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1. Screening of Wild Potatoes Identifies New Sources of Late Blight Resistance

   https://doi.org/10.1094/pdis-06-20-1367-re  

   Karki, Hari S.; Jansky, Shelly H.; Halterman, Dennis A. (February 2021, Plant Disease)

   Late blight (LB) of potato is considered one of the most devastating plant diseases in the world. Most cultivated potatoes are susceptible to this disease. However, wild relatives of potatoes are an excellent source of LB resistance. We screened 384 accessions of 72 different wild potato species available from the U.S. Potato GeneBank against the LB pathogen Phytophthora infestans in a detached leaf assay (DLA). P. infestans isolates US-23 and NL13316 were used in the DLA to screen the accessions. Although all plants in 273 accessions were susceptible, all screened plants in 39 accessions were resistant. Resistant and susceptible plants were found in 33 accessions. All tested plants showed a partial resistance phenotype in two accessions, segregation of resistant and partial resistant plants in nine accessions, segregation of partially resistant and susceptible plants in four accessions, and segregation of resistant, partially resistant, and susceptible individuals in 24 accessions. We found several species that were never before reported to be resistant to LB: Solanum albornozii, S. agrimoniifolium, S. chomatophilum, S. ehrenbergii, S. hypacrarthrum, S. iopetalum, S. palustre, S. piurae, S. morelliforme, S. neocardenasii, S. trifidum, and S. stipuloideum. These new species could provide novel sources of LB resistance. P. infestans clonal lineage-specific screening of selected species was conducted to identify the presence of RB resistance. We found LB resistant accessions in Solanum verrucosum, Solanum stoloniferum, and S. morelliforme that were susceptible to the RB overcoming isolate NL13316, indicating the presence of RB-like resistance in these species. 

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2. Evolution of Phytophthora infestans on its potato host since the Irish potato famine

   https://doi.org/10.1038/s41467-024-50749-4  

   Coomber, Allison; Saville, Amanda; Ristaino, Jean Beagle (December 2024, Nature Communications)

   Phytophthora infestans is a major oomycete plant pathogen, responsible for potato late blight, which led to the Irish Potato Famine from 1845–1852. Since then, potatoes resistant to this disease have been bred and deployed worldwide. Their resistance (R) genes recognize pathogen effectors responsible for virulence and then induce a plant response stopping disease progression. However, most deployed R genes are quickly overcome by the pathogen. We use targeted sequencing of effector and R genes on herbarium specimens to examine the joint evolution in both P. infestans and potato from 1845–1954. Currently relevant effectors are historically present in P. infestans, but with alternative alleles compared tomodern reference genomes. The historic FAM-1 lineage has the virulent Avr1 allele and the ability to break the R1 resistance gene before breeders deployed it in potato. The FAM-1 lineage is diploid, but later, triploid US-1 lineages appear. We show that pathogen virulence genes and host resistance genes have undergone significant changes since the Famine, from both natural and artificial selection. 

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3. Reconstructing historic and modern potato late blight outbreaks using text analytics

   https://doi.org/10.1038/s41598-024-52870-2  

   Saffer, Ariel; Tateosian, Laura; Saville, Amanda C; Yang, Yi-Peng; Ristaino, Jean B (December 2024, Scientific Reports)

   NA (Ed.)

   Abstract In 1843, a hitherto unknown plant pathogen entered the US and spread to potato fields in the northeast. By 1845, the pathogen had reached Ireland leading to devastating famine. Questions arose immediately about the source of the outbreaks and how the disease should be managed. The pathogen, now known asPhytophthora infestans, still continues to threaten food security globally. A wealth of untapped knowledge exists in both archival and modern documents, but is not readily available because the details are hidden in descriptive text. In this work, we (1) used text analytics of unstructured historical reports (1843–1845) to map US late blight outbreaks; (2) characterized theories on the source of the pathogen and remedies for control; and (3) created modern late blight intensity maps using Twitter feeds. The disease spread from 5 to 17 states and provinces in the US and Canada between 1843 and 1845. Crop losses, Andean sources of the pathogen, possible causes and potential treatments were discussed. Modern disease discussion on Twitter included near-global coverage and local disease observations. Topic modeling revealed general disease information, published research, and outbreak locations. The tools described will help researchers explore and map unstructured text to track and visualize pandemics. 

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4. A pangenome analysis reveals the center of origin and evolutionary history of Phytophthora infestans and 1c clade species

   https://doi.org/10.1371/journal.pone.0314509  

   Coomber, Allison L; Saville, Amanda C; Carbone, Ignazio; Martin, Michael; Bieker, Vanessa C; Ristaino, Jean Beagle (January 2025, PLOS ONE)

   Blair, Jaime E (Ed.)

   We examined the evolutionary history ofPhytophthora infestansand its close relatives in the 1c clade. We used whole genome sequence data from 69 isolates ofPhytophthoraspecies in the 1c clade and conducted a range of genomic analyses including nucleotide diversity evaluation, maximum likelihood trees, network assessment, time to most recent common ancestor and migration analysis. We consistently identified distinct and later divergence of the two MexicanPhytophthoraspecies,P.mirabilisandP.ipomoeae, fromP.infestansand other 1c clade species.Phytophthora infestansexhibited more recent divergence from other 1c clade species ofPhytophthorafrom South America,P.andinaandP.betacei. Speciation in the 1c clade and evolution ofP.infestansoccurred in the Andes.P.andina–P.betacei–P.infestansformed a species complex with indistinct species boundaries, hybridizations between the species, and short times to common ancestry. Furthermore, the distinction between modern Mexican and South AmericanP.infestansproved less discrete, suggesting gene flow between populations over time. Admixture analysis indicated a complex relationship among these populations, hinting at potential gene flow across these regions. HistoricP.infestans, collected from 1845–1889, were the first to diverge from all otherP.infestanspopulations. Modern South American populations diverged next followed by Mexican populations which showed later ancestry. Both populations were derived from historicP.infestans. Based on the time of divergence ofP.infestansfrom its closest relatives,P.andinaandP.betaceiin the Andean region, we consider the Andes to be the center of origin ofP.infestans, with modern globalization contributing to admixture betweenP.infestanspopulations today from Mexico, the Andes and Europe. 

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5. Transcription factor binding specificities of the oomycete Phytophthora infestans reflect conserved and divergent evolutionary patterns and predict function

   https://doi.org/10.1186/s12864-024-10630-6  

   Vo, Nguyen_N T; Yang, Ally; Leesutthiphonchai, Wiphawee; Liu, Yulong; Hughes, Timothy R; Judelson, Howard S (December 2024, BMC Genomics)

   Abstract BackgroundIdentifying the DNA-binding specificities of transcription factors (TF) is central to understanding gene networks that regulate growth and development. Such knowledge is lacking in oomycetes, a microbial eukaryotic lineage within the stramenopile group. Oomycetes include many important plant and animal pathogens such as the potato and tomato blight agentPhytophthora infestans, which is a tractable model for studying life-stage differentiation within the group. ResultsMining of the P. infestans genome identified 197 genes encoding proteins belonging to 22 TF families. Their chromosomal distribution was consistent with family expansions through unequal crossing-over, which were likely ancient since each family had similar sizes in most oomycetes. Most TFs exhibited dynamic changes in RNA levels through the P. infestanslife cycle. The DNA-binding preferences of 123 proteins were assayed using protein-binding oligonucleotide microarrays, which succeeded with 73 proteins from 14 families. Binding sites predicted for representatives of the families were validated by electrophoretic mobility shift or chromatin immunoprecipitation assays. Consistent with the substantial evolutionary distance of oomycetes from traditional model organisms, only a subset of the DNA-binding preferences resembled those of human or plant orthologs. Phylogenetic analyses of the TF families withinP. infestansoften discriminated clades with canonical and novel DNA targets. Paralogs with similar binding preferences frequently had distinct patterns of expression suggestive of functional divergence. TFs were predicted to either drive life stage-specific expression or serve as general activators based on the representation of their binding sites within total or developmentally-regulated promoters. This projection was confirmed for one TF using synthetic and mutated promoters fused to reporter genesin vivo. ConclusionsWe established a large dataset of binding specificities forP. infestansTFs, representing the first in the stramenopile group. This resource provides a basis for understanding transcriptional regulation by linking TFs with their targets, which should help delineate the molecular components of processes such as sporulation and host infection. Our work also yielded insight into TF evolution during the eukaryotic radiation, revealing both functional conservation as well as diversification across kingdoms. 

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