scholarly journals Genetic Diversity of the Symbiotic Fungus Epichloë festucae in Naturally Occurring Host Grass Populations

2021 ◽  
Vol 12 ◽  
Author(s):  
Maria von Cräutlein ◽  
Marjo Helander ◽  
Helena Korpelainen ◽  
Päivi Helena Leinonen ◽  
Beatriz R. Vázquez de Aldana ◽  
...  
Keyword(s):  
Genetic Diversity ◽  
Horizontal Transmission ◽  
Gene Clusters ◽  
Host Population ◽  
Selection Pressures ◽  
Symbiotic Fungus ◽  
Red Fescue ◽  
Local Selection ◽  
Survival And Reproduction ◽  
Fungal Populations

Epichloë festucae is a common symbiont of the perennial and widely distributed cool season grass, Festuca rubra. The symbiosis is highly integrated involving systemic growth of the fungus throughout above-ground host parts and vertical transmission from plant to its offspring via host seeds. However, the nature of symbiosis is labile ranging from antagonistic to mutualistic depending on prevailing selection pressures. Both the loss of fungus in the maternal host lineage and horizontal transmission through sexual spores within the host population may partly explain the detected variation in symbiosis in wild grass populations. Epichloë species are commonly considered as pathogens when they produce sexual spores and partly castrate their host plant. This is the pathogenic end of the continuum from antagonistic to mutualistic interactions. Here we examined the population genetic structure of E. festucae to reveal the gene flow, importance of reproduction modes, and alkaloid potential of the symbiotic fungus in Europe. Epichloë-species are highly dependent on the host in survival and reproduction whilst benefits to the host are largely linked to defensive mutualism attributable to fungal-origin bioactive alkaloids that negatively affect vertebrate and/or invertebrate herbivores. We detected decreased genetic diversity in previously glaciated areas compared to non-glaciated regions during the last glacial maximum period and found three major genetic clusters in E. festucae populations: southern, northeastern and northwestern Europe. Sexual reproduction may have a higher role than expected in Spanish E. festucae populations due to the predominance of unique genotypes and presence of both mating types in the region. In contrast, asexual reproduction via host seeds predominates in the Faroe Island and Finland in northern Europe due to the presence of biased mating-type ratios and large dominant genotypes in the E. festucae populations within the region. A substantially larger variation of alkaloid genotypes was observed in the fungal populations than expected, although the variability of the alkaloid genotypes within populations is considerably lower in northern than Spanish populations in southern Europe. E. festucae populations consist of different combinations of alkaloid classes from the gene clusters of ergot alkaloid and indole-terpenes, and from pyrrolopyrazine alkaloid gene. We suggest that the postglacial distribution history of the host grass, prevailing reproduction strategies of E. festucae, and local selection pressures likely explain a large part of the genetic variation observed in fungal populations among geographic regions. The identified alkaloid genotypes can be used by turfgrass breeders to improve resistance against herbivores in red fescue varieties and to develop new sustainable cultivars in Europe.

scholarly journals Plasmodium relictum infection and MHC diversity in the house sparrow ( Passer domesticus )

2010 ◽  
Vol 278 (1709) ◽  
pp. 1264-1272 ◽  
Author(s):  
Claire Loiseau ◽  
Rima Zoorob ◽  
Alexandre Robert ◽  
Olivier Chastel ◽  
Romain Julliard ◽  
...  
Keyword(s):  
Genetic Diversity ◽  
Variable Selection ◽  
House Sparrow ◽  
Passer Domesticus ◽  
Host Population ◽  
Plasmodium Relictum ◽  
Selection Pressures ◽  
Diversifying Selection ◽  
Mhc Diversity ◽  
Mhc Alleles

Antagonistic coevolution between hosts and parasites has been proposed as a mechanism maintaining genetic diversity in both host and parasite populations. In particular, the high level of genetic diversity usually observed at the major histocompatibility complex (MHC) is generally thought to be maintained by parasite-driven selection. Among the possible ways through which parasites can maintain MHC diversity, diversifying selection has received relatively less attention. This hypothesis is based on the idea that parasites exert spatially variable selection pressures because of heterogeneity in parasite genetic structure, abundance or virulence. Variable selection pressures should select for different host allelic lineages resulting in population-specific associations between MHC alleles and risk of infection. In this study, we took advantage of a large survey of avian malaria in 13 populations of the house sparrow ( Passer domesticus ) to test this hypothesis. We found that (i) several MHC alleles were either associated with increased or decreased risk to be infected with Plasmodium relictum , (ii) the effects were population specific, and (iii) some alleles had antagonistic effects across populations. Overall, these results support the hypothesis that diversifying selection in space can maintain MHC variation and suggest a pattern of local adaptation where MHC alleles are selected at the local host population level.

scholarly journals Genetic Diversity of Leuconostoc mesenteroides Isolates from Traditional Montenegrin Brine Cheese

2021 ◽  
Vol 9 (8) ◽  
pp. 1612
Author(s):  
Werner Ruppitsch ◽  
Andjela Nisic ◽  
Patrick Hyden ◽  
Adriana Cabal ◽  
Jasmin Sucher ◽  
...  
Keyword(s):  
Genetic Diversity ◽  
Safety Evaluation ◽  
Gene Clusters ◽  
Northern Region ◽  
Genomic Diversity ◽  
High Genetic Diversity ◽  
Pathogenic Factors ◽  
Flavor Development ◽  
Genomic Characterization

In many dairy products, Leuconostoc spp. is a natural part of non-starter lactic acid bacteria (NSLAB) accounting for flavor development. However, data on the genomic diversity of Leuconostoc spp. isolates obtained from cheese are still scarce. The focus of this study was the genomic characterization of Leuconostoc spp. obtained from different traditional Montenegrin brine cheeses with the aim to explore their diversity and provide genetic information as a basis for the selection of strains for future cheese production. In 2019, sixteen Leuconostoc spp. isolates were obtained from white brine cheeses from nine different producers located in three municipalities in the northern region of Montenegro. All isolates were identified as Ln. mesenteroides. Classical multilocus sequence tying (MLST) and core genome (cg) MLST revealed a high diversity of the Montenegrin Ln. mesenteroides cheese isolates. All isolates carried genes of the bacteriocin biosynthetic gene clusters, eight out of 16 strains carried the citCDEFG operon, 14 carried butA, and all 16 isolates carried alsS and ilv, genes involved in forming important aromas and flavor compounds. Safety evaluation indicated that isolates carried no pathogenic factors and no virulence factors. In conclusion, Ln. mesenteroides isolates from Montenegrin traditional cheeses displayed a high genetic diversity and were unrelated to strains deposited in GenBank.

scholarly journals Genetic diversity and evolution of hepatitis C virus – 15 years on

2004 ◽  
Vol 85 (11) ◽  
pp. 3173-3188 ◽  
Author(s):  
Peter Simmonds
Keyword(s):  
Genetic Diversity ◽  
Hepatitis C Virus ◽  
Hepatitis C ◽  
Human Liver ◽  
Large Population ◽  
Sequence Divergence ◽  
Selection Pressures ◽  
Host Interactions ◽  
Persistent Viruses ◽  
The Face

In the 15 years since the discovery of hepatitis C virus (HCV), much has been learned about its role as a major causative agent of human liver disease and its ability to persist in the face of host-cell defences and the immune system. This review describes what is known about the diversity of HCV, the current classification of HCV genotypes within the family Flaviviridae and how this genetic diversity contributes to its pathogenesis. On one hand, diversification of HCV has been constrained by its intimate adaptation to its host. Despite the >30 % nucleotide sequence divergence between genotypes, HCV variants nevertheless remain remarkably similar in their transmission dynamics, persistence and disease development. Nowhere is this more evident than in the evolutionary conservation of numerous evasion methods to counteract the cell's innate antiviral defence pathways; this series of highly complex virus–host interactions may represent key components in establishing its ‘ecological niche’ in the human liver. On the other hand, the mutability and large population size of HCV enables it to respond very rapidly to new selection pressures, manifested by immune-driven changes in T- and B-cell epitopes that are encountered on transmission between individuals with different antigen-recognition repertoires. If human immunodeficiency virus type 1 is a precedent, future therapies that target virus protease or polymerase enzymes may also select very rapidly for antiviral-resistant mutants. These contrasting aspects of conservatism and adaptability provide a fascinating paradigm in which to explore the complex selection pressures that underlie the evolution of HCV and other persistent viruses.

Inbreeding and loss of genetic diversity increase extinction risk

2019 ◽  
pp. 31-48
Author(s):  
Richard Frankham ◽  
Jonathan D. Ballou ◽  
Katherine Ralls ◽  
Mark D. B. Eldridge ◽  
Michele R. Dudash ◽  
...  
Keyword(s):  
Genetic Diversity ◽  
Inbreeding Depression ◽  
Environmental Changes ◽  
Extinction Risk ◽  
Raw Material ◽  
Heterozygote Advantage ◽  
Isolated Populations ◽  
Survival And Reproduction ◽  
Loss Of Genetic Diversity ◽  
Harmful Effects

Inbreeding reduces survival and reproduction (i.e. it causes inbreeding depression), and thereby increases extinction risk. Inbreeding depression is due to increased homozygosity for harmful alleles and at loci exhibiting heterozygote advantage. Inbreeding depression is nearly universal in sexually reproducing organisms that are diploid or have higher ploidies. Impacts of inbreeding are generally greater in species that naturally outbreed than those that inbreed, in stressful than benign environments, and for fitness than peripheral traits. Harmful effects accumulate across the life cycle, resulting in devastating effects on total fitness in outbreeding species.Species face ubiquitous environmental change and must adapt or they will go extinct. Genetic diversity is the raw material required for evolutionary adaptation. However, loss of genetic diversity is unavoidable in small isolated populations, diminishing their capacity to evolve in response to environmental changes, and thereby increasing extinction risk.

The role of genetic diversity and past-history selection pressures in the susceptibility of Chironomus riparius populations to environmental stress

2017 ◽  
Vol 576 ◽  
pp. 807-816 ◽  
Author(s):  
João A.M. Pedrosa ◽  
Berardino Cocchiararo ◽  
Maria D. Bordalo ◽  
Andreia C.M. Rodrigues ◽  
Amadeu M.V.M. Soares ◽  
...  
Keyword(s):  
Genetic Diversity ◽  
Environmental Stress ◽  
Past History ◽  
Chironomus Riparius ◽  
Selection Pressures

scholarly journals Genetic Diversity among Clostridium botulinum Strains Harboringbont/A2andbont/A3Genes

2012 ◽  
Vol 78 (24) ◽  
pp. 8712-8718 ◽  
Author(s):  
Carolina Lúquez ◽  
Brian H. Raphael ◽  
Lavin A. Joseph ◽  
Sarah R. Meno ◽  
Rafael A. Fernández ◽  
...  
Keyword(s):  
Genetic Diversity ◽  
Clostridium Botulinum ◽  
Type A ◽  
Gene Clusters ◽  
Nucleotide Sequencing ◽  
Toxin Gene ◽  
Content Type ◽  
Geographic Origins ◽  
Diversity Studies ◽  
Insight Into

ABSTRACTClostridium botulinumtype A strains are known to be genetically diverse and widespread throughout the world. Genetic diversity studies have focused mainly on strains harboring one type A botulinum toxin gene,bont/A1, although all reportedbont/Agene variants have been associated with botulism cases. Our study provides insight into the genetic diversity ofC. botulinumtype A strains, which containbont/A2(n= 42) andbont/A3(n= 4) genes, isolated from diverse samples and geographic origins. Genetic diversity was assessed by usingbontnucleotide sequencing, content analysis of thebontgene clusters, multilocus sequence typing (MLST), and pulsed-field gel electrophoresis (PFGE). Sequences ofbontgenes obtained in this study showed 99.9 to 100% identity with otherbont/A2orbont/A3gene sequences available in public databases. The neurotoxin gene clusters of the subtype A2 and A3 strains analyzed in this study were similar in gene content.C. botulinumstrains harboringbont/A2andbont/A3genes were divided into six and two MLST profiles, respectively. Four groups of strains shared a similarity of at least 95% by PFGE; the largest group included 21 out of 46 strains. The strains analyzed in this study showed relatively limited genetic diversity using either MLST or PFGE.

Theoretical basis for the use of pathogens as biological control agents of pest species

Parasitology ◽  
1982 ◽  
Vol 84 (4) ◽  
pp. 3-33 ◽  
Author(s):  
R. M. Anderson
Keyword(s):  
Population Growth ◽  
Mathematical Models ◽  
Horizontal Transmission ◽  
Host Density ◽  
Host Population ◽  
Pest Species ◽  
Population Abundance ◽  
Pest Population ◽  
Insect Pathogen ◽  
Cyclic Changes

SUMMARYThe population dynamics of insect–pathogen interactions are examined with the aid of simple mathematical models. Three concepts of central importance to the interpretation of population behaviour are discussed, namely the ability of the pathogen to persist within its host population, the ability to regulate and depress host population abundance, and the ability to induce non-seasonal cyclic changes in host density. The selection of pathogen species or strains to depress pest population growth is discussed and the optimal characteristics are shown to be intermediate pathogencity combined with an ability to reduce infected host reproduction, high transmission efficiency, including elements of vertical as well as horizontal transmission stages. When the pathogen plays a significant role in the regulation of host population growth, it is argued that many insect–pathogen interactions will exhibit non-seasonal oscilations in host and pathogen abundance. Mathematical models are used to explore the patterns of population behaviour that result from the continual introduction of a pathogen into a target pest population. It is shown that there exists a critical introdution rate, above which the eradication of the pest is theoretically possible. Significant reductions in pest population abundance will not occur until the introduction rate approaches this critical value, whereupon the oscillatory behaviour of the interaction between host and pathogen population will be suppressed.A general dicussion is given of the problems arising from the combined use of chemical agents and pathogens for the control of pest species, and the evolutionary pressures acting on host and pathogen populations.

scholarly journals Virulence evolution of multiple infections with vertically and horizontally transmitted fungal species in a natural plant system

2020 ◽  
Author(s):  
Kai Fang ◽  
Jie Zhou ◽  
Lin Chen ◽  
Yu-Xuan Li ◽  
Ai-Ling Yang ◽  
...  
Keyword(s):  
Invasive Plant ◽  
Horizontal Transmission ◽  
Experimental Studies ◽  
Fungal Species ◽  
Host Population ◽  
Transmission Mode ◽  
Multiple Infections ◽  
Plant Host ◽  
Susceptible Host ◽  
Virulence Evolution

AbstractThe virulence evolution of multiple infections of parasites from the same species has been modelled widely in evolution theory, and the trajectories of evolution are relevant to parasite transmission mode, as well as to parasite and host population dynamics. However, experimental studies on this topic remain scarce, particularly regarding multiple infections by different parasite species. In this study, we employed the invasive plant Ageratina adenophora to verify the predictions made by the model. We observed that A. adenophora was a highly susceptible host to phylogenetically diverse foliar pathogens with mixed vertical and horizontal transmission within leaf spots. The pathogen community structure at the leaf spot level was determined by transmission mode. Over time, the pathogen community decreased in diversity; meanwhile, the vertically transmitted pathogens exhibited decreased virulence to the host A. adenophora, but the horizontally transmitted pathogens exhibited increased virulence to the host. Our results demonstrate that the predictions of classical models are still valid in a complex environment. Moreover, we propose that it is very important to determine whether the primary foliar pathogen of a given plant host is relevant to seedborne fungi, as this characteristic is an important factor in understanding pathogen-host interactions.

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