Your search keyword '"Host (biology)"' showing total 69,264 results

1. Natural cubic perovskite, Ca(Ti,Si,Cr)O3–δ, a versatile potential host for rock-forming and less-common elements up to Earth’s mantle pressure

Author

Yulia S. Shelukhina, Fabrizio Nestola, Vladimir N. Bocharov, Leonid Dubrovinsky, Oleg S. Vereshchagin, Maksim S. Lozhkin, Natalia S. Vlasenko, Anatoly N. Zaitsev, Sergey N. Britvin, Aslandukov Andrey, Maria G. Krzhizhanovskaya, Liudmila A. Gorelova, and Alena Aslandukovа

Subjects

Crystallography, Geophysics, Materials science, Geochemistry and Petrology, Host (biology), Natural (archaeology), Perovskite (structure)

Abstract

Perovskite, CaTiO3, originally described as a cubic mineral, is known to have a distorted (orthorhombic) crystal structure. We herein report on the discovery of natural cubic perovskite. This was identified in gehlenite-bearing rocks occurring in a pyrometamorphic complex of the Hatrurim Formation (the Mottled Zone), in the vicinity of the Dead Sea, Negev Desert, Israel. The mineral is associated with native α-(Fe,Ni) metal, schreibersite (Fe3P), and Si-rich fluorapatite. The crystals of this perovskite reach 50 μm in size and contain many micrometer-sized inclusions of melilitic glass. The mineral contains significant amounts of Si substituting for Ti (up to 9.6 wt% SiO2), corresponding to 21 mol% of the davemaoite component (cubic perovskite-type CaSiO3), in addition to up to 6.6 wt% Cr2O3. Incorporation of trivalent elements results in the occurrence of oxygen vacancies in the crystal structure; this is the first example of natural oxygen-vacant ABO3 perovskite with the chemical formula Ca(Ti,Si,Cr)O3–δ (δ ~0.1). Stabilization of cubic symmetry (space group Pm3m) is achieved via the mechanism not reported so far for CaTiO3, namely displacement of an O atom from its ideal structural position (site splitting). The mineral is stable at atmospheric pressure to 1250 ± 50 °C; above this temperature, its crystals fuse with the embedded melilitic glass, yielding a mixture of titanite and anorthite upon melt solidification. The mineral is stable upon compression to at least 50 GPa. The a lattice parameter exhibits continuous contraction from 3.808(1) Å at atmospheric pressure to 3.551(6) Å at 50 GPa. The second-order truncation of the Birch-Murnaghan equation of state gives the initial volume V0 equal to 55.5(2) Å3 and room temperature isothermal bulk modulus K0 of 153(11) GPa. The discovery of oxygen-deficient single perovskite suggests previously unaccounted ways for incorporation of almost any element into the perovskite framework up to pressures corresponding to those of the Earth’s mantle.

Published

2022

2. Variants with the N501Y mutation extend SARS-CoV-2 host range to mice, with contact transmission

Author

Sylvie Behillil, Dominique Rousset, Flora Donati, Laurine Levillayer, Grégory Jouvion, Jean Jaubert, Xavier Montagutelli, Vincent Enouf, Mélanie Albert, Sylvie van der Werf, Fabiana Gámbaro, Eduard Baquero Salazar, Etienne Simon-Loriere, Félix A. Rey, Laurine Conquet, Matthieu Prot, Génétique de la souris - Mouse Genetics, Institut Pasteur [Paris] (IP)-Université Paris Cité (UPCité), Génomique évolutive des virus à ARN - Evolutionary genomics of RNA viruses, Génétique fonctionnelle des maladies infectieuses - Functional Genetics of Infectious Diseases, Institut Pasteur [Paris] (IP)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), Virologie Structurale - Structural Virology, École nationale vétérinaire - Alfort (ENVA), Dynamic Microbiology - EA 7380 (DYNAMIC), École nationale vétérinaire - Alfort (ENVA)-Agence nationale de sécurité sanitaire de l'alimentation, de l'environnement et du travail (ANSES)-Université Paris-Est (UPE)-Université Paris-Est Créteil Val-de-Marne - Paris 12 (UPEC UP12), Immunologie humorale - Humoral Immunology, Institut Pasteur [Paris] (IP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Paris Cité (UPCité), Génétique Moléculaire des Virus à ARN - Molecular Genetics of RNA Viruses (GMV-ARN (UMR_3569 / U-Pasteur_2)), Centre National de Référence des virus respiratoires (dont la grippe et le SARS-CoV2) [Paris] (CNR - laboratoire associé), Institut Pasteur de la Guyane, Réseau International des Instituts Pasteur (RIIP), This work was supported by the « URGENCE COVID-19 » fundraising campaign of Institut Pasteur), the French Government’s Investissement d’Avenir program, Laboratoire d’Excellence Integrative Biology of Emerging Infectious Diseases (Grant No. ANR-10-LABX-62-IBEID), the Agence Nationale de la Recherche (Grant No. ANR-20-COVI-0028-01) and the RECOVER project funded by the European Union’s Horizon 2020 research and innovation programme under grant agreement No. 101003589. ESL acknowledges funding from the INCEPTION programme (Investissements d’Avenir grant ANR-16-CONV-0005)., ANR-10-LABX-0062,IBEID,Integrative Biology of Emerging Infectious Diseases(2010), ANR-20-COVI-0028,HuMoCID,Développement de modèles murins de COVID-19(2020), ANR-16-CONV-0005,INCEPTION,Institut Convergences pour l'étude de l'Emergence des Pathologies au Travers des Individus et des populatiONs(2016), and European Project: 101003589, H2020-SC1-PHE-CORONAVIRUS-2020,RECOVER(2020)

Subjects

Infectivity, Genetics, Mutation rate, variants, reservoir, mice, Rodent, biology, Sars-CoV-2, Host (biology), [SDV]Life Sciences [q-bio], transmission, RNA, host range, Virus, biology.animal, Adaptation, Receptor

Abstract

Receptor recognition is a major determinant of viral host range, as well as infectivity and pathogenesis. Emergences have been associated with serendipitous events of adaptation upon encounters with a novel host, and the high mutation rate of RNA viruses has been proposed to explain their frequent host shifts 1. SARS-CoV-2 extensive circulation in humans has been associated with the emergence of variants, including variants of concern (VOCs) with diverse mutations in the spike and increased transmissibility or immune escape 2. Here we show that unlike the initial virus, VOCs are able to infect common laboratory mice, replicating to high titers in the lungs. This host range expansion is explained in part by the acquisition of changes at key positions of the receptor binding domain that enable binding to the mouse angiotensin-converting enzyme 2 (ACE2) cellular receptor, although differences between viral lineages suggest that other factors are involved in the capacity of SARS-CoV-2 VOCs to infect mice. This abrogation of the species barrier raises the possibility of wild rodent secondary reservoirs and provides new experimental models to study disease pathophysiology and countermeasures.

Published

2023

3. Parasite‐induced shifts in host movement may explain the transient coexistence of high‐ and low‐pathogenic disease strains

Author

Amy Hurford and Abdou Moutalab Fofana

Subjects

Lethargy, 0106 biological sciences, Virulence, Disease, Biology, medicine.disease_cause, Models, Biological, 010603 evolutionary biology, 01 natural sciences, Host-Parasite Interactions, 03 medical and health sciences, medicine, Animals, Parasite hosting, Parasites, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Genetics, 0303 health sciences, Mutation, Host (biology), Transmission (medicine), food and beverages, Biological Evolution, Influenza A virus subtype H5N1, 3. Good health

Abstract

Many parasites induce decreased host movement, known as lethargy, which can impact disease spread and the evolution of virulence. Mathematical models have investigated virulence evolution when parasites cause host death, but disease-induced decreased host movement has received relatively less attention. Here, we consider a model where, due to the within-host parasite replication rate, an infected host can become lethargic and shift from a moving to a resting state, where it can die. We find that when the lethargy and disease-induced mortality costs to the parasites are not high, then evolutionary bistability can arise, and either moderate or high virulence can evolve depending on the initial virulence and the magnitude of mutation. These results suggest, firstly, the transient coexistence of strains with different virulence, which may explain the coexistence of low- and high-pathogenic strains of avian influenza and human immunodeficiency viruses, and secondly, that medical interventions to treat the symptoms of lethargy or prevent disease-induced host deaths can result in a large jump in virulence and the rapid evolution of high virulence. In complement to existing results that show bistability when hosts are heterogeneous at the population-level, we show that evolutionary bistability may arise due to transmission heterogeneity at the individual host-level.

Published

2022

4. Diverse host-associated fungal systems as a dynamic source of novel bioactive anthraquinones in drug discovery: Current status and future perspectives

Author

Mohamed A. Farag and Zeinab T. Abdel Shakour

Subjects

Antifungal, 2019-20 coronavirus outbreak, Multidisciplinary, Coronavirus disease 2019 (COVID-19), Drug discovery, medicine.drug_class, Host (biology), business.industry, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Fungi, Structural diversity, Anthraquinones, Allergens, Plants, Biology, Biotechnology, chemistry.chemical_compound, chemistry, Drug Discovery, Endophytes, medicine, Animals, business, Ecosystem

Abstract

Background Despite, a large number of bioactive anthraquinones (AQs) isolated from host-living fungi, only plant-derived AQs were introduced in the global consumer markets. Host-living fungi represents renewable and extendible resources of diversified metabolites to be exploited for bioactives production. Unique classes of AQs from fungi include halogenated and steroidal AQs, and absent from planta are of potential to explore for biological activity against urging diseases such as cancer and multidrug-resistant pathogens. The structural diversity of fungal AQs, monomers, dimers, trimers, halogenated, etc… results in a vast range of pharmacological activities. Aim of review The current study capitalizes on uncovering the diversity and distribution of host-living fungal systems producing AQs in different terrestrial ecosystems ranging from plant endophytes, lichens, animals and insects. Furthermore, the potential bioactivities of fungal derived AQs i.e., antibacterial, antifungal, antiviral (anti-HIV), anticancer, antioxidant, diuretic and laxative activities are assembled in relation to their structure activity relationship (SAR). Analyzing for structure–activity relationship among fungal AQs may facilitate bioengineering of more potential analogues. Withal, elucidation of AQs biosynthetic pathways in fungi is discussed from different fungal hosts to open up new possibilities for potential biotechnological applications. Such comprehensive review unravels terrestrial host-living fungal systems as a treasure trove in drug discovery, in addition to future perspectives and trends for their exploitation in pharmaceutical industries. Key Scientific Concepts of Review Such comprehensive review unravels terrestrialhost-living fungal systems as a treasure trove in drug discovery, in addition to future perspectives and trends for their exploitation in pharmaceutical industries.

Published

2022

5. Host genomic influence on bacterial composition in the switchgrass rhizosphere

Author

Jesse R. Lasky, John E. Carlson, Jeremy Sutherland, Terrence H. Bell, and Ryan V. Trexler

Subjects

Rhizosphere, Ecotype, Bacteria, Host (biology), Genetic Variation, Outcrossing, Genomics, Biology, Heritability, Panicum, Article, Tetraploidy, Botany, Genetic variation, Genetics, Alpha diversity, Host adaptation, Ecology, Evolution, Behavior and Systematics, Genome-Wide Association Study

Abstract

Host genetic variation can shape the diversity and composition of associated microbiomes, which may reciprocally influence host traits and performance. While the genetic basis of phenotypic diversity of plant populations in nature has been studied, comparatively little research has investigated the genetics of host effects on their associated microbiomes. Switchgrass (Panicum virgatum) is a highly outcrossing, perennial, grass species with substantial locally adaptive diversity across its native North American range. Here, we compared 383 switchgrass accessions in a common garden to determine the host genotypic influence on rhizosphere bacterial composition. We hypothesized that the composition and diversity of rhizosphere bacterial assemblages would differentiate due to genotypic differences between hosts (potentially due to root phenotypes and associated life history variation). We observed higher alpha diversity of bacteria associated with upland ecotypes and tetraploids, compared to lowland ecotypes and octoploids, respectively. Alpha diversity correlated negatively with flowering time and plant height, indicating that bacterial composition varies along switchgrass life history axes. Narrow-sense heritability (h2) of the relative abundance of twenty-one core bacterial families was observed. Overall compositional differences among tetraploids, due to genetic variation, supports wide-spread genotypic influence on the rhizosphere microbiome. Lastly, a genome-wide association study identified 1,861 single-nucleotide polymorphisms associated with 110 families and genes containing them related to potential regulatory functions. Our findings suggest that switchgrass genomic and life-history variation influences bacterial composition in the rhizosphere, potentially due to host adaptation to local environments.

Published

2022

6. The interaction among gut microbes, the intestinal barrier and short chain fatty acids

Author

Shad Mahfuz, Shenfei Long, Jiayu Ma, Xiangshu Piao, and Jian Wang

Subjects

Immune system, Intestinal microorganisms, Food Animals, Host (biology), Animal Science and Zoology, Biology, Organism, Homeostasis, Gut homeostasis, Cell biology

Abstract

The mammalian gut is inhabited by a massive and complicated microbial community, in which the host achieves a stable symbiotic environment through the interdependence, coordination, reciprocal constraints and participation in an immune response. The interaction between the host gut and the microbiota is essential for maintaining and achieving the homeostasis of the organism. Consequently, gut homeostasis is pivotal in safeguarding the growth and development and potential productive performance of the host. As metabolites of microorganisms, short chain fatty acids are not only the preferred energy metabolic feedstock for host intestinal epithelial cells, but also exert vital effects on antioxidants and the regulation of intestinal community homeostasis. Herein, we summarize the effects of intestinal microorganisms on the host gut and the mechanisms of action of short chain fatty acids on the four intestinal barriers of the organism, which will shed light on the manipulation of the intestinal community to achieve precise nutrition for specific individuals and provide a novel perspective for the prevention and treatment of diseases.

Published

2022

7. Human Susceptibility to Influenza Infection and Severe Disease

Author

Robert C. Mettelman and Paul G. Thomas

Subjects

0301 basic medicine, Host (biology), business.industry, 030106 microbiology, Patient Acuity, virus diseases, Severe disease, Host factors, Disease, Severe influenza, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Human health, 030104 developmental biology, Immunology, Host-Pathogen Interactions, Influenza, Human, Medicine, Humans, Epidemiologic research, Disease Susceptibility, business, Perspectives

Abstract

Influenza viruses are a persistent threat to global human health. Increased susceptibility to infection and the risk factors associated with progression to severe influenza-related disease are determined by a multitude of viral, host, and environmental conditions. Decades of epidemiologic research have broadly defined high-risk groups, while new genomic association studies have identified specific host factors impacting an individual's response to influenza. Here, we review and highlight both human susceptibility to influenza infection and the conditions that lead to severe influenza disease.

Published

2023

8. Life table parameters of the parasitoid Cephalonomia tarsalis (Hymenoptera : Bethylidae) and its host the saw-toothed grain beetle Oryzaephilus surinamensis (Coleoptera : Silvanidae)

Author

Panagiotis A. Eliopoulos

Subjects

demography, Host (biology), fungi, Biological pest control, biological control, intrinsic rate of increase, stored products, Plant culture, Soil Science, Zoology, Silvanidae, Oryzaephilus surinamensis, Plant Science, Hymenoptera, Biology, biology.organism_classification, SB1-1110, Parasitoid, Bethylidae, Population dynamics, Agronomy and Crop Science

Abstract

Biological parameters of the larval parasitoid Cephalonomia tarsalis (Ashmead) (Hymenoptera: Bethylidae) and its host the saw-toothed beetle Oryzapehilus surinamensis (L.) (Coleoptera: Silvanidae) were studied in the laboratory. The duration of the immature period, survival during development, as well as adult longevity and the number of progeny of both insects were recorded. Our data were used for the estimation of several demographic parameters and life table construction of both the host and the parasitoid. The wasp managed to complete its development (egg – adult) in 19.8 days at 25oC, whereas the adult female lived for 24.3 days. The host O. surinamensis demonstrated a longer developmental period (30.5 days) and adult female longevity (103.0 days). Female wasps laid an average of 66.4 eggs throughout their lifetime whereas their beetle hosts laid five times more eggs (313.9). Life table parameters of C. tarsalis were estimated for the first time. The intrinsic rate of natural increase (rm) was 0.124 which was almost double that of its host (0.056). Our results are discussed on the basis of evaluating and improving the performance of C. tarsalis as a biocontrol agent against O. surinamensis in storage facilities.

Published

2023

9. Phylloplane microbes impact host physiology: a review

Author

Rita Singh Majumdar, Susmita Goswami, and Navodit Goel

Subjects

epiphytes, Host (biology), fungi, food and beverages, Plant culture, Soil Science, Plant Science, Biology, SB1-1110, bioprotectants, Botany, microbiota, phyllosphere, Epiphyte, phylloplane, Phyllosphere, Agronomy and Crop Science

Abstract

The phyllosphere refers to the entire aerial habitat of plants while phylloplane describes the entire leaf surface. The phylloplane provides a niche for diversified microbial communities and as such it is an important ecosystem both ecologically and economically. For many years, phylloplane dwellers have been studied as bio protectants and enhancers of growth in host plants. Plants and phylloplane-microbial-interactions result in increased fitness and productivity of agricultural crops. In this study, an attempt was made to compile previous studies in order to better understand the role of phylloplane microbiota in influencing the physiology of flora. We also proposed possible further research to explore molecular aspects of signaling mechanisms established by the phylloplane microbial community with their hosts which impact the latter’s physiology.

Published

2023

10. Experimental study of tabanid polarotaxis, host-tabanid interaction and polarization tabanid traps

Author

Ádám Egri

Subjects

Physics, Host (biology), Chemical physics, Polarization (waves)

Published

2023

11. The effects of the nonnative brittle star Ophiothela mirabilis Verrill, 1867 on the feeding performance of an octocoral host in a southwestern Atlantic rocky shore

Author

Patrick Derviche and Paulo da Cunha Lana

Subjects

Rocky shore, biology, Ecology, Host (biology), Brittle star, biology.organism_classification, Ophiothela, Geology, Ecology, Evolution, Behavior and Systematics

Abstract

The Pacific epizoic brittle star Ophiothela mirabilis Verrill, 1867 has widely spread and colonized hosts at high densities along the Western Atlantic. We assessed the impacts of O. mirabilis on the feeding performance of the preferred host Leptogorgia punicea (Milne Edwards & Haime, 1857) through in situ experiments using incubation chambers and estimated its putative effects on the benthic-pelagic coupling processes of a rocky shore system. The feeding rates and heterotrophic carbon inputs of L. punicea treatments with high colonization by O. mirabilis (5.4 ± 0.6 individuals cm− 2 of host area) were compared to host controls naturally without brittle stars. No significant differences in host feeding performance were observed between the control and treatments. Overall, L. punicea ingested 2,688,569 ± 1,627,948 particles g DW (dry weight)−1 hour− 1 (mean ± standard deviation), corresponding to 156.8 ± 207.5 µg of carbon (C) g DW− 1 hour− 1. Therefore, although octocorals hosting O. mirabilis may have impaired polyp opening and extension, their feeding performance remains similar. In this sense, the impact of O. mirabilis on the carbon flux of the rocky shore system driven by octocoral ingestion is minimal. The grazing rate of 67.4 ± 89.2 mg C m− 2 day− 1 highlights the significant role of L. punicea in such benthic-pelagic coupling processes. Notwithstanding, further laboratory and field experimental studies assessing the effects on host taxa with distinct morphological and functional features are needed to better understand the responses of the recipient hard-bottom systems along the Western Atlantic to increasing densities of O. mirabilis.

Published

2022

12. Host selection behavior of the host-feeding parasitoid Necremnus tutae on Tuta absoluta

Author

Yi-Bo Zhang, Xiao-qing Xian, Fang-Hao Wan, Xiao-Cao Tian, Suran Wu, Jana Collatz, Jörg Romeis, Cristina Castañé, Wanxue Liu, Guifen Zhang, Judit Arnó, and Hao Wang

Subjects

Host (biology), Insect Science, Zoology, Leaf miner, Tuta absoluta, Necremnus tutae, Biology, biology.organism_classification, Selection (genetic algorithm), Parasitoid

Published

2022

13. Host phenology can drive the evolution of intermediate virulence strategies in some obligate‐killer parasites

Author

Erol Akçay, Dustin Brisson, and Hannelore MacDonald

Subjects

Obligate, Virulence, Transmission (medicine), Phenology, Host (biology), Biology, Biological Evolution, Optimal virulence, Host-Parasite Interactions, Evolutionary biology, Current theory, Genetics, Animals, Parasites, Negative correlation, General Agricultural and Biological Sciences, Ecology, Evolution, Behavior and Systematics

Abstract

The traditional mechanistic trade-offs resulting in a negative correlation between transmission and virulence are the foundation of nearly all current theory on the evolution of parasite virulence. Several ecological factors have been shown to modulate the optimal virulence strategies predicted from mechanistic trade-off models, but these ecological factors have not yet been shown to be sufficient to explain the intermediate virulence strategies observed in any natural system. The timing of seasonal activity, or phenology, is a common factor that influences the types and impact of many ecological interactions but is difficult to incorporate into virulence evolution studies. We develop a mathematical model of a disease system with seasonal host activity to study the evolutionary consequences of host phenology on the virulence of obligate-killer parasite. Results from this model demonstrated that seasonal host activity is sufficient to drive the evolution of intermediate parasite virulence in some types of natural disease systems, even when a traditional mechanistic trade-off between transmission and virulence is not assumed in the modeling framework. The optimal virulence strategy in these systems can be determined by both the duration of the host activity period as well as the variation in the host emergence timing. Parasites with low virulence strategies are favored in environments with long host activity periods and in environments in which hosts emerge synchronously. The results demonstrate that host phenology can be sufficient to select for intermediate optimal virulence strategies, providing an alternative mechanism to account for virulence evolution in some natural systems.

Published

2022

14. The Life Cycle and Ultrastructure of the Host Response of the Smut Pathogen Anthracocystis destruens on Broomcorn Millet

Author

Xiaowei Han, Jing Li, Mingqi Zhu, Huiqin Wu, Baili Feng, Long Liu, Enguo Wu, and Qinghua Yang

Subjects

biology, Host (biology), Host response, food and beverages, Anthracocystis, Plant Science, Fungus, Plant disease resistance, biology.organism_classification, Microbiology, Smut, Ultrastructure, Agronomy and Crop Science, Pathogen

Abstract

Broomcorn millet smut caused by the fungus Anthracocystis destruens is one of the most destructive diseases in broomcorn millet production. The life cycle of A. destruens and host defense responses against A. destruens remain elusive. Here we investigated the disease symptom development and the parasitic process of A. destruens as well as the ultrastructure of the host–pathogen interface. The results showed that there are four typical symptoms of broomcorn millet smut, which are blackfly, cluster leaves, hedgehog head, and incomplete fruiting. A. destruens colonizes all tissues of broomcorn millet but produces teliospores only in the inflorescence. After infection, A. destruens proliferates in the host, likely in a systemic manner. Ultrastructural study of the infected inflorescence showed that the pathogen grows intercellularly and intracellularly within the host. The host activates defense response to prevent pathogen infection, accumulation of callose analogs and highly electron-dense deposits to resist A. destruens infection.

Published

2022

15. Host ancestry and morphology differentially influence bacterial and fungal community structure of Rhododendron leaves, roots, and soil

Author

Sarah Kyker, David J. Burke, Jean H. Burns, Michael A Mann, and Juliana S. Medeiros

Subjects

Ecology, Host (biology), fungi, Ornamental plant, Botany, Community structure, food and beverages, Morphology (biology), Plant Science, Microbiome, Biology, Ecology, Evolution, Behavior and Systematics

Abstract

Rhododendron are popular ornamental plants that are well-known for forming mycorrhizal associations with ericoid fungi, but little is known about how host traits influence their microbiome more broadly. This study investigated leaf, root, rhizosphere soil, and bulk soil bacterial and fungal community structure for 12 Rhododendron species, representing four taxonomic clades with different leaf habits. Samples were collected when ephemeral hair roots colonized by ericoid mycorrhizae were absent, and microbial community structure was compared to leaf and root morphology for the same plants. Root morphology and the fungal communities of roots and rhizosphere soil were primarily structured by host ancestry. Leaf bacterial and fungal communities were even more distinct across clades than for roots or rhizosphere, and microbial communities of leaves and bulk soil were similarly structured by clade-wise differences in leaf morphology, suggesting a role for Rhododendron leaf litter in belowground microbial community structure. This work sheds new light on host traits influencing microbial community structure of ericaceous plants, showing a strong influence of ancestry, but also that different host traits drive bacterial and fungal communities across different plant compartments, suggesting future work on factors that drive similarity among close relatives in the non-ericoid microbes associating with Rhododendron.

Published

2022

16. Genome of the Giant Panda Roundworm Illuminates Its Host Shift and Parasitic Adaptation

Author

Li Luo, Zijiang Yang, Ran He, Jingchao Lai, Yue Xie, Xiaobin Gu, Shenghan Gao, Guangyou Yang, Xuan Zhou, Sen Wang, Chengdong Wang, Songnian Hu, Xuerong Peng, Jing Xu, Shuangyang Wu, and Qingshu Meng

Subjects

Comparative genomics, biology, Host (biology), Parasitism, Biochemistry, Genome, Computational Mathematics, Evolutionary biology, biology.animal, Ascaridoidea, Genetics, Animals, Parasite hosting, Parasites, Host adaptation, Adaptation, Molecular Biology, Ursidae, Ailuropoda melanoleuca

Abstract

Baylisascaris schroederi, a bamboo-feeding giant panda (Ailuropoda melanoleuca)-specific roundworm (ascaridoid) parasite, is the causative agent of baylisascariasis, which represents a leading reason for the mortality of wild giant panda populations and therefore poses a significant threat to giant panda conservation. Here we present a 293-Mb chromosome-level genome assembly of B. schroederi to inform its biology, including host adaptations. Comparative genomics revealed an evolutionary trajectory accompanied by host-shift events in ascaridoid parasite lineages after host separations, suggesting their potential transmissions and fast adaptations to hosts. Genomic and anatomical lines of evidence, including expansion and positive selection of genes related to cuticle and basal metabolisms, indicates that B. schroederi undergoes specific adaptations to survive in the sharp-edged bamboo enriched gut of giant panda by structurally increasing its cuticle thickness and efficiently utilizing host nutrients during gut parasitism. Also, we characterized the secretome and predicted potential drug and vaccine targets for new interventions. Overall, this genome resource provides new insights into the host adaptation of B. schroederi to giant panda as well as the host-shift events in ascaridoid parasite lineages. These findings also add to our knowledge on the unique biology of the giant panda roundworm and aid the development of much-needed novel strategies for the control of baylisascariasis and thus the protection of giant panda populations.

Published

2022

17. Metabolomics-based comparative analysis of the effects of host and environment on Viscum coloratum metabolites and antioxidative activities

Author

Rong Rong, Rui-Zhen Zhang, Yunli Zhao, Wei-Qing Wang, Zhiguo Yu, Jing-Tao Zhao, and Rong-Hua Fan

Subjects

Antioxidant, Chemistry, Host (biology), Metabolite, medicine.medical_treatment, Pharmaceutical Science, Biological activity, Pharmacy, Analytical Chemistry, chemistry.chemical_compound, Metabolomics, Biochemistry, Drug Discovery, Viscum coloratum, Electrochemistry, medicine, Host plants, Quadrupole time of flight, Spectroscopy

Abstract

Viscum coloratum (Kom.) Nakai is a well-known medicinal hemiparasite widely distributed in Asia. The synthesis and accumulation of its metabolites are affected by both environmental factors and the host plants, while the latter of which is usually overlooked. The purpose of this study is to comprehensively evaluate the effects of host and habitat on the metabolites in V. coloratum through multiple chemical and biological approaches. The metabolite profile of V. coloratum harvested from three different host plants in two habitats were determined by multiple chemical method including high-performance liquid chromatography-ultraviolet (HPLC-UV), gas chromatography-flame ionization detector (GC-FID) and ultra-performance liquid chromatography quadrupole time of flight mass spectrometry (UPLC-QTOF/MS). The differences in antioxidant efficacy of V. coloratum were determined based on multiple in vitro models. The multivariate statistical analysis and data fusion strategy were applied to analyze the differences in metabolite profile and antioxidant activity of V. coloratum. Results indicated that the metabolite profile obtained by various chemical approaches was simultaneously affected by hosts and environment factors, and the environment play a key role. Meanwhile, three main differential metabolites between two environment groups were identified. The results of antioxidant assay indicated that environment have more effects on the biological activity of V. coloratum than the host. Therefore, we conclude that the integration of various chemical and biological approaches combined with multivariate statistical and data fusion analysis, which can determine the influences of host plant and habitat on the metabolites, is a powerful strategy to control the quality of semi-parasitic herbal medicine.

Published

2022

18. Optimizing Use of DMI Fungicides for Management of Apple Powdery Mildew Caused by Podosphaera leucotricha in New York State

Author

Sara M. Villani, David Strickland, and Kerik D. Cox

Subjects

Podosphaera leucotricha, Host (biology), Myclobutanil, fungi, food and beverages, Plant Science, Biology, biology.organism_classification, Conidium, Fungicide, chemistry.chemical_compound, Horticulture, chemistry, Disease management (agriculture), Shoot, Agronomy and Crop Science, Powdery mildew

Abstract

Powdery mildew, caused by the ascomycete Podosphaera leucotricha, is an endemic disease found wherever apples are grown that reduces both tree vigor and fresh market yield. In the absence of durable host resistance, chemical management is the primary means of disease control. Demethylation inhibitor (DMI) fungicides are widely used to manage apple powdery mildew, but members within this fungicide class have been observed to differ in efficacy with respect to disease control. Moreover, debate exists as to the optimal timing of DMI fungicide applications for management of apple powdery mildew. In this regard, the goal of this study was to determine the best-use practices for DMI fungicides to manage apple powdery mildew in New York State. Multiyear trials were conducted to evaluate the potential differential efficacy performance of four common DMI fungicides, and additional trials were conducted to assess optimal application timing. In all years, we observed that treatments of flutriafol and myclobutanil consistently had the lowest incidences of powdery mildew compared with difenoconazole and fenbuconazole. In the 2018 and 2021 trials, the newly registered mefentrifluconazole was more comparable to the difenoconazole program with respect to powdery mildew disease incidence. We hypothesize that differences in DMI efficacy may result from each fungicide’s water solubility and lipophilicity characteristics and thus their ability to move systemically in the host or more easily penetrate the surface of germinating conidia. Applications timed between petal fall and first cover resulted in the lowest incidence of powdery mildew on terminal leaves of apple shoots compared with applications timed before petal fall. These observations are contrary to previous studies conducted in regions with differing climates. We also found that the incidence of secondary powdery mildew observed 2 weeks after petal fall was influenced by applications of DMI fungicides during the previous season. For example, management programs consisting of applications of flutriafol or myclobutanil in the previous season tended to have lower incidence of apple powdery in the next spring, presumably because of reductions in overwintering inoculum. Despite reports of DMI resistance in other apple pathosystems, the DMI fungicide class is still relevant for the successful management of apple powdery mildew in New York State.

Published

2022

19. The osmolyte-producing endophyte Streptomyces albidoflavus OsiLf-2 induces drought and salt tolerance in rice via a multi-level mechanism

Author

Liang Guo, Jianzhong Lin, Yuanzhu Yang, Ziwei Qin, Xuanming Liu, Huixian Zi, Ning Chen, Yan Gao, Ying Liu, Shuqi Niu, Yonghua Zhu, Qingqing Yao, Peng Qin, and Xianqiu Xiong

Subjects

biology, Host (biology), food and beverages, Plant Science, Photosynthetic efficiency, Ectoine, biology.organism_classification, Endophyte, Salinity, chemistry.chemical_compound, Horticulture, chemistry, Osmolyte, Proline, Sugar, Agronomy and Crop Science

Abstract

Drought and salinity are major environmental stresses that impair crop growth and productivity worldwide. Improving drought and salt tolerance of crops with microbial mutualists is an effective and environmentally sound strategy to meet the demands of the ever-growing world population. In the present study, we found that the Streptomyces albidoflavus OsiLf-2, a moderately salt-tolerant endophytic actinomycete, produced abundant osmolytes, including proline, polysaccharides, and ectoine. Inoculation with OsiLf-2 increased the osmotic-adjustment ability of the rice host by increasing the proline content (by 250.3% and 49.4%) and soluble sugar (by 20.9% and 49.4%) in rice under drought and salt conditions, relative to the uninoculated control. OsiLf-2 increased stress responses in the rice host at the physiological and biochemical levels (photosynthesis efficiency, osmolytes and antioxidant content), and the gene level (osmolytes synthesis, stress-responsive and ion-transport related genes), raising rice yields under both greenhouse and saline–alkaline soil conditions. The use of endophytic actinomycetes offers a promising biotechnological approach to developing stress-tolerant plants.

Published

2022

20. Mutation of a Single Core Gene, tssM, of Type VI Secretion System of Xanthomonas perforans Influences Virulence, Epiphytic Survival, and Transmission During Pathogenesis on Tomato

Author

Prabha Liyanapathiranage, Neha Potnis, and Jeffrey B. Jones

Subjects

Host (biology), Xanthomonas perforans, Mutant, Virulence, Colonization, Plant Science, Biology, Phyllosphere, Agronomy and Crop Science, Pathogen, Microbiology, Type VI secretion system

Abstract

Xanthomonas perforans is a seedborne hemibiotrophic pathogen that successfully establishes infection in the phyllosphere of tomato. While most studies investigating mechanistic basis of pathogenesis have focused on successful apoplastic growth, factors important during asymptomatic colonization in the early stages of disease development are not well understood. In this study, we show that tssM gene of the type VI secretion system cluster i3* (T6SS-i3*) plays a significant role during initial asymptomatic epiphytic colonization at different stages during the life cycle of the pathogen. Mutation in a core gene, tssM of T6SS-i3*, imparted higher aggressiveness to the pathogen, as indicated by higher overall disease severity, higher in planta growth, and shorter latent infection period compared with the wild-type upon dip inoculation of 4- to 5-week-old tomato plants. Contribution of tssM toward aggressiveness was evident during vertical transmission from seed to seedling, with wild-type showing reduced disease severity as well as lower in planta populations on seedlings compared with the mutant. Presence of functional TssM offered higher epiphytic fitness as well as higher dissemination potential to the pathogen when tested in an experimental setup mimicking transplant house high-humidity conditions. We showed higher osmotolerance being one mechanism by which TssM offers higher epiphytic fitness. Taken together, these data reveal that functional TssM plays a larger role in offering ecological advantage to the pathogen. TssM prolongs the association of hemibiotrophic pathogen with the host, minimizing overall disease severity yet facilitating successful dissemination.

Published

2022

21. Vibrio natriegens as a host for rapid biotechnology

Author

Sheng Yang, Lirong Yang, and Jiaqi Xu

Subjects

biology, Host (biology), Chemistry, Fast Growth Rate, Bioengineering, Vibrio natriegens, Substrate (biology), biology.organism_classification, Protein expression, Microbiology, Metabolic engineering, Metabolic Engineering, Doubling time, Molecular Biology, Bacteria, Vibrio, Biotechnology

Abstract

Vibrio natriegens is a Gram-negative marine bacterium with an exceptionally fast growth rate and a doubling time of less than 10 min. Its high substrate uptake rates and metabolic prowess make it a promising next-generation workhorse for rapid molecular biology, protein expression, and metabolic engineering.

Published

2022

22. Escherichia coli urinary tract infections: Host age-related differences in bacterial virulence factors and antimicrobial susceptibility

Author

Li Li Wen, Wei Hung Lin, Cheng Yen Kao, Po Shun Chen, Po Yao Liu, Ching Hao Teng, and Ming Cheng Wang

Subjects

Male, 0301 basic medicine, Microbiology (medical), Virulence Factors, 030106 microbiology, Virulence, Biology, medicine.disease_cause, Microbiology, 03 medical and health sciences, 0302 clinical medicine, Antigen, medicine, Humans, Uropathogenic Escherichia coli, Immunology and Allergy, 030212 general & internal medicine, Agar diffusion test, Escherichia coli, Escherichia coli Infections, Phylogeny, Aged, General Immunology and Microbiology, Phylogenetic tree, Host (biology), General Medicine, Antimicrobial, OmpT, Anti-Bacterial Agents, Infectious Diseases, Urinary Tract Infections, Female

Abstract

Background Urinary tract infections (UTIs) caused by uropathogenic Escherichia coli (UPEC) are one of the most common outpatient bacterial infections. Although bacterial and host factors are reported to be associated with UTI pathogenesis, little is known about the host age-related differences in bacterial virulence factors and antimicrobial susceptibility. Methods PCRs were carried out to detect K1 capsule antigen, 15 virulence factors, and phylogenetic groups in E. coli isolates. Antimicrobial susceptibility of selected agents was determined by the disk diffusion method. Isolates were divided into 6 groups based on their host age. Results The results showed that virulence factors PapGII, PapGIII, Cnf1, Aer, Usp, Iha, OmpT, HlyA, and Sat, had highest frequencies in the host age group 0–3. Phylogenetic group B2 dominated in our isolates (59.6%) followed by group D (20.7%). In addition, 77.4% of strains isolated from 0 to 3 age group belonged to phylogenetic group B2. Antimicrobial susceptibility tests showed that E. coli strains isolated were significantly more resistant to antimicrobial agents as host age increased. Phylogenetic group B2 isolates were more susceptible to antimicrobial agents, compared to A, B1, and D isolates. Conclusion We found E. coli isolated from elders were more resistant to antimicrobial agents and had less virulence factors.

Published

2022

23. NLRP1B and NLRP3 Control the Host Response following Colonization with the Commensal Protist Tritrichomonas musculis

Author

Pailin Chiaranunt, Helen Liang, Eric Y. Cao, Kyle Burrows, Arthur Mortha, Catherine J. Streutker, Stephen E. Girardin, and Louis Ngai

Subjects

Salmonella, Host (biology), Immunology, Biology, biology.organism_classification, medicine.disease_cause, Microbiology, Immune system, Extracellular, medicine, Immunology and Allergy, Microbiome, Cell activation, Intracellular, Tritrichomonas

Abstract

Commensal intestinal protozoa, unlike their pathogenic relatives, are neglected members of the mammalian microbiome. These microbes have a significant impact on the host’s intestinal immune homeostasis, typically by elevating anti-microbial host defense. Tritrichomonas musculis (T. mu), a protozoan gut commensal, strengthens the intestinal host defense against enteric Salmonella infections through Asc- and Il1r1-dependent Th1 and Th17 cell activation. However, the underlying inflammasomes mediating this effect remain unknown. Here, we report that colonization with T. mu results in an increase in luminal extracellular ATP, elevated levels of IL-1β, and increased numbers of IL-18 receptor-expressing Th1 and Th17 cells in the colon. Mice deficient in either Nlrp1b or Nlrp3 failed to display these protozoan-driven immune changes and lost resistance to enteric Salmonella infections even in the presence of T. mu. These findings demonstrate that T. mu-mediated host protection requires sensors of extra and intracellular ATP to confer resistance to enteric Salmonella infections.KEY POINTSIntestinal colonization with the commensal Tritrichomonas musculis elevates luminal ATP levelsNLRP1B and NLRP3 activation is required for Tritrichomonas musculis-driven Th cell response.

Published

2022

24. The phosphate language of fungi

Author

Xianya Qu, James W. Kronstad, Kabir Bhalla, and Matthias Kretschmer

Subjects

0106 biological sciences, Microbiology (medical), Plant Immunity, Biology, 01 natural sciences, Microbiology, Article, Plant use of endophytic fungi in defense, Phosphates, 03 medical and health sciences, chemistry.chemical_compound, Mediator, Immune system, Mycorrhizae, Virology, 030304 developmental biology, Fungal pathogenesis, 0303 health sciences, Host (biology), Fungi, Plants, 15. Life on land, Phosphate, Infectious Diseases, chemistry, Adaptation, 010606 plant biology & botany

Abstract

Phosphate is an essential macronutrient for fungal proliferation as well as a key mediator of antagonistic, beneficial, and pathogenic interactions between fungi and other organisms. In this review, we summarize recent insights into the integration of phosphate metabolism with mechanisms of fungal adaptation that support growth and survival. In particular, we highlight aspects of phosphate sensing important for responses to stress and regulation of cell-surface changes with an impact on fungal pathogenesis, host immune responses, and disease outcomes. Additionally, new studies provide insights into the influence of phosphate availability on cooperative or antagonistic interactions between fungi and other microbes, the associations of mycorrhizal and endophytic fungi with plants, and connections with plant immunity. Overall, phosphate homeostasis is emerging as an integral part of fungal metabolism and communication to support diverse lifestyles.

Published

2022

25. Potential of parasitoid Gronotoma micromorpha Perkin (Hymenoptera: Eucoilidae) as a biocontrol agent for pea leafminer fly, Liriomyza huidobrensis Blanchard (Diptera: Agromyzidae)

Author

Putu Angga Wiradana, Yohanes, I Wayan Susila, I Kadek Wisma Yudha, and I Wayan Supartha

Subjects

education.field_of_study, biology, Host (biology), fungi, Population, Parasitism, 04 agricultural and veterinary sciences, General Medicine, 010501 environmental sciences, biology.organism_classification, Fecundity, 01 natural sciences, Parasitoid, Biopesticide, Horticulture, Agromyzidae, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Instar, education, 0105 earth and related environmental sciences

Abstract

The potential of the parasitoid, Gronotoma micromorpha (Perkin) as a biological control agent for pea leafminer fly, Liriomyza huidobrensis (Blanchard) has been evaluated in a series of studies on the fly preference to host instars, biological characteristic and functional response to the host density. The studies were carried out at the Laboratory of Integrated Pest Management (IPMLab), Faculty of Agriculture Udayana University in Denpasar and Greenhouse Owned-Farmer in Pancasari Buleleng, Bali (1200 m asl; average temperature 23.67 ± 5.69 °C and average RH of 64 ± 17.69%). The results showed that G. micromorpha has a strong preference towards the 3rd instar larvae of L. huidobrensis. The pre-oviposition period was 0.4 ± 0.67d, oviposition was 12.5 ± 2.0d and post-oviposition period was 1 ± 0.0d while the peak oviposition occurred on the 4th day. Meanwhile, all the offsprings produced were females which indicated that parthenogenesis thelytokous was present in G. Micromorpha and the fecundity was 29 ± 3.77 per female adult. Furthermore, the average life span for the adult was 13 ± 1.42 days with an oviposition period of 12.5 ± 2.01 days. The average post-oviposition period was 1 ± 0.0 days and average development period of egg to adult was 32.03 ± 0.98 days. Meanwhile, the breeding potential was high with an average daily percentage of 2.27 ± 0.27 fecundity and a maximum spawning occurred on day 4. The functional response was type-2 and it is the rate at which parasitism increase with increase in population of the host density. Hence, the biological characteristics and mode of functional response by the parasitoid showed its potential as a biological pesticide for pea leafminer L. huidobrensis.

Published

2022

26. Glycan-mediated molecular interactions in bacterial pathogenesis

Author

Erick Maosa Bosire, Saroj K. Mahato, Sohyoung Lee, Sean Inzerillo, Jeongmin Song, and Gi Young Lee

Subjects

Microbiology (medical), Molecular interactions, Glycan, Bacteria, Host (biology), Polysaccharides, Bacterial, Bacterial pathogenesis, Biology, biology.organism_classification, Microbiology, Article, carbohydrates (lipids), Pathogenesis, Infectious Diseases, Immune system, Phagocytosis, Polysaccharides, Virology, Host-Pathogen Interactions, biology.protein, Pathogen, Immune Evasion

Abstract

Glycans are expressed on the surface of nearly all host and bacterial cells. Not surprisingly, glycan-mediated molecular interactions play a vital role in bacterial pathogenesis and host responses against pathogens. Glycan-mediated host-pathogen interactions can benefit the pathogen, host, or both. Here, we discuss (i) bacterial glycans that play a critical role in bacterial colonization and/or immune evasion, (ii) host glycans that are utilized by bacteria for pathogenesis, and (iii) bacterial and host glycans involved in immune responses against pathogens. We further discuss (iv) opportunities and challenges for transforming these research findings into more effective antibacterial strategies, and (v) technological advances in glycoscience that have helped to accelerate progress in research. These studies collectively offer valuable insights into new perspectives on antibacterial strategies that may effectively tackle the drug-resistant pathogens that are rapidly spreading globally.

Published

2022

27. Ajaysinghia dendriscostictae a new genus and species of lichenicolous fungus growing on Dendriscosticta praetextata (Peltigerales: Peltigeraceae) in India

Author

Yogesh Joshi

Subjects

Ecology, Host (biology), Plant Science, Biology, biology.organism_classification, Thallus, Type species, Lichenicolous fungus, Genus, Insect Science, Botany, Temperate climate, Animal Science and Zoology, Peltigerales, Lichen, Ecology, Evolution, Behavior and Systematics

Abstract

The new commensalistic lichenicolous genus Ajaysinghia, is described, illustrated, and compared with other morphologically similar fungi. The type species, A. dendriscostictae, grows on the thallus of the corticolous lichen Dendriscosticta praetextata in temperate and subalpine regions of Central Himalaya (Uttarakhand, India). It is distinguished from other lichenicolous ascomycetes described so far in having pseudoperithecia growing in clumps making it appear like galls, (0–)1-septate, brown ascospores [(12–)14.2–17.3(–18) × (3–)3.7–4.8(–5) μm, l/b = (2.8–)3.3–4.2(–4.6) μm], with rounded to pointed ends, slightly constricted at the septum and a cyanobacterial host (Dendriscosticta praetextata).

Published

2022

28. Adaptation of Phytophthora nicotianae to Multiple Sources of Partial Resistance in Tobacco

Author

Ignazio Carbone, Jing Jin, Ramsey S. Lewis, Kestrel Lannon McCorkle, Vicki Cornish, and H. David Shew

Subjects

Genetics, biology, Inoculation, Host (biology), food and beverages, Plant Science, Phytophthora nicotianae, biology.organism_classification, Race (biology), Genotype, Nicotiana rustica, Root rot, Adaptation, Agronomy and Crop Science

Abstract

Host resistance is an important tool in the management of black shank disease of tobacco. Race development leads to rapid loss of single-gene resistance, but the adaptation by Phytophthora nicotianae to sources of partial resistance from Beinhart 1000, Florida 301, and the Wz gene region introgressed from Nicotiana rustica is poorly characterized. In greenhouse environments, host genotypes with quantitative trait loci (QTLs) conferring resistance from multiple sources were initially inoculated with an aggressive isolate of race 0 or race 1 of P. nicotianae. The most aggressive isolate was selected after each of six host generations to inoculate the next generation of plants. The race 0 isolate demonstrated a continuous gradual increase in disease severity and percentage root rot on all sources of resistance except the genotype K 326 Wz/–, where a large increase in both was observed between generations 2 and 3. Adaptation by the race 0 isolate on Beinhart 1000 represents the first report of adaptation to this genotype by P. nicotianae. The race 1 isolate did not exhibit significant increases in aggressiveness over generations but exhibited a large increase in aggressiveness on K 326 Wz/– between generations 3 and 4. Molecular characterization of isolates recovered during selection was completed via double digest restriction-site associated DNA sequencing, but no polymorphisms were associated with the observed changes in aggressiveness. The rapid adaptation to Wz resistance and the gradual adaptation to other QTLs highlights the need to study the nature of Wz resistance and to conduct field studies on the efficacy of resistance gene rotation for disease management.

Published

2022

29. Nova-Bollinger Ni-Cu Sulfide Ore Deposits, Fraser Zone, Western Australia: Petrogenesis of the Host Intrusions

Author

Colin M. MacRae, Steve Beresford, Valentina Taranovic, Louise Schoneveld, Stephen Barnes, and Morgan Williams

Subjects

chemistry.chemical_classification, Geophysics, Sulfide, chemistry, Geochemistry and Petrology, Host (biology), Geochemistry, Economic Geology, Geology, Petrogenesis

Abstract

The Nova-Bollinger Ni-Cu sulfide ore deposit is the first economic Ni-Cu-Co sulfide deposit to have been discovered in the Albany-Fraser orogen in Western Australia. The host rocks are mafic-ultramafic intrusive cumulates subdivided into two connected intrusions, designated Upper and Lower. The Upper Intrusion is bowl-shaped and modally layered with alternating peridotite and norite mesocumulate layers, with a Basal Series of dominantly orthocumulate mafic lithologies. The Lower Intrusion is a much thinner, semiconformable chonolith (flattened tube-shaped intrusion) consisting of mostly unlayered mafic to ultramafic orthocumulates. The Lower Intrusion hosts all the high-grade mineralization and most of the disseminated ores. A distinctive plagioclase-bearing lherzolite containing both orthopyroxene and olivine as cumulus phases is a characteristic of the Lower Intrusion and the Basal Series of the Upper. The intrusions differ slightly in olivine and spinel chemistry, the differences being largely attributable to the more orthocumulate character of the Lower Intrusion. Sector zoning in Cr content of pyroxenes is observed in the Lower Intrusion and in the lower marginal zone of the Upper and is attributed to crystallization under supercooled conditions. Symplectite pyroxene-spinel-amphibole coronas at olivine-plagioclase contacts are ubiquitous and are attributed to near-solidus peritectic reaction between olivine, plagioclase, and liquid during and after high-pressure emplacement, consistent with high Al contents in igneous pyroxenes and estimates of the peak regional metamorphism. Original cumulus olivines had compositions around Fo86 and were variably Ni depleted, interpreted as the result of preintrusion equilibration with sulfide liquid. The Upper and Lower Intrusion rocks represent cumulates from a similar parental magma, a high-Al tholeiite with MgO between 10 and 12%, low TiO2 (0.5–0.6%), and high Al2O3 (14–17%). Modeling using alphaMELTS indicates a primary water content of around 2 wt %. The cumulates of both intrusions were derived via multiple magma pulses of liquid-olivine-sulfide slurries with variable amounts of orthopyroxene emplaced into the deep crust at pressures of around 0.7 GPa during the peak of regional metamorphism. The intrusions developed initially as a bifurcating sill, the lower arm developing into the ore-bearing Lower Intrusion chonolith and the upper arm inflating into the cyclically layered Upper Intrusion.

Published

2022

30. Non-host plants: Are they mycorrhizal networks players?

Author

Fuqiang Yu, Xinhua He, and Yanliang Wang

Subjects

Hypha, Host (biology), fungi, food and beverages, Plant community, Plant Science, Fungus, Biology, biology.organism_classification, Plant use of endophytic fungi in defense, Symbiosis, Arabidopsis, Botany, Colonization, Ecology, Evolution, Behavior and Systematics

Abstract

Common mycorrhizal networks (CMNs) that connect individual plants of the same or different species together play important roles in nutrient and signal transportation, and plant community organization. However, about 10% of land plants are non-mycorrhizal species with roots that do not form any well-recognized types of mycorrhizas; and each mycorrhizal fungus can only colonize a limited number of plant species, resulting in numerous non-host plants that could not establish typical mycorrhizal symbiosis with a specific mycorrhizal fungus. If and how non-mycorrhizal or non-host plants are able to involve in CMNs remains unclear. Here we summarize studies focusing on mycorrhizal-mediated host and non-host plant interaction. Evidence has showed that some host-supported both arbuscular mycorrhizal (AM) and ectomycorrhizal (EM) hyphae can access to non-host plant roots without forming typical mycorrhizal structures, while such non-typical mycorrhizal colonization often inhibits the growth but enhances the induced system resistance of non-host plants. Meanwhile, the host growth is also differentially affected, depending on plant and fungi species. Molecular analyses suggested that the AMF colonization to non-hosts is different from pathogenic and endophytic fungi colonization, and the hyphae in non-host roots may be alive and have some unknown functions. Thus we propose that non-host plants are also important CMNs players. Using non-mycorrhizal model species Arabidopsis, tripartite culture system and new technologies such as nanoscale secondary ion mass spectrometry and multi-omics, to study nutrient and signal transportation between host and non-host plants via CMNs may provide new insights into the mechanisms underlying benefits of intercropping and agro-forestry systems, as well as plant community establishment and stability.

Published

2022

31. Sex-biased parasitism, host mass and mutualistic bat flies: an antagonistic individual-based network of bat-bat fly interactions

Author

Gustavo Graciolli, Camila Silveira Souza, Daniel Maximo Correa Alcantara, and Ronaldo Toma

Subjects

Male, biology, Host (biology), Diptera, Modularity (biology), Niche, Parasitism, Interspecific competition, biology.organism_classification, Noctilio albiventris, Host-Parasite Interactions, Infectious Diseases, Bulldog bat, Evolutionary biology, Abundance (ecology), Chiroptera, Animals, Body Size, Female, Parasites, Parasitology, Symbiosis

Abstract

Individual-based networks provide the building blocks for community-level networks. However, network studies of bats and their parasites have focused only on the species level. Intrapopulation variation may allow certain host individuals to play important roles in the dynamics of the parasites. Therefore, we evaluated how the variation in host sex, body size, ectoparasite abundance and co-occurrence configure individual-based networks of the lesser bulldog bat Noctilio albiventris and bat flies. We expected bat individuals with greater body mass and forearms acting as the core in the network. We also expected males to play a more important role in the network. We sampled a network of N. albiventris bat individuals and their bat flies to describe the structure of an antagonistic individual-based network. We aimed to identify the most relevant bat individuals in the network, focusing on the implications inherent to each of the following approaches: (i) core-periphery organization; (ii) modularity; (iii) species level metrics; and (iv) the main ecological driver of bat individual roles in the network, using niche-based predictors (body mass, forearm and sex). We showed that a network of N. albiventris individuals and their bat flies had low modularity containing a persistent nucleus of individuals and bat flies with well-established interactions. Male individuals with greater body mass played an important role in the network, while for females neither mass nor forearm length were important predictors of their role in the network. Finally, individuals with a high abundance of Paradyschiria parvula played a core role. These results provide an alternative perspective to understand the patterns and mechanisms of interspecific interactions between parasites on the host, as well as sex-biased parasitism.

Published

2022

32. High-Quality Genome Assembly and Annotation Resource of Botryosphaeria dothidea Strain BDLA16-7, Causing Trunk Canker Disease on Chinese Hickory

Author

Jianqin Huang, Q Q Wu, Jiandong Bao, and Chuan-Qing Zhang

Subjects

Genetics, biology, Contig, Host (biology), Strain (biology), Sequence assembly, Botryosphaeria dothidea, Plant Science, Nanopore sequencing, biology.organism_classification, Agronomy and Crop Science, Gene, Genome

Abstract

Botryosphaeria dothidea is a latent pathogen with global importance to woody plant health, which causes serious tree trunk cankers on Chinese hickory. To date, only one Illumina short-read-based genome assembly of strain CK16 is available for host Chinese hickory. To address this problem, we reported a near telomere-to-telomere genome assembly of strain BDLA16-7 (46.05 Mb, N50 3.87 Mb) using Oxford Nanopore Sequencing Technology. Our genome assembly was consisted of 15 contigs, of which, 3 were assembled into chromosomal level and the maximum contig length was 6.19 Mb. The assembly contained 7.96% repeats and 12,815 protein-coding genes (10,274 genes were functional annotated). We also identified 3,642 pathogen-host interaction (PHI) genes, 250 carbohydrateactive enzymes (CAZymes), 252 cytochrome P450 enzymes (CYPs), 752 putative secreted proteins and 63 secondary metabolite biosynthesis gene clusters (SMBGCs). The BUSCO completeness of genome assembly and predicted genes was 99.34% and 97.50%, respectively, at fungal level (n=758). The almost chromosomal-level and well-annotated genome assembly will provide a valuable genetic resource for understanding of the infection mechanisms of B. dothidea in future.

Published

2022

33. Microbiomes and Obligate Symbiosis of Deep-Sea Animals

Author

Eslam O. Osman and Alexis M. Weinnig

Subjects

General Veterinary, Obligate, Ecology, Host (biology), Microbiota, Biogeography, Ecology (disciplines), Niche, Biology, Habitat, Symbiosis, Genetics, Animals, Animal Science and Zoology, Microbiome, Phylogeny, Biotechnology

Abstract

Microbial communities associated with deep-sea animals are critical to the establishment of novel biological communities in unusual environments. Over the past few decades, rapid exploration of the deep sea has enabled the discovery of novel microbial communities, some of which form symbiotic relationships with animal hosts. Symbiosis in the deep sea changes host physiology, behavior, ecology, and evolution over time and space. Symbiont diversity within a host is often aligned with diverse metabolic pathways that broaden the environmental niche for the animal host. In this review, we focus on microbiomes and obligate symbionts found in different deep-sea habitats and how they facilitate survival of the organisms that live in these environments. In addition, we discuss factors that govern microbiome diversity, host specificity, and biogeography in the deep sea. Finally, we highlight the current limitations of microbiome research and draw a road map for future directions to advance our knowledge of microbiomes in the deep sea. Expected final online publication date for the Annual Review of Animal Biosciences, Volume 10 is February 2022. Please see http://www.annualreviews.org/page/journal/pubdates for revised estimates.

Published

2022

34. Under the Radar: Strategies Used by Helicobacter pylori to Evade Host Responses

Author

Mariana Capurro, Akriti Prashar, and Nicola L. Jones

Subjects

Chronic infection, Immune system, Physical Barrier, Human stomach, biology, Physiology, Host (biology), Immunology, Virulence, Helicobacter pylori, biology.organism_classification, Pathogen

Abstract

The body depends on its physical barriers and innate and adaptive immune responses to defend against the constant assault of potentially harmful microbes. In turn, successful pathogens have evolved unique mechanisms to adapt to the host environment and manipulate host defenses. Helicobacter pylori (Hp), a human gastric pathogen that is acquired in childhood and persists throughout life, is an example of a bacterium that is very successful at remodeling the host-pathogen interface to promote a long-term persistent infection. Using a combination of secreted virulence factors, immune subversion, and manipulation of cellular mechanisms, Hp can colonize and persist in the hostile environment of the human stomach. Here, we review the most recent and relevant information regarding how this successful pathogen overcomes gastric epithelial host defense responses to facilitate its own survival and establish a chronic infection. Expected final online publication date for the Annual Review of Physiology, Volume 84 is February 2022. Please see http://www.annualreviews.org/page/journal/pubdates for revised estimates.

Published

2022

35. Impacts of Continued Exposure to a Susceptible Host Genotype on Aggressiveness of Phytophthora nicotianae Isolates Adapted to Multiple Sources of Partial Resistance

Author

Jing Jin and H. David Shew

Subjects

Susceptible individual, Host (biology), Gene expression, Genotype, Plant Science, Biology, Adaptation, Phytophthora nicotianae, biology.organism_classification, Agronomy and Crop Science, Gene, Pathogen, Microbiology

Abstract

Pathogen adaptation can threaten the durability of partial resistance. Mixed plantings of susceptible and partially resistant varieties may prolong the effectiveness of partial resistance, but little is known about how continued exposure to a susceptible genotype can change the aggressiveness of pathogen isolates adapted to a source of partial resistance. The objective of this study was to examine the effects of continued exposure to a highly susceptible tobacco genotype on isolates of Phytophthora nicotianae that had been adapted to partial resistance. Isolates of P. nicotianae previously adapted to two sources of partial resistance were continually exposed to either the original host of adaptation or a susceptible host. After six generations of host exposure, isolates obtained from the partially resistant and the susceptible hosts were compared for their aggressiveness on the resistant host and for differences in expression of genes associated with pathogenicity and aggressiveness. Results suggested that exposure to the susceptible tobacco genotype reduced aggressiveness of isolates adapted to partial resistance in K 326 Wz/– but not of isolates adapted to partial resistance in Fla 301. Quantification of pathogenicity-associated gene expression using qRT-PCR suggested the rapid change in aggressiveness of isolates adapted to Wz-sourced partial resistance may have resulted from modification in gene expression in multiple genes.

Published

2022

36. Evaluation of Disease Severity and Molecular Relationships Between Peronospora variabilis Isolates on Chenopodium Species in New Hampshire

Author

Thomas M. Davis, Cheryl Smith, Anissa Poleatewich, and Haley Breanne Nolen

Subjects

Veterinary medicine, Phylogenetic tree, Ecotype, biology, Genus, Host (biology), Chenopodium, Downy mildew, Plant Science, Plant disease resistance, biology.organism_classification, Agronomy and Crop Science, Chenopodium quinoa

Abstract

Quinoa is a potential new crop for New England; however, its susceptibility to downy mildew, caused by Peronospora variabilis, is a key obstacle for cultivation. The objectives of this study were to evaluate differential resistance within the Chenopodium genus, identify novel sources of resistance for use in future genetic studies or breeding programs, and investigate phylogenetic relationships of P. variabilis isolates from different Chenopodium hosts. The long-term goal of this research is to develop a resistant variety of quinoa to be grown in New England. Field trials conducted at the University of New Hampshire evaluated downy mildew disease severity on 10 Chenopodium accessions representing four species. Disease severity for each treatment was compared and significant differences in disease severity were observed between accessions. C. berlandieri var. macrocalycium ecotypes collected from Rye Beach, New Hampshire and Appledore Island, Maine exhibited the lowest disease severity over the growing season. P. variabilis was isolated from each accession, and COX2 sequences were compared. Phylogenetic analyses suggest no effect of host species on P. variabilis sequence similarity; however, isolates are shown to cluster by geographic location. This research provides the first step in identifying potential New England native sources of resistance to downy mildew within the genus Chenopodium and provides preliminary information needed to further investigate resistance at the genomic level in Chenopodium spp.

Published

2022

37. The cell invasion preference of Varroa destructor between the original and new honey bee hosts

Author

Ruonan Zhang, Yi Zhang, Wenfeng Li, Zhengwei Wang, Richou Han, Yanping Chen, Hui Peng, and Zachary Y. Huang

Subjects

animal structures, Host (biology), Varroidae, fungi, food and beverages, Zoology, Honey bee, Alkenes, Bees, Biology, biology.organism_classification, Host Specificity, Infectious Diseases, Pollinator, Larva, Varroa destructor, Alkanes, behavior and behavior mechanisms, Mite, Animals, Parasitology, Destructor, Varroa, Apis cerana

Abstract

Honey bees (Apis) are important pollinators for food crops and wild plants, but are facing great threats from pathogens and parasites, especially an obligate ectoparasitic mite, Varroa destructor. Cell invasion is a key step for V. destructor to reproduce, and the parasite displays remarkable host preference in this process. Varroa destructor made its host-shift from its original host, the Asian honey bee Apis cerana, to the new host, the European honey bee Apis mellifera several decades ago. However, it remains largely unstudied whether V. destructor shows a cell invasion preference between the two host species. Using cell invasion bioassays on a modified four-well arena, we showed that V. destructor significantly preferred to invade the worker and drone larvae of A. mellifera rather than A. cerana, suggesting that the new host is much more attractive to the parasite than the original one. Using gas chromatography-mass spectrometry (GC-MS), we revealed significant differences between the cuticular hydrocarbon (CHC) profiles of worker and drone larvae of the two bee hosts. The amounts of methyl-branched alkanes and alkenes (unsaturated CHCs), but not n-alkanes, were significantly different, and A. mellifera worker and drone larvae were found to express significantly higher amounts of methyl-alkanes, while A. cerana larvae produced higher amounts of alkenes. Cell invasion bioassays with glass dummies showed that the mites preferred the glass dummies coated with the CHCs of A. mellifera worker or drone larvae, which indicates a role of larval CHCs in mediating the preferential cell invasion of Varroa. The findings from this study extend our understanding of the host preference of V. destructor, and can potentially contribute to the development of effective strategies for mite control.

Published

2022

38. Threshold dynamics in a clonorchiasis model with time delays

Author

Xueli Song, Ling-juan Ma, Zhi-min Li, and Tailei Zhang

Subjects

Clonorchis sinensis, Host (biology), Applied Mathematics, Zoology, Snail, Biology, medicine.disease, biology.organism_classification, law.invention, Transmission (mechanics), law, Modeling and Simulation, Parasitic disease, biology.animal, medicine, Clonorchiasis, Freshwater fish, Basic reproduction number

Abstract

Clonorchiasis is a serious food borne parasitic disease caused by clonorchis sinensis that is transmitted via snails to freshwater fish, and then to humans and other mammals. Based on the life cycle clonorchis sinensis, we present a mathematical model of clonorchiasis with three time delays which represent the maturation period of metacercaria developing adult flukes within human host, the period of eggs developing cercariae within snail host and the period of cercariae developing metacercaria within fish host.The basic reproduction number R 0 for this model is introduced. We establish a threshold type result on the global dynamics in terms of R 0 . More precisely, the disease-free equilibrium is globally attractive if R 0 1 ; while the disease is uniformly persistent if R 0 > 1 . Considering the above-mentioned periods can also be modelled by introducing the corresponding exposed classes, we also study the dynamical behavior of the corresponding model without delays. Numerically, we study the clonorchiasis transmission case in Guangxi Pronvince, China. Some control strategies are provided to prevent clonorchiasis spread in Guangxi by numerical analysis.

Published

2022

39. Zebrafish: a big fish in the study of the gut microbiota

Author

Jeffrey K Cornuault, Paul De Koninck, Sylvain Moineau, Gabriel Byatt, and Marie-Eve Paquet

Subjects

animal structures, Brain development, biology, Host (biology), fungi, Biomedical Engineering, Danio, Zoology, Bioengineering, Gut flora, biology.organism_classification, digestive system, Gastrointestinal Microbiome, Larva, Models, Animal, Animals, %22">Fish , Zebrafish, Biotechnology

Abstract

The importance of the gut microbiota in host health is now well established, but the underlying mechanisms remain poorly understood. Among the animal models used to investigate microbiota-host interactions, the zebrafish (Danio renio) is gaining attention. Several factors contribute to the recent interest in this model, including its low cost, the ability to assess large cohorts, the possibility to obtain germ-free larvae from non-axenic parents, and the availability of optical methodologies to probe the transparent larvae and adults from various genetic lines. We review recent findings on the zebrafish gut microbiota and its modulation by exogenous microbes, nutrition, and environmental factors. We also highlight the potential of this model for assessing the impact of the gut microbiota on brain development.

Published

2022

40. Biochemical and Histological Insights into the Interaction Between the Canker PathogenNeofusicoccum parvumandPrunus dulcis

Author

Eugene A. Nothnagel, Bassam Theodory, Jérôme Pouzoulet, Daniel J. Yelle, Sebastiaan Bol, and Philippe E. Rolshausen

Subjects

0106 biological sciences, 0301 basic medicine, Canker, Gummosis, Host (biology), fungi, food and beverages, Xylem, Context (language use), Plant Science, Biology, Plant disease resistance, Botryosphaeriaceae, biology.organism_classification, medicine.disease, 01 natural sciences, 03 medical and health sciences, Prunus dulcis, Horticulture, 030104 developmental biology, medicine, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

The number of reports associated with wood dieback caused by fungi in the Botryosphaeriaceae in numerous perennial crops worldwide has significantly increased in the past years. In this study, we investigated the interactions between the canker pathogen Neofusicoccum parvum and the almond tree host (Prunus dulcis), with an emphasis on varietal resistance and host response at the cell wall biochemical and histological levels. Plant bioassays in a shaded house showed that among the four commonly planted commercial almond cultivars (‘Butte’, ‘Carmel’, ‘Monterey’, and ‘Nonpareil’), there was no significant varietal difference with respect to resistance to the pathogen. Gummosis was triggered only by fungal infection, not by wounding. A two-dimensional nuclear magnetic resonance and liquid chromatography determination of cell wall polymers showed that infected almond trees differed significantly in their glycosyl and lignin composition compared with healthy, noninfected trees. Response to fungal infection involved a significant increase in lignin, a decrease in glucans, and an overall enrichment in other carbohydrates with a profile similar to those observed in gums. Histological observations revealed the presence of guaiacyl-rich cell wall reinforcements. Confocal microscopy suggested that N. parvum colonized mainly the lumina of xylem vessels and parenchyma cells, and to a lesser extent the gum ducts. We discuss the relevance of these findings in the context of the compartmentalization of decay in trees model in almond and its potential involvement in the vulnerability of the host toward fungal wood canker diseases.

Published

2022

41. Capsicum-infecting begomoviruses as global pathogens: host–virus interplay, pathogenesis, and management

Author

Ragunathan Devendran, Sneha Yogindran, Mir Jishan Karim, Manish Kumar, Dibyendu Ghosh, and Supriya Chakraborty

Subjects

Microbiology (medical), Genetics, biology, Host (biology), Mechanism (biology), Begomovirus, food and beverages, Virulence, Disease, Plants, biology.organism_classification, Microbiology, Virus, Hemiptera, Infectious Diseases, Virology, Helper virus, Animals, Epigenetics, Capsicum, Phylogeny, Plant Diseases

Abstract

Whitefly-transmitted begomoviruses are among the major threats to the cultivation of Capsicum spp. (Family: Solanaceae) worldwide. Capsicum-infecting begomoviruses (CIBs) have a broad host range and are commonly found in mixed infections, which, in turn, fuels the emergence of better-adapted species through intraspecies and interspecies recombination. Virus-encoded proteins hijack host factors to breach the well-coordinated antiviral response of plants. Epigenetic modifications of histones associated with viral minichromosomes play a critical role in this molecular arms race. Moreover, the association of DNA satellites further enhances the virulence of CIBs as the subviral agents aid the helper viruses to circumvent plant antiviral defense and facilitate expansion of their host range and disease development. The objective of this review is to provide a comprehensive overview on various aspects of CIBs such as their emergence, epidemiology, mechanism of pathogenesis, and the management protocols being employed for combating them.

Published

2022

42. Prevention of host-to-host transmission by SARS-CoV-2 vaccines

Author

Darius Mostaghimi, Akiko Iwasaki, Chaney C. Kalinich, Haleigh T Larson, and Caroline N Valdez

Subjects

Personal View, 2019-20 coronavirus outbreak, Natural course, COVID-19 Vaccines, Coronavirus disease 2019 (COVID-19), Transmission (medicine), business.industry, Host (biology), Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), COVID-19, Antibodies, Viral, Virus Replication, Corrections, Virology, Immunoglobulin A, Clinical trial, Infectious Diseases, Viral replication, Immunoglobulin G, Humans, Medicine, business

Abstract

As the number of individuals vaccinated against SARS-CoV-2 rises worldwide, population-level data regarding the vaccines' ability to reduce infection are being generated. Randomised trials have shown that these vaccines dramatically reduce symptomatic COVID-19; however, less is known about their effects on transmission between individuals. The natural course of infection with SARS-CoV-2 involves infection of the respiratory epithelia and replication within the mucosa to sufficient viral titres for transmission via aerosol particles and droplets. Here we discuss the available data on the existing, approved SARS-CoV-2 vaccines' capacity to reduce transmissibility by reducing primary infection, viral replication, capacity for transmission, and symptomaticity. The potential for mucosal-targeted SARS-CoV-2 vaccine strategies to more effectively limit transmission than intramuscular vaccines is considered with regard to known immunological mechanisms. Finally, we enumerate the population-level effects of approved vaccines on transmission through observational studies following clinical trials and vaccine distribution in real-world settings.

Published

2022

43. Roots of the xerophyte Panicum turgidum host a cohort of ionizing-radiation-resistant biotechnologically-valuable bacteria

Author

Haïtham Sghaier, Rania Ouertani, Sihem Guesmi, Afef Najjari, Kais Ghedira, Ameur Cherif, Marwa Jabberi, Philippe Normand, Petar Pujic, National Institute of Agronomy, Tunis,Tunisia, Centre National des Sciences et Technologies Nucléaires [Tunisie] (CNSTN), Université de Tunis El Manar (UTM), Laboratoire d'Ecologie Microbienne - UMR 5557 (LEM), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Ecole Nationale Vétérinaire de Lyon (ENVL)-VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Institut Pasteur de Tunis, Réseau International des Instituts Pasteur (RIIP), Université de la Manouba [Tunisie] (UMA), and Université de Carthage - University of Carthage

Subjects

QH301-705.5, Panicum turgidum, Metataxonomic, Radioresistant, Biology, Dessiccation, Ionizing radiation, 03 medical and health sciences, Xerophyte, métataxonomique, Botany, Desiccation, Biology (General), Radiorésistant, 030304 developmental biology, 2. Zero hunger, 0303 health sciences, Profils métaboliques, 030306 microbiology, Host (biology), Approche culturelle, Culture approach, biology.organism_classification, [SDV.MP.BAC]Life Sciences [q-bio]/Microbiology and Parasitology/Bacteriology, Panicum turgide, Metabolic profiles, Cohort, General Agricultural and Biological Sciences, Bacteria

Abstract

International audience; Les communautés bactériennes associées aux racines dePanicum turgide, exposés à des conditions arides, ont été investis-associée à une combinaison d'approches culturelles et métataxonomiques. Technologie traditionnelle basée sur la culture-ont été utilisées et 32 ​​isolats de racines irradiées ont été identifiés comme appartenant àActinobactéries, Bacteroidetes, Firmicutes et Proteobacteria embranchements. Quatre souches actinobactériennes ont étéRésistant aux rayonnements ionisants (IR) :Microbactériesp. PT8 (4,8 kGy (kGy)),Microcoquesp.PT11 (4,4 kGy),Kocuria rhizophilaPT10 (2,9 kGy) etPromicromonospora paniciPT9T(2,6 kGy), basésur le Ddixdose nécessaire pour une réduction de 90 % des unités formant colonies (UFC). Concernant l'enquêtedes communautés microbiennesin situ, analyses métataxonomiques de la diversité des microorganismes résistants aux IRassociée aux racines irradiées a révélé une dominance marquée des Actinobactéries (46,6%) etProtéobactéries (31,5%) par rapport aux Bacteroidetes (4,6%) et Firmicutes (3,2%). Irradiation gamma nonn'ont fait que modifier la structure des communautés bactériennes, mais ont également affecté leurs propriétés fonctionnelles.Des analyses comparatives des profils métaboliques ont indiqué l'induction de plusieurs voies liées à l'adaptation.au stress oxydatif dans les racines irradiées, comme la réparation de l'ADN, la synthèse de métabolites secondaires, la réactionenzymes atténuant les espèces oxygénées (ROS),etc. P. turgidumest emblématique des plantes adaptées au désert.Jusqu'à présent, aucun autre travail n'a porté sur le profil microbien des racines irradiées de cexérophyte.

Published

2022

44. Diversity and function of arthropod endosymbiont toxins

Author

Irene L. G. Newton and Jonathan Massey

Subjects

Male, Microbiology (medical), food.ingredient, Spiroplasma, Biology, Microbiology, Article, food, Virology, Animals, Rickettsia, Symbiosis, Arthropods, Pathogen, Phylogeny, Genetics, Host (biology), fungi, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, Infectious Diseases, bacteria, Wolbachia, Arthropod, Arsenophonus, Function (biology), Cytoplasmic incompatibility

Abstract

Bacterial endosymbionts induce dramatic phenotypes in their arthropod hosts, including cytoplasmic incompatibility, feminization, parthenogenesis, male killing, parasitoid defense, and pathogen blocking. The molecular mechanisms underlying these effects remain largely unknown, but recent evidence suggests that protein toxins secreted by the endosymbionts play a role. Here, we describe the diversity and function of endosymbiont proteins with homology to known bacterial toxins. We focus on maternally transmitted endosymbionts belonging to the Wolbachia, Rickettsia, Arsenophomis, Hamiltonella, Spiroplasma, and Cardinium genera, because of their ability to induce the above phenotypes. We identify at least 16 distinct toxin families with diverse enzymatic activities, including AMPylases, nucleases, proteases, and glycosyltransferases. Notably, several annotated toxins contain domains with homology to eukaryotic proteins, suggesting that arthropod endosymbionts mimic host biochemistry to manipulate host physiology, similar to bacterial pathogens.

Published

2022

45. Dark diversity of flea assemblages of small mammalian hosts: effects of environment, host traits and host phylogeny

Author

Georgy I. Shenbrot, Irina S. Khokhlova, and Boris R. Krasnov

Subjects

Mammals, Flea, Phylogenetic tree, Host (biology), Ecology, media_common.quotation_subject, respiratory system, Biology, Host-Parasite Interactions, Flea Infestations, Infectious Diseases, Phylogenetics, Animals, Siphonaptera, Parasite hosting, Parasites, Parasitology, Species richness, human activities, Phylogeny, Sociality, Diversity (politics), media_common

Abstract

An assemblage of species in a locality comprises two components, namely (i) species that are present (realised diversity) and (ii) species from the regional pool that may potentially inhabit this locality due to suitable ecological conditions, but that are absent (dark diversity). We investigated factors affecting the dark diversity of component communities of fleas parasitic on small mammals in the northern Palearctic at two scales. First, we considered the dark diversity of flea assemblages of the same host (for 13 host species) across regions and tested for the effects of environmental factors and the number of available host species on the dark diversity of within-region flea assemblages. Second, we considered the dark diversity of fleas across host species within a region (for 20 regions) and asked whether within-host dark diversity is associated with host phylogeny and/or traits. We found that the dark diversity of flea assemblages harboured by small mammals varied substantially (i) within the same host species across space (in 12 of 13 host species) and (ii) between host species within a region (in eight of 20 regions). The size of the dark diversity of flea assemblages of the same host across regions was generally affected by environmental factors (mainly by the amount of green vegetation), whereas the size of the dark diversity of flea assemblages of a host species within a region was affected by host traits (mainly by the degree of host sociality and the structure of its shelter and, to a lesser degree, by its geographic range size) but was not associated with host phylogenetic affinities. We conclude that application of the dark diversity concept to parasite communities across space or hosts allows a better understanding of the factors affecting the species richness and composition of these communities.

Published

2022

46. A New Real-Time PCR Assay for Detecting Fungi in Genus Ceratocystis

Author

Julie A Pattemore, Karthikeyan Dharmaraj, Joanne Mackie, Alice Merrall, B. J. R. Alexander, and Merje Toome-Heller

Subjects

Germplasm, Host (biology), Outbreak, Plant Science, Biology, Ceratocystis, biology.organism_classification, Microbiology, chemistry.chemical_compound, Real-time polymerase chain reaction, chemistry, Agronomy and Crop Science, Pathogen, Gene, DNA

Abstract

The genus Ceratocystis contains several significant plant pathogens, causing wilt and canker disease on a wide range of plant species. There are >40 known species of Ceratocystis, some of which are becoming increasingly important in agricultural or natural ecosystems. The diagnostic procedures for most Ceratocystis species rely on time-consuming and labor-intensive culturing approaches. To provide more time-efficient and sensitive molecular diagnostic tools for Ceratocystis, a generic TaqMan real-time PCR assay was developed using the ITS gene. This novel two-probe TaqMan assay amplified DNA from all tested Ceratocystis species. Some nonspecific amplification of a few species from closely related genera was observed under certain conditions; however, these false-positive detections could be ruled out using the additional PCR primers developed for further sequence-based identification of the detected species. The assay was found to be highly sensitive, as it detected 0.2 pg/μl of Ceratocystis DNA in water as well as in host DNA matrix. Further validation with artificially inoculated fig stem tissue demonstrated that the assay was also able to effectively detect the pathogen in infected asymptomatic stem tissue. This newly developed real-time PCR assay has practical applications in biosecurity, conservation, and agriculture; it will enable the detection of Ceratocystis species directly from plant material to facilitate more sensitive screening of imported plant germplasm, and allow rapid tracking of pathogens in the case of disease outbreaks.

Published

2022

47. Lake charr (Salvelinus namaycush) clotting response may act as a plasma biomarker of sea lamprey (Petromyzon marinus) parasitism: Implications for management and wound assessment

Author

Sarah L. Alderman, Tyler J. Firkus, Frederick W. Goetz, Oliver M. N. Bullingham, and Cheryl A. Murphy

Subjects

Ecology, biology, Host (biology), Lamprey, Zoology, Parasitism, Aquatic Science, biology.organism_classification, Fibrin, Wound assessment, Petromyzon, biology.protein, Biomarker (medicine), Ecology, Evolution, Behavior and Systematics, Salvelinus

Abstract

Sea lampreys (Petromyzon marinus) have decimated the Great Lakes fisheries over the past century, and their control is central to protecting native fish populations. Wounding data collected from host fish, including classifying wounds as Type A (penetrating the integument) or Type B (superficial), is an integral part of sea lamprey monitoring efforts and helps inform management decisions; however, wound assessment is subjective and error-prone. This study aimed to determine if protein biomarkers of parasitism could be quantified in host fish plasma to serve as a potential objective aide in current wound assessment practices. Male siscowet lake charr (Salvelinus namaycush) were parasitized in a lab setting for four days, after which the sea lamprey was removed, host blood was collected, and the wound Type recorded. A second blood sample was collected from host fish with Type A wounds 7 months later. The plasma proteome was quantified using iTRAQ, and the relative abundances of 169 proteins were compared between parasitized and non-parasitized control fish. Three functional classes of proteins were modified by sea lamprey parasitism: immune response, lipid transport, and blood coagulation. A major finding was evidence of a concerted anticoagulation response in fish with Type A wounds, including changes in protein components and regulators of fibrin clot formation, some of which did not fully recover within 7 months. A modified clotting assay yielded a smaller thrombin-induced fibrin clot from parasitized fish, supporting the proteomic results. Therefore, measuring blood clottability could improve sea lamprey damage estimates by providing a more objective and quantitative index of parasitism than is offered by wounding data alone.

Published

2022

48. Cyanobacteria as cell factories: the roles of host and pathway engineering and translational research

Author

Damini Jaiswal, Pramod P. Wangikar, and Deepti Sahasrabuddhe

Subjects

Cyanobacteria, biology, Host (biology), Cell, Biomedical Engineering, Bioengineering, Translational research, biology.organism_classification, Translational Research, Biomedical, Metabolic engineering, Synthetic biology, medicine.anatomical_structure, Metabolic Engineering, medicine, Metabolic modeling, Synthetic Biology, Biochemical engineering, Photosynthesis, Biotechnology, Pathway engineering

Abstract

Cyanobacteria, a group of photoautotrophic prokaryotes, are attractive hosts for the sustainable production of chemicals from carbon dioxide and sunlight. However, the rates, yields, and titers have remained well below those needed for commercial deployment. We argue that the following areas will be central to the development of cyanobacterial cell factories: engineered and well-characterized host strains, model-guided pathway design, and advanced synthetic biology tools. Although several foundational studies report improved strain properties, translational research will be needed to develop engineered hosts and deploy them for metabolic engineering. Further, the recent developments in metabolic modeling and synthetic biology of cyanobacteria will enable nimble strategies for strain improvement with the complete cycle of design, build, test, and learn.

Published

2022

49. FIRST SUPPLEMENT TO THE HOST INDEX OF VIRUS DISEASES OF PLANTS

Author

Melville T. Cook

Subjects

Index (economics), Host (biology), Animal Science and Zoology, Biology, Virus diseases, Agronomy and Crop Science, Virology

Abstract

Resumen en inglés.

Published

2022

50. Beetle–Bacterial Symbioses: Endless Forms Most Functional

Author

Hassan Salem and Martin Kaltenpoth

Subjects

Ecological niche, Entomology, Bacteria, Range (biology), Host (biology), fungi, food and beverages, Biology, Biological Evolution, Coleoptera, Symbiosis, Evolutionary biology, Insect Science, Specialization (functional), Animals, Clade, Ecosystem, Ecology, Evolution, Behavior and Systematics, Function (biology)

Abstract

Beetles are hosts to a remarkable diversity of bacterial symbionts. In this article, we review the role of these partnerships in promoting beetle fitness following a surge of recent studies characterizing symbiont localization and function across the Coleoptera. Symbiont contributions range from the supplementation of essential nutrients and digestive or detoxifying enzymes to the production of bioactive compounds providing defense against natural enemies. Insights on this functional diversity highlight how symbiosis can expand the host's ecological niche, but also constrain its evolutionary potential by promoting specialization. As bacterial localization can differ within and between beetle clades, we discuss how it corresponds to the microbe's beneficial role and outline the molecular and behavioral mechanisms underlying symbiont translocation and transmission by its holometabolous host. In reviewing this literature, we emphasize how the study of symbiosis can inform our understanding of the phenotypic innovations behind the evolutionary success of beetles. Expected final online publication date for the Annual Review of Entomology, Volume 67 is January 2022. Please see http://www.annualreviews.org/page/journal/pubdates for revised estimates.

Published

2022