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271 results on '"Milgroom, Michael G."'

1. Microevolution in the pansecondary metabolome of Aspergillus flavus and its potential macroevolutionary implications for filamentous fungi

Author

Drott, Milton T, Rush, Tomás A, Satterlee, Tatum R, Giannone, Richard J, Abraham, Paul E, Greco, Claudio, Venkatesh, Nandhitha, Skerker, Jeffrey M, Glass, N Louise, Labbé, Jesse L, Milgroom, Michael G, and Keller, Nancy P

Subjects
Microbiology, Biological Sciences, Biomedical and Clinical Sciences, Ecology, Aspergillus, Aspergillus flavus, Fungal Proteins, Genetic Speciation, Genome, Fungal, Genomics, Metabolome, Metagenomics, Multigene Family, Phylogeny, Secondary Metabolism, United States, secondary metabolism, population genomics, allopatric speciation, eukaryotic pangenome, comparative genomics
Abstract

Fungi produce a wealth of pharmacologically bioactive secondary metabolites (SMs) from biosynthetic gene clusters (BGCs). It is common practice for drug discovery efforts to treat species' secondary metabolomes as being well represented by a single or a small number of representative genomes. However, this approach misses the possibility that intraspecific population dynamics, such as adaptation to environmental conditions or local microbiomes, may harbor novel BGCs that contribute to the overall niche breadth of species. Using 94 isolates of Aspergillus flavus, a cosmopolitan model fungus, sampled from seven states in the United States, we dereplicate 7,821 BGCs into 92 unique BGCs. We find that more than 25% of pangenomic BGCs show population-specific patterns of presence/absence or protein divergence. Population-specific BGCs make up most of the accessory-genome BGCs, suggesting that different ecological forces that maintain accessory genomes may be partially mediated by population-specific differences in secondary metabolism. We use ultra-high-performance high-resolution mass spectrometry to confirm that these genetic differences in BGCs also result in chemotypic differences in SM production in different populations, which could mediate ecological interactions and be acted on by selection. Thus, our results suggest a paradigm shift that previously unrealized population-level reservoirs of SM diversity may be of significant evolutionary, ecological, and pharmacological importance. Last, we find that several population-specific BGCs from A. flavus are present in Aspergillus parasiticus and Aspergillus minisclerotigenes and discuss how the microevolutionary patterns we uncover inform macroevolutionary inferences and help to align fungal secondary metabolism with existing evolutionary theory.

Published
2021

2. The Frequency of Sex: Population Genomics Reveals Differences in Recombination and Population Structure of the Aflatoxin-Producing Fungus Aspergillus flavus

Author

Drott, Milton T, Satterlee, Tatum R, Skerker, Jeffrey M, Pfannenstiel, Brandon T, Glass, N Louise, Keller, Nancy P, and Milgroom, Michael G

Subjects
Genetics, Rare Diseases, Biotechnology, Aflatoxins, Aspergillus flavus, DNA, Fungal, Genetic Variation, Linkage Disequilibrium, Metagenomics, Multigene Family, Mutation, Recombination, Genetic, Sequence Analysis, DNA, sex, recombination, aflatoxin, population structure, population genomics, Aspergillus flavus, Microbiology
Abstract

The apparent rarity of sex in many fungal species has raised questions about how much sex is needed to purge deleterious mutations and how differences in frequency of sex impact fungal evolution. We sought to determine how differences in the extent of recombination between populations of Aspergillus flavus impact the evolution of genes associated with the synthesis of aflatoxin, a notoriously potent carcinogen. We sequenced the genomes of, and quantified aflatoxin production in, 94 isolates of A. flavus sampled from seven states in eastern and central latitudinal transects of the United States. The overall population is subdivided into three genetically differentiated populations (A, B, and C) that differ greatly in their extent of recombination, diversity, and aflatoxin-producing ability. Estimates of the number of recombination events and linkage disequilibrium decay suggest relatively frequent sex only in population A. Population B is sympatric with population A but produces significantly less aflatoxin and is the only population where the inability of nonaflatoxigenic isolates to produce aflatoxin was explained by multiple gene deletions. Population expansion evident in population B suggests a recent introduction or range expansion. Population C is largely nonaflatoxigenic and restricted mainly to northern sampling locations through restricted migration and/or selection. Despite differences in the number and type of mutations in the aflatoxin gene cluster, codon optimization and site frequency differences in synonymous and nonsynonymous mutations suggest that low levels of recombination in some A. flavus populations are sufficient to purge deleterious mutations.IMPORTANCE Differences in the relative frequencies of sexual and asexual reproduction have profound implications for the accumulation of deleterious mutations (Muller's ratchet), but little is known about how these differences impact the evolution of ecologically important phenotypes. Aspergillus flavus is the main producer of aflatoxin, a notoriously potent carcinogen that often contaminates food. We investigated if differences in the levels of production of aflatoxin by A. flavus could be explained by the accumulation of deleterious mutations due to a lack of recombination. Despite differences in the extent of recombination, variation in aflatoxin production is better explained by the demography and history of specific populations and may suggest important differences in the ecological roles of aflatoxin among populations. Furthermore, the association of aflatoxin production and populations provides a means of predicting the risk of aflatoxin contamination by determining the frequencies of isolates from low- and high-production populations.

Published
2020

3. Genome Sequence of the Chestnut Blight Fungus Cryphonectria parasitica EP155: A Fundamental Resource for an Archetypical Invasive Plant Pathogen.

Author

Crouch, Jo Anne, Dawe, Angus, Aerts, Andrea, Barry, Kerrie, Churchill, Alice CL, Grimwood, Jane, Hillman, Bradley I, Milgroom, Michael G, Pangilinan, Jasmyn, Smith, Myron, Salamov, Asaf, Schmutz, Jeremy, Yadav, Jagjit S, Grigoriev, Igor V, and Nuss, Donald L

Subjects
Ascomycota, Fagaceae, Plant Diseases, North America, Fungal Viruses, chestnut blight, forest pathology, mycology, mycoviruses, transposable elements, vegetative incompatibility, Plant Biology & Botany, Microbiology, Plant Biology, Crop and Pasture Production
Abstract

Cryphonectria parasitica is the causal agent of chestnut blight, a fungal disease that almost entirely eliminated mature American chestnut from North America over a 50-year period. Here, we formally report the genome of C. parasitica EP155 using a Sanger shotgun sequencing approach. After finishing and integration with simple-sequence repeat markers, the assembly was 43.8 Mb in 26 scaffolds (L50 = 5; N50 = 4.0Mb). Eight chromosomes are predicted: five scaffolds have two telomeres and six scaffolds have one telomere sequence. In total, 11,609 gene models were predicted, of which 85% show similarities to other proteins. This genome resource has already increased the utility of a fundamental plant pathogen experimental system through new understanding of the fungal vegetative incompatibility system, with significant implications for enhancing mycovirus-based biological control.

Published
2020

35. Genome Expansion and Gene Loss in Powdery Mildew Fungi Reveal Tradeoffs in Extreme Parasitism

Author

Spanu, Pietro D., Abbott, James C., Amselem, Joelle, Burgis, Timothy A., Soanes, Darren M., Stüber, Kurt, van Themaat, Emiel Ver Loren, Brown, James K. M., Butcher, Sarah A., Gurr, Sarah J., Lebrun, Marc-Henri, Ridout, Christopher J., Schutze-Lefert, Paul, Talbot, Nicholas J., Ahmadinejad, Nahal, Ametz, Christian, Barton, Geraint R., Benjdia, Mariam, Bidzinski, Przemyslaw, Bindschedler, Laurence V., Both, Maike, Brewer, Marin T., Cadle-Davidson, Lance, Cadle-Davidson, Molly M., Collemare, Jerome, Cramer, Rainer, Frenkel, Omer, Godfrey, Dale, Harriman, James, Hoede, Claire, King, Brian C., Klages, Sven, Kleemann, Jochen, Knoll, Daniela, Koti, Prasanna S., Kreplak, Jonathan, López-Ruiz, Francisco J., Lu, Xunli, Maekawa, Takaki, Mahanil, Siraprapa, Micali, Cristina, Milgroom, Michael G., Montana, Giovanni, Noir, Sandra, O'Connell, Richard J., Oberhaensli, Simone, Parlange, Francis, Pedersen, Carsten, Quesneville, Hadi, Reinhardt, Richard, Rott, Matthias, Sacristán, Soledad, Schmidt, Sarah M., Schön, Moritz, Skamnioti, Pari, Sommer, Hans, Stephens, Amber, Takahara, Hiroyuki, Thordal-Christensen, Hans, Vigouroux, Marielle, Weßling, Ralf, Wicker, Thomas, and Panstruga, Ralph

Published
2010

38. Observability of food safety losses in maize: Evidence from Kenya

Author

Hoffmann, Vivian; Mutiga, Samuel K.; Harvey, Jagger W.; Nelson, Rebecca J.; Milgroom, Michael G., http://orcid.org/0000-0002-6464-3748 Hoffmann, Vivian, Hoffmann, Vivian; Mutiga, Samuel K.; Harvey, Jagger W.; Nelson, Rebecca J.; Milgroom, Michael G., and http://orcid.org/0000-0002-6464-3748 Hoffmann, Vivian

Abstract

PR, IFPRI3; ISI; CRP4; 2 Promoting Healthy Diets and Nutrition for all, MTID; A4NH, CGIAR Research Program on Agriculture for Nutrition and Health (A4NH)

Published
2021

42. Genetic similarity of flag shoot and ascopore subpopulations of Erysiphe necator in Italy

Author

Cortesi, Paolo, Mazzoleni, Anna, Pizzatti, Cristina, and Milgroom, Michael G.

Subjects
Hookworms -- Genetic aspects, Mildew -- Genetic aspects, Mycelia -- Genetic aspects, Biological sciences
Abstract

The correlation between distinct genetic groups (I and III) identified previously in Erysiphe necator and overwintering modes in two vineyards in Tuscany, Italy, is investigated to determine whether diagnostic genetic markers could be used to predict overwintering. The results do not support a strong correlation between overwintering and genetic groups, which highlights the need to base population biology studies on sound biological and epidemiological knowledge.

Published
2005

43. Recombination and migration of Cryphonectria hypovirus 1 as inferred from gene genealogies and the coalescent

Author

Carbone, Ignazio, Liu, Yir-Chung, Hillman, Bradley I., and Milgroom, Michael G.

Subjects
Genetics -- Research, Biological sciences
Abstract

Genealogy-based methods were used to estimate migration of the fungal virus Cryphonectria hypovirus 1 between vegetative compatibility types of the host fungus, Cyphonectria parasitica, as a means of estimating horizontal transmission within two host populations. Vegetative incompatibility is a self/non-self recognition system that inhibits virus transmission under laboratory conditions but its effect on transmission in nature has not been clearly demonstrated. Recombination within and among different loci in the virus genome restricted the genealogical analyses to haplotypes with common mutation and recombinational histories. The existence of recombination necessitated that we also use genealogical approaches that can take advantage of both the mutation and recombinational histories of the sample. Virus migration between populations was significantly restricted. In contrast, estimates of migration between vegetative compatibility types were relatively high within populations despite previous evidence that transmission in the laboratory was restricted. The discordance between laboratory estimates and migration estimates from natural populations highlights the challenges in estimating pathogen transmission rates. Genealogical analyses inferred migration patterns throughout the entire coalescent history of one viral region in natural populations and not just recent patterns of migration or laboratory transmission. This application of genealogical analyses provides markedly stronger inferences on overall transmission rates than laboratory estimates do.

Published
2004

45. The mating system of the fungus Cryphonectria parasitica: selfing and self-incompatibility

Author

Marra, Robert E. and Milgroom, Michael G.

Subjects
Heredity -- Research, Fungi -- Physiological aspects, Sex in plants -- Physiological aspects, Plants -- Self-incompatibility, Biological sciences
Abstract

Selfing and self-incompatibility in the mating system of the fungus Cryphonectria parasitica, a haploid ascomycete, are discussed. Little has been known about how fungi reproduce in nature. In a study, frequent selfing was seen in nature, but selfing is rare in the laboratory. The mating system seems to be under ecological as well as genetic control.

Published
2001

48. Variation in tolerance and virulence in the chestnut blight fungus-hypovirus interaction

Author

Peever, Tobin L., Liu, Yir-Chung, Cortesi, Paolo, and Milgroom, Michael G.

Subjects
Chestnut blight -- Research, Pests -- Biological control, Host-virus relationships -- Research, Biological sciences
Abstract

There is a wide genetic variation in hypovirus virulence and fungus tolerance in the chestnut blight fungus Cryphonectria parasitica. However, the magnitude of the tolerance is relatively small, indicating that the hypovirus will still be a useful biological control agent for the fungus.

Published
2000

49. Genetics of vegetative incompatibility in Cryphonectria parasitica

Author

Cortesi, Paolo and Milgroom, Michael G.

Subjects
Fungi -- Genetic aspects, Genotype -- Research, Population genetics -- Research, Biological sciences
Abstract

Research was conducted to examine the genetics of vegetative incompatibility in Cryphonectria parasitica. The goals were to determine the number of polymorphic vic loci in C. parasitica populations in Europe, to identify all possible vic genotypes and to determine the genotypes of vegetative compatibility (vc) types used in other genetic studies. Results confirm that vegetative incompatibility is controlled by allelic interactions.

Published
1998

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