Your search keyword '"Francis Martin"' showing total 1,176 results

1. Corrigendum to 'Genome sequencing of Porostereum spadiceum to study the degradation of levofloxacin' [Ecotoxicol. Environ. Saf. 270 (2024) 115808]

Author

Amal Ben Ayed, Imen Akrout, Karima Staita, Quentin Albert, Stéphane Greff, Charlotte Simmler, Steven Ahrendt, Kurt LaButti, Anna Lipzen, Guifen He, Emily Savage, Jean Armengaud, Mélodie Kielbasa, David Navarro, Elodie Drula, Annick Turbé-Doan, Emmanuel Bertrand, Anne Lomascolo, Delphine Chaduli, Craig B. Faulds, Mohamed Chamkha, Amina Maalej, Kerrie Barry, Igor V. Grigoriev, Francis Martin, Héla Zouari-Mechichi, Giuliano Sciara, Tahar Mechichi, and Eric Record

Subjects

Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Published

2024

2. Genome sequencing of Porostereum spadiceum to study the degradation of levofloxacin

Author

Amal Ben Ayed, Imen Akrout, Karima Staita, Quentin Albert, Stéphane Greff, Charlotte Simmler, Steven Ahrendt, Kurt LaButti, Anna Lipzen, Guifen He, Emily Savage, Jean Armengaud, Mélodie Kielbasa, David Navarro, Elodie Drula, Annick Turbé-Doan, Emmanuel Bertrand, Anne Lomascolo, Delphine Chaduli, Craig B. Faulds, Mohamed Chamkha, Amina Maalej, Kerrie Barry, Igor V. Grigoriev, Francis Martin, Héla Zouari-Mechichi, Giuliano Sciara, Tahar Mechichi, and Eric Record

Subjects

Biotransformation, Fluoroquinolone, Fungi, Peroxidases, Hazardous substance, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Despite various plans to rationalize antibiotic use, antibiotic resistance in environmental bacteria is increasing due to the accumulation of antibiotic residues in the environment. This study aimed to test the ability of basidiomycete fungal strains to biotransform the antibiotic levofloxacin, a widely-used third-generation broad-spectrum fluoroquinolone, and to propose enzyme targets potentially involved in this biotransformation. The biotransformation process was performed using fungal strains. Levofloxacin biotransformation reached 100% after 9 days of culture with Porostereum spadiceum BS34. Using genomics and proteomics analyses coupled with activity tests, we showed that P. spadiceum produces several heme-peroxidases together with H2O2-producing enzymes that could be involved in the antibiotic biotransformation process. Using UV and high-resolution mass spectrometry, we were able to detect five levofloxacin degradation products. Their putative identity based on their MS2 fragmentation patterns led to the conclusion that the piperazine moiety was the main target of oxidative modification of levofloxacin by P. spadiceum, leading to a decrease in antibiotic activity.

Published

2024

3. Comparative analysis of simulated in-situ colonization and degradation by Lentinula edodes on oak wafer and corn stalk

Author

Chunye Mou, Yuhua Gong, Lianfu Chen, Francis Martin, Heng Kang, and Yinbing Bian

Subjects

white-rot fungus, lignocellulose degradation, carbohydrate-binding module, transcriptome, compositional change, scanning electron microscopy, Microbiology, QR1-502

Abstract

IntroductionThe depolymerization of lignocellulose biomass by white-rot fungi has been an important research topic. However, few simulated in-situ analyses have been conducted to uncover the decay.MethodsIn this study, the white-rot Lentinula edodes was used to colonize the wood and non-wood substrates, and then hyphal transcriptional response and substrate degradation were analyzed during the spatial-temporal colonization on different type substrates to better understand the depolymerization of lignocellulose.Results and discussionFaster growth and thicker mat of hyphae on corn stalk were observed in comparison to oak wafer. Coincide with the higher levels of gene transcripts related to protein synthesis on corn stalk. The higher lignin oxidase activity of hyphae was detected on oak wafer, and the higher cellulase activity was observed on corn stalk containing a much higher content of soluble sugars. A large number of carbohydrate-binding module (CBM1 and CBM20)-containing enzyme genes, including lytic polysaccharide monooxygenase (AA9), cellobiohydrolase (GH6 and GH7), glucanase (GH5), xylanase (GH10 and GH11), glucoamylase (GH15), and alpha-amylase (GH13), were significantly upregulated in the back-distal hyphae colonized on corn stalk. The hyphae tended to colonize and degrade the secondary cell wall, and the deposited oxalate crystal suggested that oxalate may play an important role during lignocellulose degradation. In addition, lignin was degraded in priority in oak wafer. Of note, three lignin monomers were degraded simultaneously in oak wafer but sequentially in corn stalk. This growth Our results indicated that the white-rot degradation pattern of lignocellulose is determined by the chemical composition and structure of the colonized biomass.

Published

2023

4. The cultivation regimes of Morchella sextelata trigger shifts in the community assemblage and ecological traits of soil bacteria

Author

Yan Zhang, Qi Zhao, Stéphane Uroz, Tianpeng Gao, Jing Li, Fengqin He, Rusly Rosazlina, Francis Martin, and Lingling Xu

Subjects

Morchella sextelata, community assemblage, bacteriome, continuous cropping, ecological traits, Microbiology, QR1-502

Abstract

The successful large-scale cultivation of morel mushrooms (Morchella sextelata) requires a comprehensive understanding of the soil bacterial communities associated with morel-farming beds, as the interactions between fungi and bacteria play a crucial role in shaping the soil microbiome. In this study, we investigated the temporal distribution and ecological characteristics of soil bacteria associated with morel fruiting bodies at different stages, specifically the conidial and primordial stages, under two cropping regimes, non-continuous cropping (NCC) and continuous cropping (CC). Our findings revealed a significant reduction in the yield of morel primordia during the third year following 2 years of CC (0.29 ± 0.25 primordia/grid), in comparison to the NCC regime (12.39 ± 6.09 primordia/grid). Furthermore, inoculation with morel mycelia had a notable impact on soil bacterial diversity, decreasing it in the NCC regime and increasing the number of generalist bacterial members in the CC regime. The latter regime also led to the accumulation of nutrients in the soil beds, resulting in a shift from a stochastic to a deterministic process in the composition of the bacterial community, which differed from the NCC regime. Additionally, mycelial inoculation had a positive effect on the abundance of potential copiotrophic/denitrifying and N-fixing bacteria while decreasing the abundance of oligotrophic/nitrifying bacteria. Interestingly, this effect was more pronounced in the NCC regime than in the CC regime. These results suggest that the increase in potential copiotrophic/denitrifying and N-fixing bacteria facilitated the decomposition of nutrients in exogenous nutrient bags by morel mushrooms, thereby maintaining nitrogen balance in the soil. Overall, our study provides valuable insights into the interactions between morel mycelia and the associated soil bacteriome as well as the influence of different cultivation regimes on these interactions. These findings contribute to our understanding of the complex dynamics of the soil microbiome and can inform strategies for optimizing morel mushroom cultivation.

Published

2023

5. Weight loss is proportional to increases in fasting serum beta-hydroxybutyrate concentrations in adults with severe obesity undergoing a meal replacement programme

Author

Francis Martin Finucane, Mohammed Faraz Rafey, Martin Leahy, Paula O'Shea, Tim O'Brien, and Martin O'Donnell

Subjects

Fasting, Ketosis, Beta-hydroxybutyrate, Meal replacement, Lifestyle modification, Bariatric, Nutrition. Foods and food supply, TX341-641, Nutritional diseases. Deficiency diseases, RC620-627

Abstract

Background: A better understanding of the influence of restricted dietary intake on circulating ketone concentrations might help to explain heterogeneity in the amount of weight lost in dietary interventions. We sought to determine the association between the magnitude of weight loss and changes in fasting serum ketone concentrations in adults with severe obesity completing a meal replacement programme. Methods: In this single-centre prospective cohort study, adults with severe and complicated obesity attending our regional bariatric service underwent an eight-week, milk-based, low-energy meal replacement programme. Fasting serum beta-hydroxybutyrate levels were measured with a spectrophotometric assay at baseline and after two- and eight weeks of follow-up. Results: Of 120 patients who started the programme, 74 (62%) completed eight weeks. Of these, 60% were female, mean age was 49.2 ± 11.9 (range 18–75.1) years, mean body mass index was 51.2 ± 10.5 kg−2. The median [IQR] total weight loss percentage after eight weeks was 10.2 [8.6, 12.2] %. Fasting serum ketones increased between zero and eight weeks from a median of 95 [70, 140] to 185 [130, 320] μmoL/l (p

Published

2023

6. Hybrid Genome Assembly and Gene Repertoire of the Root Endophyte Clitopilus hobsonii QYL-10 (Entolomataceae, Agaricales, Basidiomycetes)

Author

Long Peng, Xiaoliang Shan, Yuchen Wang, Francis Martin, Rytas Vilgalys, and Zhilin Yuan

Subjects

Microbiology, QR1-502, Botany, QK1-989

Abstract

Clitopilus hobsonii (Entolomataceae, Agaricales, Basidiomycetes) is a common soil saprotroph. There is also evidence that C. hobsonii can act as a root endophyte benefitting tree growth. Here, we report the genome assembly of C. hobsonii QYL-10, isolated from ectomycorrhizal root tips of Quercus lyrata. The genome size is 36.93 Mb, consisting of 13 contigs (N50 = 3.3 Mb) with 49.2% GC content. Of them, 10 contigs approached the length of intact chromosomes, and three had telomeres at one end only. BUSCO analysis reported a completeness score of 98.4%, using Basidiomycota_odb10 lineage data. Combining ab-initio, RNA-seq data, and homology-based predictions, we identified 12,710 protein-coding genes. Approximately, 1.43 Mb of transposable elements (3.88% of the assembly), 36 secondary metabolite biosynthetic gene clusters, and 361 genes encoding putative carbohydrate-active enzymes were identified. This genomic resource will allow functional studies aimed to characterize the symbiotic interactions between C. hobsonii and its host trees and will also provide a valuable foundation for further research on comparative genomics of the Entolomataceae.

Published

2021

7. Decline in Morel Production upon Continuous Cropping Is Related to Changes in Soil Mycobiome

Author

Yan Zhang, Sifan Sun, Didi Luo, Ping Mao, Rusly Rosazlina, Francis Martin, and Lingling Xu

Subjects

Morchella sextelata, mycobiome, continuous cropping, fungal community, soil physicochemical properties, Biology (General), QH301-705.5

Abstract

The black morel Morchella sextelata (Morchellaceae, Pezizales) is a valuable edible mushroom that can be cultivated on a large scale, but a severe yield decline is observed during continuous cropping. The effect of long-term cropping on soil-borne diseases and the dysbiosis of the microbiome and how these biotic factors affect the morel yield are not well understood. To help fill this knowledge gap, we designed an indoor experiment to investigate the influence of black morel cropping regimes on soil physicochemical properties, richness and distribution of fungal community, and morel primordial production. In this study, we employed rDNA metabarcoding and microbial network analysis to evaluate the effect of non-continuous and continuous cropping regimes on the fungal community during three developmental stages of black morel production, namely, the bare soil mycelium, mushroom conidial, and primordial stages. The results showed that during the first year, M. sextelata mycelium overwhelmed the resident soil fungal community by reducing the alpha diversity and niche breadth of soil fungal patterns by a greater amount compared to the continuous cropping regime, leading to high crop yield of 12.39 ± 6.09/quadrat but less complex soil mycobiome. To sustain continuous cropping, exogenous nutrition bags and morel mycelial spawn were consecutively added to the soil. The additional nutrient input stimulated the growth of fungal saprotrophic decomposers. The degrading activity of soil saprotrophs, including M.sextelata, caused a significant increase in soil nutrient content. This led to an inhibitory effect on the formation of morel primordia, resulting in a sharp decline to 0.29 ± 0.25/quadrat and 0.17 ± 0.24/quadrat, respectively, in the final morel cropping. Our findings provided a dynamic overview of the soil fungal community during morel mushroom production, allowing us to identify beneficial and detrimental fungal taxa in the soil mycobiome involved in morel cultivation. The information acquired from this study can be applied to mitigate the adverse impact of continuous cropping on the yield of black morel.

Published

2023

8. C-STABILITY an innovative modeling framework to leverage the continuous representation of organic matter

Author

Julien Sainte-Marie, Matthieu Barrandon, Laurent Saint-André, Eric Gelhaye, Francis Martin, and Delphine Derrien

Subjects

Science

Abstract

Soil organic matter (SOM) is a huge sink of carbon, but the varied flux dynamics are challenging to predict. Here, the authors present a new model with the complexities of SOM cycling, including parameters for substrate accessibility, microbe diversity, and enzymatic substrate depolymerization.

Published

2021

9. Changes in the Leptin to Adiponectin Ratio Are Proportional to Weight Loss After Meal Replacement in Adults With Severe Obesity

Author

Mohammed Faraz Rafey, Razk Abdalgwad, Paula Mary O'Shea, Siobhan Foy, Brid Claffey, Colin Davenport, Derek Timothy O'Keeffe, and Francis Martin Finucane

Subjects

meal replacement, hypocaloric diet, insulin resistance, leptin, adiponectin, leptin: adiponectin ratio, Nutrition. Foods and food supply, TX341-641

Abstract

Hypocaloric diets are known to induce changes in adipokine secretion, but the influence of a low energy liquid diet (LELD) on the leptin: adiponectin ratio (LAR), a measure of insulin resistance and cardiovascular risk, has not previously been investigated in patients with severe obesity. We conducted a prospective, single-center cohort study of adults with severe obesity (defined as body mass index (BMI) ≥40 kgm−2, or ≥35 kgm−2 with co-morbidities) who completed a 24-week milk-based LELD. We measured leptin, adiponectin and LAR at the start and on completion of the programme. Of 120 patients who started, 52 (43.3 %) completed the programme. Their mean age was 50.3 ± 11.2 (range 18–74) years, 29 (55.8 %) were female and 20 (38.5 %) had type 2 diabetes mellitus (T2DM). Weight decreased from 148.2 ± 39.6 to 125.4 ± 34.8 kg and BMI decreased from 52.4 ± 11.1 to 44.3 ± 9.8 kgm−2, respectively (all p < 0.001). In patients with T2DM, HbA1c decreased from 60.0 ± 17.4 to 47.5 ± 15.5 mmol/mol (p < 0.001). Leptin decreased (from 87.2 [48.6, 132.7] to 39.1 [21.0, 76.4] ng/ml) and adiponectin increased (from 5.6 [4.5, 7.5] to 7.1 [5.5, 8.5] μg/ml), with a reduction in LAR from 15 [8.4, 22.4] to 5.7 [3.0, 9.1] ng/μg (all p < 0.001), indicating decreased insulin resistance. The percentage weight lost was associated with the percentage reduction in LAR (ß = 2.9 [1.7, 4.1], p < 0.001) and this association was stronger in patients with T2DM. Patients with severe obesity who completed a milk-based LELD had a substantial reduction in LAR, consistent with decreased insulin resistance and cardiovascular risk, proportional to weight loss.

Published

2022

10. The mutualism effector MiSSP7 of Laccaria bicolor alters the interactions between the poplar JAZ6 protein and its associated proteins

Author

Yohann Daguerre, Veronica Basso, Sebastian Hartmann-Wittulski, Romain Schellenberger, Laura Meyer, Justine Bailly, Annegret Kohler, Jonathan M. Plett, Francis Martin, and Claire Veneault-Fourrey

Subjects

Medicine, Science

Abstract

Abstract Despite the pivotal role of jasmonic acid in the outcome of plant-microorganism interactions, JA-signaling components in roots of perennial trees like western balsam poplar (Populus trichocarpa) are poorly characterized. Here we decipher the poplar-root JA-perception complex centered on PtJAZ6, a co-repressor of JA-signaling targeted by the effector protein MiSSP7 from the ectomycorrhizal basidiomycete Laccaria bicolor during symbiotic development. Through protein–protein interaction studies in yeast we determined the poplar root proteins interacting with PtJAZ6. Moreover, we assessed via yeast triple-hybrid how the mutualistic effector MiSSP7 reshapes the association between PtJAZ6 and its partner proteins. In the absence of the symbiotic effector, PtJAZ6 interacts with the transcription factors PtMYC2s and PtJAM1.1. In addition, PtJAZ6 interacts with it-self and with other Populus JAZ proteins. Finally, MiSSP7 strengthens the binding of PtJAZ6 to PtMYC2.1 and antagonizes PtJAZ6 homo-/heterodimerization. We conclude that a symbiotic effector secreted by a mutualistic fungus may promote the symbiotic interaction through altered dynamics of a JA-signaling-associated protein–protein interaction network, maintaining the repression of PtMYC2.1-regulated genes.

Published

2020

11. Changes in alanine aminotransferase in adults with severe and complicated obesity during a milk-based meal replacement programme

Author

Razk Abdalgwad, Mohammed Faraz Rafey, Conor Murphy, Iulia Ioana, Paula Mary O’Shea, Eoin Slattery, Colin Davenport, Derek Timothy O’Keeffe, and Francis Martin Finucane

Subjects

Non-alcoholic fatty liver disease, Non-alcoholic steatohepatitis, Alanine aminotransferase, Severe obesity, Milk-based meal replacement programme, Bariatric, Nutrition. Foods and food supply, TX341-641, Nutritional diseases. Deficiency diseases, RC620-627

Abstract

Abstract Introduction Excess adiposity is associated with fat accumulation within the liver, and non-alcoholic steatohepatitis (NASH) is highly prevalent in bariatric patients. Elevated alanine aminotransferase (ALT) is associated with prevalent NASH. We sought to determine the influence of a milk-based meal replacement weight-loss programme on ALT levels in adults with severe and complicated obesity. Methods We conducted a retrospective cohort study of patients who completed a 24-week meal replacement programme, comprised of a weight loss phase followed by weight stabilisation and maintenance phases, each 8 weeks long. ALT was quantified using an enzymatic assay with spectrophotometric detection. We examined changes over time in ALT using the non-parametric Wilcoxon singed-rank test and the Friedman test. Results Of 105 patients, 56 were female, mean age was 51.2 ± 11.2 (range 18.0–71.6) years. There was an unanticipated but transient increase in ALT from 28.0 [20.0, 40.5] iu/L at baseline to 40.0 [26.0, 55.0] iu/L after 2 weeks (p

Published

2020

12. A Viable New Strategy for the Discovery of Peptide Proteolytic Cleavage Products in Plant-Microbe Interactions

Author

Manuel I. Villalobos Solis, Suresh Poudel, Clemence Bonnot, Him K. Shrestha, Robert L. Hettich, Claire Veneault-Fourrey, Francis Martin, and Paul E. Abraham

Subjects

de novo peptide sequencing, liquid chromatography, small peptides, tandem mass spectrometry, Microbiology, QR1-502, Botany, QK1-989

Abstract

Small peptides that are proteolytic cleavage products (PCPs) of less than 100 amino acids are emerging as key signaling molecules that mediate cell-to-cell communication and biological processes that occur between and within plants, fungi, and bacteria. Yet, the discovery and characterization of these molecules is largely overlooked. Today, selective enrichment and subsequent characterization by mass spectrometry–based sequencing offers the greatest potential for their comprehensive characterization, however qualitative and quantitative performance metrics are rarely captured. Herein, we addressed this need by benchmarking the performance of an enrichment strategy, optimized specifically for small PCPs, using state-of-the-art de novo–assisted peptide sequencing. As a case study, we implemented this approach to identify PCPs from different root and foliar tissues of the hybrid poplar Populus × canescens 717-1B4 in interaction with the ectomycorrhizal basidiomycete Laccaria bicolor. In total, we identified 1,660 and 2,870 Populus and L. bicolor unique PCPs, respectively. Qualitative results supported the identification of well-known PCPs, like the mature form of the photosystem II complex 5-kDa protein (approximately 3 kDa). A total of 157 PCPs were determined to be significantly more abundant in root tips with established ectomycorrhiza when compared with root tips without established ectomycorrhiza and extramatrical mycelium of L. bicolor. These PCPs mapped to 64 Populus proteins and 69 L. bicolor proteins in our database, with several of them previously implicated in biologically relevant associations between plant and fungus.

Published

2020

13. Heterospecific Neighbor Plants Impact Root Microbiome Diversity and Molecular Function of Root Fungi

Author

Hui-Ling Liao, Gregory Bonito, Khalid Hameed, Steven H. Wu, Ko-Hsuan Chen, Jesse Labbé, Christopher W. Schadt, Gerald A. Tuskan, Francis Martin, Alan Kuo, Kerrie Barry, Igor V. Grigoriev, and Rytas Vilgalys

Subjects

microbiome, common mycorrhizal network (CMN), Suillus, metatranscriptomics, wood wide web, ectomycorrhizal fungi, Microbiology, QR1-502

Abstract

Within the forest community, competition and facilitation between adjacent-growing conspecific and heterospecific plants are mediated by interactions involving common mycorrhizal networks. The ability of plants to alter their neighbor’s microbiome is well documented, but the molecular biology of plant-fungal interactions during competition and facilitation has not been previously examined. We used a common soil-plant bioassay experiment to study molecular plant-microbial interactions among rhizosphere communities associated with Pinus taeda (native host) and Populus trichocarpa (non-native host). Gene expression of interacting fungal and bacterial rhizosphere communities was compared among three plant-pairs: Populus growing with Populus, Populus with Pinus, and Pinus with Pinus. Our results demonstrate that heterospecific plant partners affect the assembly of root microbiomes, including the changes in the structure of host specific community. Comparative metatranscriptomics reveals that several species of ectomycorrhizal fungi (EMF) and saprotrophic fungi exhibit different patterns of functional and regulatory gene expression with these two plant hosts. Heterospecific plants affect the transcriptional expression pattern of EMF host-specialists (e.g., Pinus-associated Suillus spp.) on both plant species, mainly including the genes involved in the transportation of amino acids, carbohydrates, and inorganic ions. Alteration of root microbiome by neighboring plants may help regulate basic plant physiological processes via modulation of molecular functions in the root microbiome.

Published

2021

14. The lichen symbiosis re-viewed through the genomes of Cladonia grayi and its algal partner Asterochloris glomerata

Author

Daniele Armaleo, Olaf Müller, François Lutzoni, Ólafur S. Andrésson, Guillaume Blanc, Helge B. Bode, Frank R. Collart, Francesco Dal Grande, Fred Dietrich, Igor V. Grigoriev, Suzanne Joneson, Alan Kuo, Peter E. Larsen, John M. Logsdon, David Lopez, Francis Martin, Susan P. May, Tami R. McDonald, Sabeeha S. Merchant, Vivian Miao, Emmanuelle Morin, Ryoko Oono, Matteo Pellegrini, Nimrod Rubinstein, Maria Virginia Sanchez-Puerta, Elizabeth Savelkoul, Imke Schmitt, Jason C. Slot, Darren Soanes, Péter Szövényi, Nicholas J. Talbot, Claire Veneault-Fourrey, and Basil B. Xavier

Subjects

Algal virus, Coculture, Fungi, Gene expression, Gene family evolution, Horizontal gene transfer, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Lichens, encompassing 20,000 known species, are symbioses between specialized fungi (mycobionts), mostly ascomycetes, and unicellular green algae or cyanobacteria (photobionts). Here we describe the first parallel genomic analysis of the mycobiont Cladonia grayi and of its green algal photobiont Asterochloris glomerata. We focus on genes/predicted proteins of potential symbiotic significance, sought by surveying proteins differentially activated during early stages of mycobiont and photobiont interaction in coculture, expanded or contracted protein families, and proteins with differential rates of evolution. Results A) In coculture, the fungus upregulated small secreted proteins, membrane transport proteins, signal transduction components, extracellular hydrolases and, notably, a ribitol transporter and an ammonium transporter, and the alga activated DNA metabolism, signal transduction, and expression of flagellar components. B) Expanded fungal protein families include heterokaryon incompatibility proteins, polyketide synthases, and a unique set of G-protein α subunit paralogs. Expanded algal protein families include carbohydrate active enzymes and a specific subclass of cytoplasmic carbonic anhydrases. The alga also appears to have acquired by horizontal gene transfer from prokaryotes novel archaeal ATPases and Desiccation-Related Proteins. Expanded in both symbionts are signal transduction components, ankyrin domain proteins and transcription factors involved in chromatin remodeling and stress responses. The fungal transportome is contracted, as are algal nitrate assimilation genes. C) In the mycobiont, slow-evolving proteins were enriched for components involved in protein translation, translocation and sorting. Conclusions The surveyed genes affect stress resistance, signaling, genome reprogramming, nutritional and structural interactions. The alga carries many genes likely transferred horizontally through viruses, yet we found no evidence of inter-symbiont gene transfer. The presence in the photobiont of meiosis-specific genes supports the notion that sexual reproduction occurs in Asterochloris while they are free-living, a phenomenon with implications for the adaptability of lichens and the persistent autonomy of the symbionts. The diversity of the genes affecting the symbiosis suggests that lichens evolved by accretion of many scattered regulatory and structural changes rather than through introduction of a few key innovations. This predicts that paths to lichenization were variable in different phyla, which is consistent with the emerging consensus that ascolichens could have had a few independent origins.

Published

2019

15. Corrigendum to 'Comparative analysis of Phytophthora genomes reveals oomycete pathogenesis in crops' [Heliyon 7 (2) (February 2021) e06317]

Author

Rui-Fang Gao, Jie-Yu Wang, Ke-Wei Liu, Kouki Yoshida, Yu-Yun Hsiao, Yi-Xiang Shi, Kun-Chan Tsai, You-Yi Chen, Nobutaka Mitsuda, Chieh-Kai Liang, Zhi-Wen Wang, Ying Wang, Diyang Zhang, Laiqiang Huang, Xiang Zhao, Wen-Ying Zhong, Ying-Hui Cheng, Zi-De Jiang, Ming-He Li, Wei-Hong Sun, Xia Yu, Wenqi Hu, Zhuang Zhou, Xiao-Fan Zhou, Chuan-Ming Yeh, Kazutaka Katoh, Wen-Chieh Tsai, Zhong-Jian Liu, Francis Martin, and Gui-Ming Zhang

Subjects

Science (General), Q1-390, Social sciences (General), H1-99

Published

2021

16. Comparative analysis of Phytophthora genomes reveals oomycete pathogenesis in crops

Author

Rui-Fang Gao, Jie-Yu Wang, Ke-Wei Liu, Kouki Yoshida, Yu-Yun Hsiao, Yi-Xiang Shi, Kun-Chan Tsai, You-Yi Chen, Nobutaka Mitsuda, Chieh-Kai Liang, Zhi-Wen Wang, Ying Wang, Di-Yang Zhang, Laiqiang Huang, Xiang Zhao, Wen-Ying Zhong, Ying-Hui Cheng, Zi-De Jiang, Ming-He Li, Wei-Hong Sun, Xia Yu, Wenqi Hu, Zhuang Zhou, Xiao-Fan Zhou, Chuan-Ming Yeh, Kazutaka Katoh, Wen-Chieh Tsai, Zhong-Jian Liu, Francis Martin, and Gui-Ming Zhang

Subjects

Phytophthora, Genome, Phylogenetic, Pathogenicity, Horizontally gene transfer, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

The oomycete genus Phytophthora includes devastating plant pathogens that are found in almost all ecosystems. We sequenced the genomes of two quarantined Phytophthora species–P. fragariae and P. rubi. Comparing these Phytophthora species and related genera allowed reconstruction of the phylogenetic relationships within the genus Phytophthora and revealed Phytophthora genomic features associated with infection and pathogenicity. We found that several hundred Phytophthora genes are putatively inherited from red algae, but Phytophthora does not have vestigial plastids originating from phototrophs. The horizontally-transferred Phytophthora genes are abundant transposons that “transmit” exogenous gene to Phytophthora species thus bring about the gene recombination possibility. Several expansion events of Phytophthora gene families associated with cell wall biogenesis can be used as mutational targets to elucidate gene function in pathogenic interactions with host plants. This work enhanced the understanding of Phytophthora evolution and will also be helpful for the design of phytopathological control strategies.

Published

2021

17. An Updated Global Species Diversity and Phylogeny in the Forest Pathogenic Genus Heterobasidion (Basidiomycota, Russulales)

Author

Yuan Yuan, Jia-Jia Chen, Kari Korhonen, Francis Martin, and Yu-Cheng Dai

Subjects

taxonomy, phylogeny, new taxa, Bondarzewiaceae, pathogenic fungi, Microbiology, QR1-502

Abstract

Heterobasidion species are amongst the most intensively studied polypores because several species are aggressive white rot pathogens of managed coniferous forests mainly in Europe and North America. In the present study, both morphological and multilocus phylogenetic analyses were carried out on Heterobasidion samples from Asia, Oceania, Europe and North America. Three new taxa were found, i.e., H. armandii, H. subinsulare, and H. subparviporum are from Asia and are described as new species. H. ecrustosum is treated as a synonym of H. insulare. So far, six taxa in the H. annosum species complex are recognized. Heterobasidion abietinum, H. annosum, and H. parviporum occur in Europe, H. irregulare, and H. occidentale in North America, and H. subparviporum in East Asia. The North American H. irregulare was introduced to Italy during the Second World War. Species in the H. annosum complex are pathogens of coniferous trees, except H. subparviporum that seems to be a saprotroph. Ten species are found in the H. insulare species complex, all of them are saprotrophs. The pathogenic species are distributed in Europe and North America; the Asian countries should consider the European and North American species as entry plant quarantine fungi. Parallelly, European countries should consider the American H. occidentale and H. irregulare as entry plant quarantine fungi although the latter species is already in Italy, while North America should treat H. abietinum, H. annosum s.s., and H. parviporum as entry plant quarantine fungi. Eight Heterobasidion species found in the Himalayas suggest that the ancestral Heterobasidion species may have occurred in Asia.

Published

2021

18. Can Industrial-Scale Solar Hydrogen Supplied from Commodity Technologies Be Cost Competitive by 2030?

Author

Dharik Sanchan Mallapragada, Emre Gençer, Patrick Insinger, David William Keith, and Francis Martin O’Sullivan

Subjects

renewable hydrogen, electrolysis, PV, energy systems, green hydrogen, energy storage, Physics, QC1-999

Abstract

Summary: Expanding decarbonization efforts beyond the power sector are contingent on cost-effective production of energy carriers, like H2, with near-zero life-cycle carbon emissions. Here, we assess the levelized cost of continuous H2 supply (95% availability) at industrial-scale quantities (∼100 tonnes/day) in 2030 from integrating commodity technologies for solar photovoltaics, electrolysis, and energy storage. Our approach relies on modeling the least-cost plant design and operation that optimize component sizes while adhering to hourly solar availability, production requirements, and component inter-temporal operating constraints. We apply the model to study H2 production costs spanning the continental United States and, through extensive sensitivity analysis, explore system configurations that can achieve $2.5/kg levelized costs or less for a range of plausible 2030 technology projections at high-irradiance locations. Notably, we identify potential sites and system configurations where PV-electrolytic H2 could substitute natural gas-derived H2 at avoided CO2 costs (≤$120/ton), similar to the cost of deploying carbon capture and sequestration.

Published

2020

19. A Transcriptomic Atlas of the Ectomycorrhizal Fungus Laccaria bicolor

Author

Joske Ruytinx, Shingo Miyauchi, Sebastian Hartmann-Wittulsky, Maíra de Freitas Pereira, Frédéric Guinet, Jean-Louis Churin, Carine Put, François Le Tacon, Claire Veneault-Fourrey, Francis Martin, and Annegret Kohler

Subjects

ectomycorrhiza, symbiosis, carpophore, nitrogen, phosphorus, transcriptome, Biology (General), QH301-705.5

Abstract

Trees are able to colonize, establish and survive in a wide range of soils through associations with ectomycorrhizal (EcM) fungi. Proper functioning of EcM fungi implies the differentiation of structures within the fungal colony. A symbiotic structure is dedicated to nutrient exchange and the extramatricular mycelium explores soil for nutrients. Eventually, basidiocarps develop to assure last stages of sexual reproduction. The aim of this study is to understand how an EcM fungus uses its gene set to support functional differentiation and development of specialized morphological structures. We examined the transcriptomes of Laccaria bicolor under a series of experimental setups, including the growth with Populus tremula x alba at different developmental stages, basidiocarps and free-living mycelium, under various conditions of N, P and C supply. In particular, N supply induced global transcriptional changes, whereas responses to P supply seemed to be independent from it. Symbiosis development with poplar is characterized by transcriptional waves. Basidiocarp development shares transcriptional signatures with other basidiomycetes. Overlaps in transcriptional responses of L. bicolor hyphae to a host plant and N/C supply next to co-regulation of genes in basidiocarps and mature mycorrhiza were detected. Few genes are induced in a single condition only, but functional and morphological differentiation rather involves fine tuning of larger gene sets. Overall, this transcriptomic atlas builds a reference to study the function and stability of EcM symbiosis in distinct conditions using L. bicolor as a model and indicates both similarities and differences with other ectomycorrhizal fungi, allowing researchers to distinguish conserved processes such as basidiocarp development from nutrient homeostasis.

Published

2021

20. Populus trichocarpa encodes small, effector-like secreted proteins that are highly induced during mutualistic symbiosis

Author

Jonathan M. Plett, Hengfu Yin, Ritesh Mewalal, Rongbin Hu, Ting Li, Priya Ranjan, Sara Jawdy, Henrique C. De Paoli, George Butler, Tessa Maureen Burch-Smith, Hao-Bo Guo, Chun Ju Chen, Annegret Kohler, Ian C. Anderson, Jessy L. Labbé, Francis Martin, Gerald A. Tuskan, and Xiaohan Yang

Subjects

Medicine, Science

Abstract

Abstract During symbiosis, organisms use a range of metabolic and protein-based signals to communicate. Of these protein signals, one class is defined as ‘effectors’, i.e., small secreted proteins (SSPs) that cause phenotypical and physiological changes in another organism. To date, protein-based effectors have been described in aphids, nematodes, fungi and bacteria. Using RNA sequencing of Populus trichocarpa roots in mutualistic symbiosis with the ectomycorrhizal fungus Laccaria bicolor, we sought to determine if host plants also contain genes encoding effector-like proteins. We identified 417 plant-encoded putative SSPs that were significantly regulated during this interaction, including 161 SSPs specific to P. trichocarpa and 15 SSPs exhibiting expansion in Populus and closely related lineages. We demonstrate that a subset of these SSPs can enter L. bicolor hyphae, localize to the nucleus and affect hyphal growth and morphology. We conclude that plants encode proteins that appear to function as effector proteins that may regulate symbiotic associations.

Published

2017

21. Soil networks become more connected and take up more carbon as nature restoration progresses

Author

Elly Morriën, S. Emilia Hannula, L. Basten Snoek, Nico R. Helmsing, Hans Zweers, Mattias de Hollander, Raquel Luján Soto, Marie-Lara Bouffaud, Marc Buée, Wim Dimmers, Henk Duyts, Stefan Geisen, Mariangela Girlanda, Rob I. Griffiths, Helene-Bracht Jørgensen, John Jensen, Pierre Plassart, Dirk Redecker, Rűdiger M Schmelz, Olaf Schmidt, Bruce C. Thomson, Emilie Tisserant, Stephane Uroz, Anne Winding, Mark J. Bailey, Michael Bonkowski, Jack H. Faber, Francis Martin, Philippe Lemanceau, Wietse de Boer, Johannes A. van Veen, and Wim H. van der Putten

Subjects

Science

Abstract

Effects of habitat restoration on belowground organisms and ecosystem processes are poorly understood. Morriën and colleagues show that changes in the composition and network interactions of soil biota lead to improved carbon uptake efficiency when formerly cultivated land is restored.

Published

2017

22. Author Correction: Genome sequencing of Rigidoporus microporus provides insights on genes important for wood decay, latex tolerance and interspecific fungal interactions

Author

Abbot O. Oghenekaro, Andriy Kovalchuk, Tommaso Raffaello, Susana Camarero, Markus Gressler, Bernard Henrissat, Juna Lee, Mengxia Liu, Angel T. Martínez, Otto Miettinen, Sirma Mihaltcheva, Jasmyn Pangilinan, Fei Ren, Robert Riley, Francisco Javier Ruiz-Dueñas, Ana Serrano, Michael R. Thon, Zilan Wen, Zhen Zeng, Kerrie Barry, Igor V. Grigoriev, Francis Martin, and Fred O. Asiegbu

Subjects

Medicine, Science

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

23. The Influence of Contrasting Microbial Lifestyles on the Pre-symbiotic Metabolite Responses of Eucalyptus grandis Roots

Author

Johanna W. H. Wong, Adrian Lutz, Siria Natera, Mei Wang, Vivian Ng, Igor Grigoriev, Francis Martin, Ute Roessner, Ian C. Anderson, and Jonathan M. Plett

Subjects

plant-microbe interaction, chemical signaling, metabolomics, isotope, transcriptomics, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Plant roots co-inhabit the soil with a diverse consortium of microbes of which a number attempt to enter symbiosis with the plant. These microbes may be pathogenic, mutualistic, or commensal. Hence, the health and survival of plants is heavily reliant on their ability to perceive different microbial lifestyles and respond appropriately. Emerging research suggests that there is a pivotal role for plant root secondary metabolites in responding to microbial colonization. However, it is largely unknown if plants are able to differentiate between microbes of different lifestyles and respond differently during the earliest stages of pre-symbiosis (i.e., prior to physical contact). In studying plant responses to a range of microbial isolates, we questioned: (1) if individual microbes of different lifestyles and species caused alterations to the plant root metabolome during pre-symbiosis, and (2) if these early metabolite responses correlate with the outcome of the symbiotic interaction in later phases of colonization.We compared the changes of the root tip metabolite profile of the model tree Eucalyptus grandis during pre-symbiosis with two isolates of a pathogenic fungus (Armillaria luteobubalina), one isolate of a pathogenic oomycete (Phytophthora cinnamomi), two isolates of an incompatible mutualistic fungus (Suillus granulatus), and six isolates of a compatible mutualistic fungus (Pisolithus microcarpus). Untargeted metabolite profiling revealed predominantly positive root metabolite responses at the pre-symbiosis stage, prior to any observable phenotypical changes of the root tips. Metabolite responses in the host tissue that were specific to each microbial species were identified. A deeper analysis of the root metabolomic profiles during pre-symbiotic contact with six strains of P. microcarpus showed a connection between these early metabolite responses in the root with later colonization success. Further investigation using isotopic tracing revealed a portion of metabolites found in root tips originated from the fungus. RNA-sequencing also showed that the plant roots undergo complementary transcriptomic reprogramming in response to the fungal stimuli. Taken together, our results demonstrate that the early metabolite responses of plant roots are partially selective toward the lifestyle of the interacting microbe, and that these responses can be crucial in determining the outcome of the interaction.

Published

2019

24. Secretome Analysis from the Ectomycorrhizal Ascomycete Cenococcum geophilum

Author

Maíra de Freitas Pereira, Claire Veneault-Fourrey, Patrice Vion, Fréderic Guinet, Emmanuelle Morin, Kerrie W. Barry, Anna Lipzen, Vasanth Singan, Stephanie Pfister, Hyunsoo Na, Megan Kennedy, Simon Egli, Igor Grigoriev, Francis Martin, Annegret Kohler, and Martina Peter

Subjects

Cenococcum geophilum, small secreted proteins, ectomycorrhiza, symbiosis, interaction, Microbiology, QR1-502

Abstract

Cenococcum geophilum is an ectomycorrhizal fungus with global distribution in numerous habitats and associates with a large range of host species including gymnosperm and angiosperm trees. Moreover, C. geophilum is the unique ectomycorrhizal species within the clade Dothideomycetes, the largest class of Ascomycetes containing predominantly saprotrophic and many devastating phytopathogenic fungi. Recent studies highlight that mycorrhizal fungi, as pathogenic ones, use effectors in form of Small Secreted Proteins (SSPs) as molecular keys to promote symbiosis. In order to better understand the biotic interaction of C. geophilum with its host plants, the goal of this work was to characterize mycorrhiza-induced small-secreted proteins (MiSSPs) that potentially play a role in the ectomycorrhiza formation and functioning of this ecologically very important species. We combined different approaches such as gene expression profiling, genome localization and conservation of MiSSP genes in different C. geophilum strains and closely related species as well as protein subcellular localization studies of potential targets of MiSSPs in interacting plants using in tobacco leaf cells. Gene expression analyses of C. geophilum interacting with Pinus sylvestris (pine) and Populus tremula × Populus alba (poplar) showed that similar sets of genes coding for secreted proteins were up-regulated and only few were specific to each host. Whereas pine induced more carbohydrate active enzymes (CAZymes), the interaction with poplar induced the expression of specific SSPs. We identified a set of 22 MiSSPs, which are located in both, gene-rich, repeat-poor or gene-sparse, repeat-rich regions of the C. geophilum genome, a genome showing a bipartite architecture as seen for some pathogens but not yet for an ectomycorrhizal fungus. Genome re-sequencing data of 15 C. geophilum strains and two close relatives Glonium stellatum and Lepidopterella palustris were used to study sequence conservation of MiSSP-encoding genes. The 22 MiSSPs showed a high presence-absence polymorphism among the studied C. geophilum strains suggesting an evolution through gene gain/gene loss. Finally, we showed that six CgMiSSPs target four distinct sub-cellular compartments such as endoplasmic reticulum, plasma membrane, cytosol and tonoplast. Overall, this work presents a comprehensive analysis of secreted proteins and MiSSPs in different genetic level of C. geophilum opening a valuable resource to future functional analysis.

Published

2018

25. The Mutualist Laccaria bicolor Expresses a Core Gene Regulon During the Colonization of Diverse Host Plants and a Variable Regulon to Counteract Host-Specific Defenses

Author

Jonathan M. Plett, Emilie Tisserant, Annick Brun, Emmanuel Morin, Igor V. Grigoriev, Alan Kuo, Francis Martin, and Annegret Kohler

Subjects

Microbiology, QR1-502, Botany, QK1-989

Abstract

The coordinated transcriptomic responses of both mutualistic ectomycorrhizal (ECM) fungi and their hosts during the establishment of symbiosis are not well-understood. This study characterizes the transcriptomic alterations of the ECM fungus Laccaria bicolor during different colonization stages on two hosts (Populus trichocarpa and Pseudotsuga menziesii) and compares this to the transcriptomic variations of P. trichocarpa across the same timepoints. A large number of L. bicolor genes (≥8,000) were significantly regulated at the transcriptional level in at least one stage of colonization. From our data, we identify 1,249 genes that we hypothesize is the ‘core’ gene regulon necessary for the mutualistic interaction between L. bicolor and its host plants. We further identify a group of 1,210 genes that are regulated in a host-specific manner. This variable regulon encodes a number of genes coding for proteases and xenobiotic efflux transporters that we hypothesize act to counter chemical-based defenses simultaneously activated at the transcriptomic level in P. trichocarpa. The transcriptional response of the host plant P. trichocarpa consisted of differential waves of gene regulation related to signaling perception and transduction, defense response, and the induction of nutrient transfer in P. trichocarpa tissues. This study, therefore, gives fresh insight into the shifting transcriptomic landscape in both the colonizing fungus and its host and the different strategies employed by both partners in orchestrating a mutualistic interaction.

Published

2015

26. The Identification of Phytohormone Receptor Homologs in Early Diverging Fungi Suggests a Role for Plant Sensing in Land Colonization by Fungi

Author

Anaïs Hérivaux, Thomas Dugé de Bernonville, Christophe Roux, Marc Clastre, Vincent Courdavault, Amandine Gastebois, Jean-Philippe Bouchara, Timothy Y. James, Jean-Paul Latgé, Francis Martin, and Nicolas Papon

Subjects

Microbiology, QR1-502

Abstract

ABSTRACT Histidine kinases (HKs) are among the most prominent sensing proteins studied in the kingdom Fungi. Their distribution and biological functions in early diverging fungi (EDF), however, remain elusive. We have taken advantage of recent genomic resources to elucidate whether relationships between the occurrence of specific HKs in some EDF and their respective habitat/lifestyle could be established. This led to the unexpected discovery of fungal HKs that share a high degree of similarity with receptors for plant hormones (ethylene and cytokinin). Importantly, these phytohormone receptor homologs are found not only in EDF that behave as plant root symbionts or endophytes but also in EDF species that colonize decaying plant material. We hypothesize that these particular sensing proteins promoted the interaction of EDF with plants, leading to the conquest of land by these ancestral fungi.

Published

2017

27. Populus trichocarpa and Populus deltoides Exhibit Different Metabolomic Responses to Colonization by the Symbiotic Fungus Laccaria bicolor

Author

Timothy J. Tschaplinski, Jonathan M. Plett, Nancy L. Engle, Aurelie Deveau, Katherine C. Cushman, Madhavi Z. Martin, Mitchel J. Doktycz, Gerald A. Tuskan, Annick Brun, Annegret Kohler, and Francis Martin

Subjects

Microbiology, QR1-502, Botany, QK1-989

Abstract

Within boreal and temperate forest ecosystems, the majority of trees and shrubs form beneficial relationships with mutualistic ectomycorrhizal (ECM) fungi that support plant health through increased access to nutrients as well as aiding in stress and pest tolerance. The intimate interaction between fungal hyphae and plant roots results in a new symbiotic “organ” called the ECM root tip. Little is understood concerning the metabolic reprogramming that favors the formation of this hybrid tissue in compatible interactions and what prevents the formation of ECM root tips in incompatible interactions. We show here that the metabolic changes during favorable colonization between the ECM fungus Laccaria bicolor and its compatible host, Populus trichocarpa, are characterized by shifts in aromatic acid, organic acid, and fatty acid metabolism. We demonstrate that this extensive metabolic reprogramming is repressed in incompatible interactions and that more defensive compounds are produced or retained. We also demonstrate that L. bicolor can metabolize a number of secreted defensive compounds and that the degradation of some of these compounds produces immune response metabolites (e.g., salicylic acid from salicin). Therefore, our results suggest that the metabolic responsiveness of plant roots to L. bicolor is a determinant factor in fungus–host interactions.

Published

2014

28. Uso de la clasificación de riesgo para pie diabético según la IWGDF en centros de salud con bajos recursos

Author

Francis Martin Mejía-Parreño and Miriam Sthefany Julca-Carbonero

Subjects

Nursing, RT1-120

Published

2019

29. Microbe-Independent Entry of Oomycete RxLR Effectors and Fungal RxLR-Like Effectors Into Plant and Animal Cells Is Specific and Reproducible

Author

Brett M. Tyler, Shiv D. Kale, Qunqing Wang, Kai Tao, Helen R. Clark, Kelly Drews, Vincenzo Antignani, Amanda Rumore, Tristan Hayes, Jonathan M. Plett, Isabelle Fudal, Biao Gu, Qinghe Chen, Katharyn J. Affeldt, Erwin Berthier, Gregory J. Fischer, Daolong Dou, Weixing Shan, Nancy P. Keller, Francis Martin, Thierry Rouxel, and Christopher B. Lawrence

Subjects

Microbiology, QR1-502, Botany, QK1-989

Abstract

A wide diversity of pathogens and mutualists of plant and animal hosts, including oomycetes and fungi, produce effector proteins that enter the cytoplasm of host cells. A major question has been whether or not entry by these effectors can occur independently of the microbe or requires machinery provided by the microbe. Numerous publications have documented that oomycete RxLR effectors and fungal RxLR-like effectors can enter plant and animal cells independent of the microbe. A recent reexamination of whether the RxLR domain of oomycete RxLR effectors is sufficient for microbe-independent entry into host cells concluded that the RxLR domains of Phytophthora infestans Avr3a and of P. sojae Avr1b alone are NOT sufficient to enable microbe-independent entry of proteins into host and nonhost plant and animal cells. Here, we present new, more detailed data that unambiguously demonstrate that the RxLR domain of Avr1b does show efficient and specific entry into soybean root cells and also into wheat leaf cells, at levels well above background nonspecific entry. We also summarize host cell entry experiments with a wide diversity of oomycete and fungal effectors with RxLR or RxLR-like motifs that have been independently carried out by the seven different labs that coauthored this letter. Finally we discuss possible technical reasons why specific cell entry may have been not detected by Wawra et al. (2013).

Published

2013

30. Ecologically Different Fungi Affect Arabidopsis Development: Contribution of Soluble and Volatile Compounds.

Author

Salvatore Casarrubia, Sara Sapienza, Héma Fritz, Stefania Daghino, Maaria Rosenkranz, Jörg-Peter Schnitzler, Francis Martin, Silvia Perotto, and Elena Martino

Subjects

Medicine, Science

Abstract

Plant growth and development can be influenced by mutualistic and non-mutualistic microorganisms. We investigated the ability of the ericoid endomycorrhizal fungus Oidiodendron maius to influence growth and development of the non-host plant Arabidopsis thaliana. Different experimental setups (non-compartmented and compartmented co-culture plates) were used to investigate the influence of both soluble and volatile fungal molecules on the plant phenotype. O. maius promoted growth of A. thaliana in all experimental setups. In addition, a peculiar clumped root phenotype, characterized by shortening of the primary root and by an increase of lateral root length and number, was observed in A. thaliana only in the non-compartmented plates, suggesting that soluble diffusible molecules are responsible for this root morphology. Fungal auxin does not seem to be involved in plant growth promotion and in the clumped root phenotype because co-cultivation with O. maius did not change auxin accumulation in plant tissues, as assessed in plants carrying the DR5::GUS reporter construct. In addition, no correlation between the amount of fungal auxin produced and the plant root phenotype was observed in an O. maius mutant unable to induce the clumped root phenotype in A. thaliana. Addition of active charcoal, a VOC absorbant, in the compartmented plates did not modify plant growth promotion, suggesting that VOCs are not involved in this phenomenon. The low VOCs emission measured for O. maius further corroborated this hypothesis. By contrast, the addition of CO2 traps in the compartmented plates drastically reduced plant growth, suggesting involvement of fungal CO2 in plant growth promotion. Other mycorrhizal fungi, as well as a saprotrophic and a pathogenic fungus, were also tested with the same experimental setups. In the non-compartmented plates, most fungi promoted A. thaliana growth and some could induce the clumped root phenotype. In the compartmented plate experiments, a general induction of plant growth was observed for most other fungi, especially those producing higher biomass, further strengthening the role of a nonspecific mechanism, such as CO2 emission.

Published

2016

31. A Comprehensive Analysis of Genes Encoding Small Secreted Proteins Identifies Candidate Effectors in Melampsora larici-populina (Poplar Leaf Rust)

Author

Stéphane Hacquard, David L. Joly, Yao-Cheng Lin, Emilie Tisserant, Nicolas Feau, Christine Delaruelle, Valérie Legué, Annegret Kohler, Philippe Tanguay, Benjamin Petre, Pascal Frey, Yves Van de Peer, Pierre Rouzé, Francis Martin, Richard C. Hamelin, and Sébastien Duplessis

Subjects

Microbiology, QR1-502, Botany, QK1-989

Abstract

The obligate biotrophic rust fungus Melampsora larici-populina is the most devastating and widespread pathogen of poplars. Studies over recent years have identified various small secreted proteins (SSP) from plant biotrophic filamentous pathogens and have highlighted their role as effectors in host–pathogen interactions. The recent analysis of the M. larici-populina genome sequence has revealed the presence of 1,184 SSP-encoding genes in this rust fungus. In the present study, the expression and evolutionary dynamics of these SSP were investigated to pinpoint the arsenal of putative effectors that could be involved in the interaction between the rust fungus and poplar. Similarity with effectors previously described in Melampsora spp., richness in cysteines, and organization in large families were extensively detailed and discussed. Positive selection analyses conducted over clusters of paralogous genes revealed fast-evolving candidate effectors. Transcript profiling of selected M. laricipopulina SSP showed a timely coordinated expression during leaf infection, and the accumulation of four candidate effectors in distinct rust infection structures was demonstrated by immunolocalization. This integrated and multifaceted approach helps to prioritize candidate effector genes for functional studies.

Published

2012

32. Melampsora larici-populina Transcript Profiling During Germination and Timecourse Infection of Poplar Leaves Reveals Dynamic Expression Patterns Associated with Virulence and Biotrophy

Author

Sébastien Duplessis, Stéphane Hacquard, Christine Delaruelle, Emilie Tisserant, Pascal Frey, Francis Martin, and Annegret Kohler

Subjects

Microbiology, QR1-502, Botany, QK1-989

Abstract

Melampsora larici-populina is responsible for poplar leaf rust disease and causes severe epidemics in poplar plantations in Europe. The poplar rust genome has been recently sequenced and, in order to find the genetic determinants associated with its biotrophic lifestyle, we generated a whole-genome custom oligoarray and analyzed transcript profiles of M. larici-populina during the infection timecourse in poplar leaves. Different stages were investigated during the asexual development of the rust fungus, including resting and germinating urediniospores and seven in planta stages in the telial host. In total, 76% of the transcripts were detected during leaf infection as well as in urediniospores, whereas 20% were only detected in planta, including several transporters and many small secreted proteins (SSP). We focused our analysis on gene categories known to be related to plant colonization and biotrophic growth in rust pathogens, such as SSP, carbohydrate active enzymes (CAZymes), transporters, lipases, and proteases. Distinct sets of SSP transcripts were expressed all along the infection process, suggesting highly dynamic expression of candidate rust effectors. In contrast, transcripts encoding transporters and proteases were mostly expressed after 48 h postinoculation, when numerous haustoria are already formed in the leaf mesophyll until uredinia formation, supporting their role in nutrient acquisition during biotrophic growth. Finally, CAZymes and lipase transcripts were predominantly expressed at late stages of infection, highlighting their importance during sporulation.

Published

2011

33. Laser Capture Microdissection of Uredinia Formed by Melampsora larici-populina Revealed a Transcriptional Switch Between Biotrophy and Sporulation

Author

Stéphane Hacquard, Christine Delaruelle, Valérie Legué, Emilie Tisserant, Annegret Kohler, Pascal Frey, Francis Martin, and Sébastien Duplessis

Subjects

Microbiology, QR1-502, Botany, QK1-989

Abstract

The foliar rust caused by the basidiomycete Melampsora larici-populina is the main disease affecting poplar plantations in Europe. The biotrophic status of rust fungi is a major limitation to study gene expression of cell or tissue types during host infection. At the uredinial stage, infected poplar leaves contain distinct rust tissues such as haustoria, infection hyphae, and uredinia with sporogenous hyphae and newly formed asexual urediniospores. Laser capture microdissection (LCM) was used to isolate three areas corresponding to uredinia and subjacent zones in the host mesophyll for expression analysis with M. larici-populina whole-genome exon oligoarrays. Optimization of tissue preparation prior to LCM allowed isolation of RNA of good integrity for genome-wide expression profiling. Our results indicate that the poplar rust uredinial stage is marked by distinct genetic programs related to biotrophy in the host palisade mesophyll and to sporulation in the uredinium. A strong induction of transcripts encoding small secreted proteins, likely containing rust effectors, is observed in the mesophyll, suggesting a late maintenance of suppression of host defense in the tissue containing haustoria and infection hyphae. On the other hand, cell cycle and cell defense rescue transcripts are strongly accumulated in the sporulation area. This combined LCM-transcriptomic approach brings new insights on the molecular mechanisms underlying urediniospore formation in rust fungi.

Published

2010

34. A Novel Class of Ectomycorrhiza-Regulated Cell Wall Polypeptides in Pisolithus tinctorius

Author

Pascal Laurent, Catherine Voiblet, Denis Tagu, Dulcinéia de Carvalho, Uwe Nehls, Roberta De Bellis, Raffaella Balestrini, Guy Bauw, Paola Bonfante, and Francis Martin

Subjects

differentiation, fungus, Microbiology, QR1-502, Botany, QK1-989

Abstract

Development of the ectomycorrhizal symbiosis leads to the aggregation of fungal hyphae to form the mantle. To identify cell surface proteins involved in this developmental step, changes in the biosynthesis of fungal cell wall proteins were examined in Eucalyptus globulus-Pisolithus tinctorius ectomycorrhizas by two-dimensional polyacrylamide gel electrophoresis. Enhanced synthesis of several immunologically related fungal 31- and 32-kDa polypeptides, so-called symbiosis-regulated acidic polypeptides (SRAPs), was observed. Peptide sequences of SRAP32d were obtained after trypsin digestion. These peptides were found in the predicted sequence of six closely related fungal cDNAs coding for ectomycorrhiza up-regulated transcripts. The PtSRAP32 cDNAs represented about 10% of the differentially expressed cDNAs in ectomycorrhiza and are predicted to encode alanine-rich proteins of 28.2 kDa. There are no sequence homologies between SRAPs and previously identified proteins, but they contain the Arg-Gly-Asp (RGD) motif found in cell-adhesion proteins. SRAPs were observed on the hyphal surface by immunoelectron microscopy. They were also found in the host cell wall when P. tinctorius attached to the root surface. RNA blot analysis showed that the steady-state level of PtSRAP32 transcripts exhibited a drastic up-regulation when fungal hyphae form the mantle. These results suggest that SRAPs may form part of a cell-cell adhesion system needed for aggregation of hyphae in ectomycorrhizas.

Published

1999

35. Inside Arbuscular Mycorrhizal Roots – Molecular Probes to Understand the Symbiosis

Author

Daniel Ruzicka, Srikar Chamala, Felipe H. Barrios-Masias, Francis Martin, Sally Smith, Louise E. Jackson, W. Brad Barbazuk, and Daniel P. Schachtman

Subjects

Plant culture, SB1-1110, Genetics, QH426-470

Abstract

Associations between arbuscular mycorrhizal (AM) fungi and plants are an ancient and widespread plant microbe symbioses. Most land plants can associate with this specialized group of soil fungi (in the Glomeromycota), which enhance plant nutrient uptake in return for C derived from plant photosynthesis. Elucidating the mechanisms involved in the symbiosis between obligate symbionts such as AM fungi and plant roots is challenging because AM fungal transcripts in roots are in low abundance and reference genomes for the fungi have not been available. A deep sequencing metatranscriptomics approach was applied to a wild-type tomato and a tomato mutant ( L. cultivar RioGrande 76R) incapable of supporting a functional AM symbiosis, revealing novel AM fungal and microbial transcripts expressed in colonized roots. We confirm transcripts known to be mycorrhiza associated and report the discovery of more than 500 AM fungal and novel plant transcripts associated with mycorrhizal tomato roots including putative Zn, Fe, aquaporin, and carbohydrate transporters as well as mycorrhizal-associated alternative gene splicing. This analysis provides a fundamental step toward identifying the molecular mechanisms of mineral and carbohydrate exchange during the symbiosis. The utility of this metatranscriptomic approach to explore an obligate biotrophic interaction is illustrated, especially as it relates to agriculturally relevant biological processes.

Published

2013

36. Type of mask may impact on continuous positive airway pressure adherence in apneic patients.

Author

Jean Christian Borel, Renaud Tamisier, Sonia Dias-Domingos, Marc Sapene, Francis Martin, Bruno Stach, Yves Grillet, Jean François Muir, Patrick Levy, Frederic Series, Jean-Louis Pepin, and Scientific Council of The Sleep Registry of the French Federation of Pneumology (OSFP)

Subjects

Medicine, Science

Abstract

RationaleIn obstructive sleep apnea patients (OSA), continuous positive airway pressure (CPAP) adherence is crucial to improve symptoms and cardiometabolic outcomes. The choice of mask may influence CPAP adherence but this issue has never been addressed properly.ObjectiveTo evaluate the impact of nasal pillows, nasal and oronasal masks on CPAP adherence in a cohort of OSA.MethodsNewly CPAP treated OSA participating in "Observatoire Sommeil de la Fédération de Pneumologie", a French national prospective cohort, were included between March 2009 and December 2011. Anthropometric data, medical history, OSA severity, sleepiness, depressive status, treatment modalities (auto-CPAP versus fixed pressure, pressure level, interface type, use of humidifiers) and CPAP-related side effects were included in multivariate analysis to determine independent variables associated with CPAP adherence.Results2311 OSA (age = 57(12) years, apnea+hypopnea index = 41(21)/h, 29% female) were included. Nasal masks, oronasal masks and nasal pillows were used by 62.4, 26.2 and 11.4% of the patients, respectively. In univariate analysis, oronasal masks and nasal pillows were associated with higher risk of CPAP non-adherence. CPAP non-adherence was also associated with younger age, female gender, mild OSA, gastroesophageal reflux, depression status, low effective pressure and CPAP-related side effects. In multivariate analysis, CPAP non-adherence was associated with the use of oronasal masks (OR = 2.0; 95%CI = 1.6; 2.5), depression, low effective pressure, and side effects.ConclusionAs oronasal masks negatively impact on CPAP adherence, a nasal mask should be preferred as the first option. Patients on oronasal masks should be carefully followed.

Published

2013

37. Functional assays and metagenomic analyses reveals differences between the microbial communities inhabiting the soil horizons of a Norway spruce plantation.

Author

Stéphane Uroz, Panos Ioannidis, Juliette Lengelle, Aurélie Cébron, Emmanuelle Morin, Marc Buée, and Francis Martin

Subjects

Medicine, Science

Abstract

In temperate ecosystems, acidic forest soils are among the most nutrient-poor terrestrial environments. In this context, the long-term differentiation of the forest soils into horizons may impact the assembly and the functions of the soil microbial communities. To gain a more comprehensive understanding of the ecology and functional potentials of these microbial communities, a suite of analyses including comparative metagenomics was applied on independent soil samples from a spruce plantation (Breuil-Chenue, France). The objectives were to assess whether the decreasing nutrient bioavailability and pH variations that naturally occurs between the organic and mineral horizons affects the soil microbial functional biodiversity. The 14 Gbp of pyrosequencing and Illumina sequences generated in this study revealed complex microbial communities dominated by bacteria. Detailed analyses showed that the organic soil horizon was significantly enriched in sequences related to Bacteria, Chordata, Arthropoda and Ascomycota. On the contrary the mineral horizon was significantly enriched in sequences related to Archaea. Our analyses also highlighted that the microbial communities inhabiting the two soil horizons differed significantly in their functional potentials according to functional assays and MG-RAST analyses, suggesting a functional specialisation of these microbial communities. Consistent with this specialisation, our shotgun metagenomic approach revealed a significant increase in the relative abundance of sequences related glycoside hydrolases in the organic horizon compared to the mineral horizon that was significantly enriched in glycoside transferases. This functional stratification according to the soil horizon was also confirmed by a significant correlation between the functional assays performed in this study and the functional metagenomic analyses. Together, our results suggest that the soil stratification and particularly the soil resource availability impact the functional diversity and to a lesser extent the taxonomic diversity of the bacterial communities.

Published

2013

38. RNA-Seq of early-infected poplar leaves by the rust pathogen Melampsora larici-populina uncovers PtSultr3;5, a fungal-induced host sulfate transporter.

Author

Benjamin Petre, Emmanuelle Morin, Emilie Tisserant, Stéphane Hacquard, Corinne Da Silva, Julie Poulain, Christine Delaruelle, Francis Martin, Nicolas Rouhier, Annegret Kohler, and Sébastien Duplessis

Subjects

Medicine, Science

Abstract

Biotroph pathogens establish intimate interactions with their hosts that are conditioned by the successful secretion of effectors in infected tissues and subsequent manipulation of host physiology. The identification of early-expressed pathogen effectors and early-modulated host functions is currently a major goal to understand the molecular basis of biotrophy. Here, we report the 454-pyrosequencing transcriptome analysis of early stages of poplar leaf colonization by the rust fungus Melampsora larici-populina. Among the 841,301 reads considered for analysis, 616,879 and 649 were successfully mapped to Populus trichocarpa and M. larici-populina genome sequences, respectively. From a methodological aspect, these results indicate that this single approach is not appropriate to saturate poplar transcriptome and to follow transcript accumulation of the pathogen. We identified 19 pathogen transcripts encoding early-expressed small-secreted proteins representing candidate effectors of interest for forthcoming studies. Poplar RNA-Seq data were validated by oligoarrays and quantitatively analysed, which revealed a highly stable transcriptome with a single transcript encoding a sulfate transporter (herein named PtSultr3;5, POPTR_0006s16150) showing a dramatic increase upon colonization by either virulent or avirulent M. larici-populina strains. Perspectives connecting host sulfate transport and biotrophic lifestyle are discussed.

Published

2012

39. Characterization of transposable elements in the ectomycorrhizal fungus Laccaria bicolor.

Author

Jessy Labbé, Claude Murat, Emmanuelle Morin, Gerald A Tuskan, François Le Tacon, and Francis Martin

Subjects

Medicine, Science

Abstract

BackgroundThe publicly available Laccaria bicolor genome sequence has provided a considerable genomic resource allowing systematic identification of transposable elements (TEs) in this symbiotic ectomycorrhizal fungus. Using a TE-specific annotation pipeline we have characterized and analyzed TEs in the L. bicolor S238N-H82 genome.Methodology/principal findingsTEs occupy 24% of the 60 Mb L. bicolor genome and represent 25,787 full-length and partial copy elements distributed within 171 families. The most abundant elements were the Copia-like. TEs are not randomly distributed across the genome, but are tightly nested or clustered. The majority of TEs exhibits signs of ancient transposition except some intact copies of terminal inverted repeats (TIRS), long terminal repeats (LTRs) and a large retrotransposon derivative (LARD) element. There were three main periods of TE expansion in L. bicolor: the first from 57 to 10 Mya, the second from 5 to 1 Mya and the most recent from 0.5 Mya ago until now. LTR retrotransposons are closely related to retrotransposons found in another basidiomycete, Coprinopsis cinerea.ConclusionsThis analysis 1) represents an initial characterization of TEs in the L. bicolor genome, 2) contributes to improve genome annotation and a greater understanding of the role TEs played in genome organization and evolution and 3) provides a valuable resource for future research on the genome evolution within the Laccaria genus.

Published

2012

40. Hors Collection

Author

Francis Martin

Published

2024

41. Endophytic life strategies decoded by genome and transcriptome analyses of the mutualistic root symbiont Piriformospora indica.

Author

Alga Zuccaro, Urs Lahrmann, Ulrich Güldener, Gregor Langen, Stefanie Pfiffi, Dagmar Biedenkopf, Philip Wong, Birgit Samans, Carolin Grimm, Magdalena Basiewicz, Claude Murat, Francis Martin, and Karl-Heinz Kogel

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Recent sequencing projects have provided deep insight into fungal lifestyle-associated genomic adaptations. Here we report on the 25 Mb genome of the mutualistic root symbiont Piriformospora indica (Sebacinales, Basidiomycota) and provide a global characterization of fungal transcriptional responses associated with the colonization of living and dead barley roots. Extensive comparative analysis of the P. indica genome with other Basidiomycota and Ascomycota fungi that have diverse lifestyle strategies identified features typically associated with both, biotrophism and saprotrophism. The tightly controlled expression of the lifestyle-associated gene sets during the onset of the symbiosis, revealed by microarray analysis, argues for a biphasic root colonization strategy of P. indica. This is supported by a cytological study that shows an early biotrophic growth followed by a cell death-associated phase. About 10% of the fungal genes induced during the biotrophic colonization encoded putative small secreted proteins (SSP), including several lectin-like proteins and members of a P. indica-specific gene family (DELD) with a conserved novel seven-amino acids motif at the C-terminus. Similar to effectors found in other filamentous organisms, the occurrence of the DELDs correlated with the presence of transposable elements in gene-poor repeat-rich regions of the genome. This is the first in depth genomic study describing a mutualistic symbiont with a biphasic lifestyle. Our findings provide a significant advance in understanding development of biotrophic plant symbionts and suggest a series of incremental shifts along the continuum from saprotrophy towards biotrophy in the evolution of mycorrhizal association from decomposer fungi.

Published

2011

42. FACE study: 2-year follow-up of adaptive servo-ventilation for sleep-disordered breathing in a chronic heart failure cohort

Author

Attali, Valérie, Maria-Anna, Balice, Laurent, Barthel, Rosa, Buendia, Bertien, Buyse, Laurent, Boyer, Marie-Pierre, Cadars, Pascal, Cornec, Thibaud, Damy, Jean-Marc, Davy, Geoffroy, De Faverges, Toufik, Didi, Marie-Pia, d'ortho, Frédéric, Gagnadoux, Thibaud, Gentina, François, Goupil, Frédéric, Goutorbe, Jean-Maurice, Guillemot, Carmen, Iamandi, Richard, Isnard, François, Jounieaux, Christian, Koltes, Alain, Le Coz, Benoit, Lequeux, René, Lerest, Lionel, Lerousseau, Jean-Pierre, Mallet, Francis, Martin, Jean-Claude, Meurice, Ala, Noroc, Frédéric, Ortuno, Alain, Palot, Philippe, Papola, Audrey, Paris, Hélène, Pastinelli, Jean-Louis, Pepin, Christophe, Perrin, Carole, Philippe, Sandrine, Pontier, Arnaud, Prigent, Pascaline, Priou, Vincent, Puel, Claudio, Rabec, Benjamin, Richard, Claude, Richard, Marijke, Rutten, Manuel, Sastry, Murielle, Salvat, Kamila, Sedkaoui, Bharati, Shivalkar, Renaud, Tamisier, Dries, Testelmans, Johan, Verbraecken, Tamisier, Renaud, Damy, Thibaud, Bailly, Sébastien, Goutorbe, Frédéric, Davy, Jean-Marc, Lavergne, Florent, Palot, Alain, Verbraecken, Johan A., d’Ortho, Marie-Pia, and Pépin, Jean-Louis

Published

2024

43. First Identification of Polymorphic Microsatellite Markers in the Burgundy Truffle, Tuber aestivum (Tuberaceae)

Author

Virginie Molinier, Claude Murat, Emmanuelle Morin, Armelle Gollotte, Daniel Wipf, and Francis Martin

Subjects

direct shotgun pyrosequencing, polymorphism, truffle, Tuber aestivum, Tuberaceae, Biology (General), QH301-705.5, Botany, QK1-989

Abstract

Premise of the study: Tuber aestivum, the most common truffle in Europe, plays an important role in the commercial truffle market. For the first time, microsatellite primers were developed to investigate polymorphism within this species. Methods and Results: Using direct shotgun pyrosequencing, 15 polymorphic microsatellites were identified out of the 7784 perfect microsatellites present in the 534620 reads obtained. Tested on 75 samples, these microsatellites were highly polymorphic. The number of alleles varied from four to 15, and the expected heterozygosity ranged from 0.266 to 0.620. A multilocus analysis allowed the identification of 63 genotypes over the 75 samples analyzed. Conclusions: Direct shotgun pyrosequencing is a fast and relatively low-cost technique allowing identification of microsatellites in nonmodel species. The microsatellites developed in this study will be useful in population genetic studies to infer the evolutionary history of this species.

Published

2013

44. Green shoots of opposition

Author

Francis, Martin

Subjects

Political parties, Literature/writing, Political science

Abstract

Andrew Marr's article (Politics, 14 June) was itself historic: it mentioned the Green Party! It would be good to see an analysis in the New Statesman of the Green Party's [...]

Published

2024

45. The Wolfiporia cocos Genome and Transcriptome Shed Light on the Formation of Its Edible and Medicinal Sclerotium.

Author

Hongmei Luo, Jun Qian, Zhichao Xu, Wanjing Liu, Lei Xu, Ying Li, Jiang Xu, Jianhong Zhang, Xiaolan Xu, Chang Liu, Liu He, Jianqin Li, Chao Sun, Francis Martin, Jingyuan Song, and Shilin Chen

Published

2020

46. Can Industrial-Scale Solar Hydrogen Supplied from Commodity Technologies Be Cost Competitive by 2030?

Author

Mallapragada, Dharik Sanchan, Gençer, Emre, Insinger, Patrick, Keith, David William, and O’Sullivan, Francis Martin

Published

2020

47. Wounded Pride and Petty Jealousies: Private Lives and Public Diplomacy in Second World War Cairo

Author

Francis, Martin, primary

Published

2020

48. Multifeature analysis of age‐related microbiome structures reveals defense mechanisms of Populus tomentosa trees

Author

Jianbo Xie, Yuchao Ma, Xian Li, Jiadong Wu, Francis Martin, and Deqiang Zhang

Subjects

Physiology, Plant Science

Published

2023

49. FACE study: 2-year follow-up of adaptive servo-ventilation for sleep-disordered breathing in a chronic heart failure cohort

Author

Tamisier, Renaud, primary, Damy, Thibaud, additional, Bailly, Sébastien, additional, Goutorbe, Frédéric, additional, Davy, Jean-Marc, additional, Lavergne, Florent, additional, Palot, Alain, additional, Verbraecken, Johan A., additional, d’Ortho, Marie-Pia, additional, Pépin, Jean-Louis, additional, Tamisier, Renaud, additional, Attali, Valérie, additional, Maria-Anna, Balice, additional, Laurent, Barthel, additional, Rosa, Buendia, additional, Bertien, Buyse, additional, Laurent, Boyer, additional, Marie-Pierre, Cadars, additional, Pascal, Cornec, additional, Thibaud, Damy, additional, Jean-Marc, Davy, additional, Geoffroy, De Faverges, additional, Toufik, Didi, additional, Marie-Pia, d'ortho, additional, Frédéric, Gagnadoux, additional, Thibaud, Gentina, additional, François, Goupil, additional, Frédéric, Goutorbe, additional, Jean-Maurice, Guillemot, additional, Carmen, Iamandi, additional, Richard, Isnard, additional, François, Jounieaux, additional, Christian, Koltes, additional, Alain, Le Coz, additional, Benoit, Lequeux, additional, René, Lerest, additional, Lionel, Lerousseau, additional, Jean-Pierre, Mallet, additional, Francis, Martin, additional, Jean-Claude, Meurice, additional, Ala, Noroc, additional, Frédéric, Ortuno, additional, Alain, Palot, additional, Philippe, Papola, additional, Audrey, Paris, additional, Hélène, Pastinelli, additional, Jean-Louis, Pepin, additional, Christophe, Perrin, additional, Carole, Philippe, additional, Sandrine, Pontier, additional, Arnaud, Prigent, additional, Pascaline, Priou, additional, Vincent, Puel, additional, Claudio, Rabec, additional, Benjamin, Richard, additional, Claude, Richard, additional, Marijke, Rutten, additional, Manuel, Sastry, additional, Murielle, Salvat, additional, Kamila, Sedkaoui, additional, Bharati, Shivalkar, additional, Renaud, Tamisier, additional, Dries, Testelmans, additional, and Johan, Verbraecken, additional

Published

2023

50. The Domestication of the Male? Recent Research on Nineteenth- and Twentieth-Century British Masculinity

Author

Francis, Martin

Published

2002