurel (Umbellularia californica). In some instances, oak and bay laurel isolates originating from the same geographic location had identical genotypes based on multilocus simples sequence repeat (SSR) marker analysis but had different phenotypes. Expression levels of the two marker genes analyzed by quantitative reverse transcription PCR were correlated with originating host species, but not with multilocus genotypes. Because oak is a nontransmissive dead-end host for P. ramorum, our observations are congruent with an epi-transposon hypothesis; that is, physiological stress is triggered on P. ramorum while colonizing oak stems and disrupts epigenetic silencing of TEs. This then results in TE reactivation and possibly genome diversification without significant epidemiological consequences. We propose the P. ramorum-oak host system in California forests as an ad hoc model for epi-transposon mediated diversification.

Published
2012

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