Your search keyword '"Hervé V"' showing total 12 results

1. A method for rapid and homogenous initiation of post-harvest physiological deterioration in cassava storage roots identifies Indonesian cultivars with improved shelf-life performance

Author

Ima M. Zainuddin, Brieuc Lecart, Enny Sudarmonowati, and Hervé Vanderschuren

Subjects

PPD assessment, Cassava germplasm, Plant culture, SB1-1110, Biology (General), QH301-705.5

Abstract

Abstract Cassava is the most cultivated and consumed root crop in the world. One of the major constraints to the cassava value chain is the short shelf life of cassava storage roots which is primarily due to the so-called post-harvest physiological deterioration (PPD). The identification of natural sources of PPD tolerance represents a key approach to mitigating PPD losses by generating farmer- and industry-preferred cassava cultivars with prolonged shelf life. In the present study, a PPD assessment method was developed to screen for PPD tolerance in the cassava germplasm. The proposed PPD assessment method displayed a reduced rate of microbial infection and allowed a rapid and homogenous development of typical PPD symptoms in the cassava storage roots. We successfully used the PPD assessment method in combination with an image-based PPD scoring method to identify and characterize PPD tolerance in 28 cassava cultivars from the Indonesian cassava germplasm. Our analysis showed a significant and positive correlation between PPD score and dry matter content (r = 0.589–0.664, p-value

Published

2023

2. Tracheobronchopathia osteochondroplastica: clinical, bronchoscopic, and comorbid features in a case series

Author

Antoine Dumazet, Claire Launois, Francois Lebargy, Romain Kessler, Hervé Vallerand, Pierre Schmitt, Christophe Hermant, Sandra Dury, Maxime Dewolf, Julien Dutilh, Maher Abouda, Marion Ferreira, Ihab Atallah, Samy Lachkar, Jérémy Charriot, Stéphane Jouneau, Yurdagul Uzunhan, Stéphane Chouabe, Benjamin Coiffard, Hervé Dutau, Jean Hagenburg, Amandine Briault, Valérian Dormoy, Marion Lirsac, Jean-Michel Vergnon, Gaetan Deslee, and Jeanne-Marie Perotin

Subjects

Tracheobronchopathia osteochondroplastica, Bronchoscopy, Tracheal stenosis, Case report, Diseases of the respiratory system, RC705-779

Abstract

Abstract Background Tracheobronchopathia osteochondroplastica (TO) is a rare condition of unknown etiology. TO is characterized by submucosal nodules, with or without calcifications, protruding in the anterolateral walls of the trachea and proximal bronchi. The objective of this study was to describe TO features and associated comorbidities in a series of patients. Methods Patients suffering from TO were retrospectively included by investigators from the Groupe d’Endoscopie Thoracique et Interventionnelle Francophone (GETIF). Demographic, clinical, comorbidities, bronchoscopic, functional, and radiological characteristics, and outcomes were recorded and analyzed. Results Thirty-six patients were included (69% male with a mean of 65 ± 12 years). Chronic symptoms were described by 81% of patients including cough (74%) and dyspnea on exertion (74%). TO was associated with COPD in 19% of the cases and gastroesophageal reflux disease in 6%. A mild to severe airflow obstruction was present in 55% of the cases. CT scan showed tracheal submucosal nodules in 93% of patients and tracheal stenosis in 17%. Bronchoscopy identified TO lesions in the trachea in 65% of the cases, and 66% of them were scattered. A bronchoscopic reevaluation was performed in 7 cases, 9 ± 14 months [1–56] after initial diagnosis, and showed the stability of lesions in all cases. Three patients underwent interventional bronchoscopic treatment. Conclusion The diagnosis of TO relies on typical bronchoscopic findings and can be evoked on a CT scan. Histologic diagnosis can be useful in atypical cases for differential diagnosis. Given its low consequences in terms of symptoms, lung functions, and evolution, no treatment is usually required.

Published

2022

3. Life threatening abscess in the visceral space with penicillin and metronidazole resistant Prevotella Denticola following use of a laryngeal mask airway: case report

Author

Hervé Vanden Eede, Elizabeth Norris, Michaël Torfs, and Olivier Vanderveken

Subjects

Laryngeal mask airway, Abscess, Visceral space, Prevotella denticola, Case report, Anesthesiology, RD78.3-87.3

Abstract

Abstract Background Laryngeal mask airways (LMA) are commonly used for airway management. Complications with this device are rare. However, when they do occur, there is a high risk for respiratory problems, necessitating early diagnosis and treatment. We present the first case of a life-threatening abscess spreading in the visceral space caused by a penicillin and metronidazole resistant Prevotella Denticola after the use of an LMA. Case presentation A female patient was admitted to our day care centre for bunion surgery. A single use LMA size 3 (Solus®, intersurgical, Wokingham, Berkshire, United Kingdom) was successfully inserted. After surgery, the patient complained of a sore throat and amoxicillin was prescribed by the general practitioner. Three days after surgery the patient was admitted to the Intensive Care Unit (ICU) for obstructive breathing, due to an abscess in the visceral space. Retropharyngeal and certainly parapharyngeal abscesses in adults are already rare. This case however, is unique because it is the first case of abscess spreading into the visceral space after the use of an LMA. Amoxicillin/clavulanate and vancomycin were started. The abscess was incised 5 days later and microbiology showed 3 positive cultures of the anaerobe Prevotella denticola, resistant for penicillin and metronidazole, but sensitive for amoxicillin/clavulanate. The patient fully recovered. Conclusion LMA’s are easy to use and are established, safe tools to support ventilation of the airway. In this case, the authors hypothesise a small wound in the lateral pharyngeal wall probably created an opening into the visceral space causing infection with Prevotella denticola, supporting the idea that the pharyngeal mucosal space must be part of the visceral space. Additionally, early recognition and treatment of an LMA induced abscess is necessary to prevent evolution of complications leading to airway obstruction.

Published

2021

4. Engineering crops of the future: CRISPR approaches to develop climate-resilient and disease-resistant plants

Author

Syed Shan-e-Ali Zaidi, Ahmed Mahas, Hervé Vanderschuren, and Magdy M. Mahfouz

Subjects

Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Abstract To meet increasing global food demand, breeders and scientists aim to improve the yield and quality of major food crops. Plant diseases threaten food security and are expected to increase because of climate change. CRISPR genome-editing technology opens new opportunities to engineer disease resistance traits. With precise genome engineering and transgene-free applications, CRISPR is expected to resolve the major challenges to crop improvement. Here, we discuss the latest developments in CRISPR technologies for engineering resistance to viruses, bacteria, fungi, and pests. We conclude by highlighting current concerns and gaps in technology, as well as outstanding questions for future research.

Published

2020

5. Can-Seq: a PCR and DNA sequencing strategy for identifying new alleles of known and candidate genes

Author

Jiangling Cao, Nial R. Gursanscky, Stephen J. Fletcher, Anne Sawyer, Mehershad Wadia, Lachlan McKeough, Marek Coleman, Uwe Dressel, Christelle Taochy, Neena Mitter, Hervé Vaucheret, and Bernard J. Carroll

Subjects

Forward genetics, Candidate gene-Sequencing (Can-Seq), Post-transcriptional gene silencing (PTGS), Root-to-shoot transmission of PTGS (RTP), Map-based gene cloning, RNA interference (RNAi), Plant culture, SB1-1110, Biology (General), QH301-705.5

Abstract

Abstract Background Forward genetic screens are a powerful approach for identifying the genes contributing to a trait of interest. However, mutants arising in genes already known can obscure the identification of new genes contributing to the trait. Here, we describe a strategy called Candidate gene-Sequencing (Can-Seq) for rapidly identifying and filtering out mutants carrying new alleles of known and candidate genes. Results We carried out a forward genetic screen and identified 40 independent Arabidopsis mutants with defects in systemic spreading of RNA interference (RNAi), or more specifically in root-to-shoot transmission of post-transcriptional gene silencing (rtp). To classify the mutants as either representing a new allele of a known or candidate gene versus carrying a mutation in an undiscovered gene, bulk genomic DNA from up to 23 independent mutants was used as template to amplify a collection of 47 known or candidate genes. These amplified sequences were combined into Can-Seq libraries and deep sequenced. Subsequently, mutations in the known and candidate genes were identified using a custom Snakemake script ( https://github.com/Carroll-Lab/can_seq ), and PCR zygosity tests were then designed and used to identify the individual mutants carrying each mutation. Using this approach, we showed that 28 of the 40 rtp mutants carried homozygous nonsense, missense or splice site mutations in one or more of the 47 known or candidate genes. We conducted complementation tests to demonstrate that several of the candidate mutations were responsible for the rtp defect. Importantly, by exclusion, the Can-Seq pipeline also identified rtp mutants that did not carry a causative mutation in any of the 47 known and candidate genes, and these mutants represent an undiscovered gene(s) required for systemic RNAi. Conclusions Can-Seq offers an accurate, cost-effective method for classifying new mutants into known versus unknown genes. It has several advantages over existing genetic and DNA sequencing approaches that are currently being used in forward genetic screens for gene discovery. Using Can-Seq in conjunction with map-based gene cloning is a cost-effective approach towards identifying the full complement of genes contributing to a trait of interest.

Published

2020

6. Haplotype-resolved genomes of geminivirus-resistant and geminivirus-susceptible African cassava cultivars

Author

Joel-E. Kuon, Weihong Qi, Pascal Schläpfer, Matthias Hirsch-Hoffmann, Philipp Rogalla von Bieberstein, Andrea Patrignani, Lucy Poveda, Stefan Grob, Miyako Keller, Rie Shimizu-Inatsugi, Ueli Grossniklaus, Hervé Vanderschuren, and Wilhelm Gruissem

Subjects

Cassava genomes, Cassava mosaic disease, Haplotigs, Optical mapping, Chromosome proximity ligation, Transposable elements, Biology (General), QH301-705.5

Abstract

Abstract Background Cassava is an important food crop in tropical and sub-tropical regions worldwide. In Africa, cassava production is widely affected by cassava mosaic disease (CMD), which is caused by the African cassava mosaic geminivirus that is transmitted by whiteflies. Cassava breeders often use a single locus, CMD2, for introducing CMD resistance into susceptible cultivars. The CMD2 locus has been genetically mapped to a 10-Mbp region, but its organization and genes as well as their functions are unknown. Results We report haplotype-resolved de novo assemblies and annotations of the genomes for the African cassava cultivar TME (tropical Manihot esculenta), which is the origin of CMD2, and the CMD-susceptible cultivar 60444. The assemblies provide phased haplotype information for over 80% of the genomes. Haplotype comparison identified novel features previously hidden in collapsed and fragmented cassava genomes, including thousands of allelic variants, inter-haplotype diversity in coding regions, and patterns of diversification through allele-specific expression. Reconstruction of the CMD2 locus revealed a highly complex region with nearly identical gene sets but limited microsynteny between the two cultivars. Conclusions The genome maps of the CMD2 locus in both 60444 and TME3, together with the newly annotated genes, will help the identification of the causal genetic basis of CMD2 resistance to geminiviruses. Our de novo cassava genome assemblies will also facilitate genetic mapping approaches to narrow the large CMD2 region to a few candidate genes for better informed strategies to develop robust geminivirus resistance in susceptible cassava cultivars.

Published

2019

7. Linking CRISPR-Cas9 interference in cassava to the evolution of editing-resistant geminiviruses

Author

Devang Mehta, Alessandra Stürchler, Ravi B. Anjanappa, Syed Shan-e-Ali Zaidi, Matthias Hirsch-Hoffmann, Wilhelm Gruissem, and Hervé Vanderschuren

Subjects

Geminivirus, CRISPR-Cas9, Plant immunity, Genetic engineering, Cassava, ACMV, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Abstract Background Geminiviruses cause damaging diseases in several important crop species. However, limited progress has been made in developing crop varieties resistant to these highly diverse DNA viruses. Recently, the bacterial CRISPR/Cas9 system has been transferred to plants to target and confer immunity to geminiviruses. In this study, we use CRISPR-Cas9 interference in the staple food crop cassava with the aim of engineering resistance to African cassava mosaic virus, a member of a widespread and important family (Geminiviridae) of plant-pathogenic DNA viruses. Results Our results show that the CRISPR system fails to confer effective resistance to the virus during glasshouse inoculations. Further, we find that between 33 and 48% of edited virus genomes evolve a conserved single-nucleotide mutation that confers resistance to CRISPR-Cas9 cleavage. We also find that in the model plant Nicotiana benthamiana the replication of the novel, mutant virus is dependent on the presence of the wild-type virus. Conclusions Our study highlights the risks associated with CRISPR-Cas9 virus immunity in eukaryotes given that the mutagenic nature of the system generates viral escapes in a short time period. Our in-depth analysis of virus populations also represents a template for future studies analyzing virus escape from anti-viral CRISPR transgenics. This is especially important for informing regulation of such actively mutagenic applications of CRISPR-Cas9 technology in agriculture.

Published

2019

8. A phylogenetic framework of the legume genus Aeschynomene for comparative genetic analysis of the Nod-dependent and Nod-independent symbioses

Author

Laurent Brottier, Clémence Chaintreuil, Paul Simion, Céline Scornavacca, Ronan Rivallan, Pierre Mournet, Lionel Moulin, Gwilym P. Lewis, Joël Fardoux, Spencer C. Brown, Mario Gomez-Pacheco, Mickaël Bourges, Catherine Hervouet, Mathieu Gueye, Robin Duponnois, Heriniaina Ramanankierana, Herizo Randriambanona, Hervé Vandrot, Maria Zabaleta, Maitrayee DasGupta, Angélique D’Hont, Eric Giraud, and Jean-François Arrighi

Subjects

Aeschynomene, Genetics, Legumes, Nodulation, Phylogenetics, Polyploidy, Botany, QK1-989

Abstract

Abstract Background Among semi-aquatic species of the legume genus Aeschynomene, some have the property of being nodulated by photosynthetic Bradyrhizobium lacking the nodABC genes necessary for the synthesis of Nod factors. Knowledge of the specificities underlying this Nod-independent symbiosis has been gained from the model legume Aeschynomene evenia but our understanding remains limited due to the lack of comparative genetics with related taxa using a Nod factor-dependent process. To fill this gap, we combined different approaches to perform a thorough comparative analysis in the genus Aeschynomene. Results This study significantly broadened previous taxon sampling, including in allied genera, in order to construct a comprehensive phylogeny. In the phylogenetic tree, five main lineages were delineated, including a novel lineage, the Nod-independent clade and another one containing a polytomy that comprised several Aeschynomene groups and all the allied genera. This phylogeny was matched with data on chromosome number, genome size and low-copy nuclear gene sequences to reveal the diploid species and a polytomy containing mostly polyploid taxa. For these taxa, a single allopolyploid origin was inferred and the putative parental lineages were identified. Finally, nodulation tests with different Bradyrhizobium strains revealed new nodulation behaviours and the diploid species outside of the Nod-independent clade were compared for their experimental tractability and genetic diversity. Conclusions The extended knowledge of the genetics and biology of the different lineages sheds new light of the evolutionary history of the genus Aeschynomene and they provide a solid framework to exploit efficiently the diversity encountered in Aeschynomene legumes. Notably, our backbone tree contains all the species that are diploid and it clarifies the genetic relationships between the Nod-independent clade and the Nod-dependent lineages. This study enabled the identification of A. americana and A. patula as the most suitable species to undertake a comparative genetic study of the Nod-independent and Nod-dependent symbioses.

Published

2018

9. Cassava geminivirus agroclones for virus-induced gene silencing in cassava leaves and roots

Author

Ezequiel Matias Lentz, Joel-Elias Kuon, Adrian Alder, Nathalie Mangel, Ima M. Zainuddin, Emily Jane McCallum, Ravi Bodampalli Anjanappa, Wilhelm Gruissem, and Hervé Vanderschuren

Subjects

Cassava, VIGS, ACMV, Geminivirus, Agrobacterium tumefaciens, Gene silencing, Plant culture, SB1-1110, Biology (General), QH301-705.5

Abstract

Abstract Aim We report the construction of a Virus-Induced Gene Silencing (VIGS) vector and an agroinoculation protocol for gene silencing in cassava (Manihot esculenta Crantz) leaves and roots. The African cassava mosaic virus isolate from Nigeria (ACMV-[NOg]), which was initially cloned in a binary vector for agroinoculation assays, was modified for application as VIGS vector. The functionality of the VIGS vector was validated in Nicotiana benthamiana and subsequently applied in wild-type and transgenic cassava plants expressing the uidA gene under the control of the CaMV 35S promoter in order to facilitate the visualization of gene silencing in root tissues. VIGS vectors were targeted to the Mg2+-chelatase gene in wild type plants and both the coding and promoter sequences of the 35S::uidA transgene in transgenic plants to induce silencing. We established an efficient agro-inoculation method with the hyper-virulent Agrobacterium tumefaciens strain AGL1, which allows high virus infection rates. The method can be used as a low-cost and rapid high-throughput evaluation of gene function in cassava leaves, fibrous roots and storage roots. Background VIGS is a powerful tool to trigger transient sequence-specific gene silencing in planta. Gene silencing in different organs of cassava plants, including leaves, fibrous and storage roots, is useful for the analysis of gene function. Results We developed an African cassava mosaic virus—based VIGS vector as well as a rapid and efficient agro-inoculation protocol to inoculate cassava plants. The VIGS vector was validated by targeting endogenous genes from Nicotiana benthamiana and cassava as well as the uidA marker gene in transgenic cassava for visualization of gene silencing in cassava leaves and roots. Conclusions The African cassava mosaic virus—based VIGS vector allows efficient and cost-effective inoculation of cassava for high-throughput analysis of gene function in cassava leaves and roots.

Published

2018

10. Naturally occurring variations in the nod-independent model legume Aeschynomene evenia and relatives: a resource for nodulation genetics

Author

Clémence Chaintreuil, Xavier Perrier, Guillaume Martin, Joël Fardoux, Gwilym P. Lewis, Laurent Brottier, Ronan Rivallan, Mario Gomez-Pacheco, Mickaël Bourges, Léo Lamy, Béatrice Thibaud, Heriniaina Ramanankierana, Herizo Randriambanona, Hervé Vandrot, Pierre Mournet, Eric Giraud, and Jean-François Arrighi

Subjects

Aeschynomene, Diversity, Genotype, Legume, Nodulation, Ploidy, Botany, QK1-989

Abstract

Abstract Background Among semi-aquatic species of the legume genus Aeschynomene, some have the unique property of being root and stem-nodulated by photosynthetic Bradyrhizobium lacking the nodABC genes necessary for the production of Nod factors. These species provide an excellent biological system with which to explore the evolution of nodulation in legumes. Among them, Aeschynomene evenia has emerged as a model legume to undertake the genetic dissection of the so-called Nod-independent symbiosis. In addition to the genetic analysis of nodulation on a reference line, natural variation in a germplasm collection could also be surveyed to uncover genetic determinants of nodulation. To this aim, we investigated the patterns of genetic diversity in a collection of 226 Nod-independent Aeschynomene accessions. Results A combination of phylogenetic analyses, comprising ITS and low-copy nuclear genes, along with cytogenetic experiments and artificial hybridizations revealed the richness of the Nod-independent Aeschynomene group with the identification of 13 diploid and 6 polyploid well-differentiated taxa. A set of 54 SSRs was used to further delineate taxon boundaries and to identify different genotypes. Patterns of microsatellite diversity also illuminated the genetic basis of the Aeschynomene taxa that were all found to be predominantly autogamous and with a predicted simple disomic inheritance, two attributes favorable for genetics. In addition, taxa displaying a pronounced genetic diversity, notably A. evenia, A. indica and A. sensitiva, were characterized by a clear geographically-based genetic structure and variations in root and stem nodulation. Conclusion A well-characterized germplasm collection now exists as a major genetic resource to thoroughly explore the natural variation of nodulation in response to different bradyrhizobial strains. Symbiotic polymorphisms are expected to be found notably in the induction of nodulation, in nitrogen fixation and also in stem nodulation. Subsequent genetic analysis and locus mapping will pave the way for the identification of the underlying genes through forward or reverse genetics. Such discoveries will significantly contribute to our understanding of the molecular mechanisms underpinning how some Aeschynomene species can be efficiently nodulated in a Nod-independent fashion.

Published

2018

11. Nuclear protein in testis carcinoma of the mediastinum: a case report

Author

Gonçalo Boleto, Jeanne-Marie Perotin, Claire Launois, Emmanuelle Uro-Coste, Philippe Birembaut, Sandra Dury, Hervé Vallerand, François Lebargy, Gaëtan Deslée, and Juliette Vella-Boucaud

Subjects

NUT carcinoma, Superior vena cava syndrome, Mediastinal neoplasms, Medicine

Abstract

Abstract Background Nuclear protein in testis carcinoma is a rare and very aggressive undifferentiated cancer which characteristically arises in the midline of the head, neck, and mediastinum. Case presentation We describe the case of a 46-year-old white woman admitted for superior vena cava syndrome revealing a mediastinal tumor. Pathological examination of specimens obtained by mediastinoscopy revealed an undifferentiated tumor with solid growth and positive immunoreactivity for p40 and negative immunoreactivity for cytokeratin markers. Immunohistochemical staining was positive for nuclear protein in testis, allowing the diagnosis of nuclear protein in testis midline carcinoma of the mediastinum. Conclusions We present a rare case of mediastinal nuclear protein in testis carcinoma with diagnosis based on nuclear protein in testis protein positivity and atypical immunohistochemical features including p40 positivity and anti-cytokeratin negativity. Physicians must remain aware of the possibility of nuclear protein in testis carcinoma especially in young patients with thoracic symptoms and suspicion of neoplasm.

Published

2017

12. Correction to: COVID-19-associated acute cerebral venous thrombosis: clinical, CT, MRI and EEG features

Author

Fabian Roy-Gash, Marine De Mesmay, Jean-Michel Devys, Hervé Vespignani, Raphaël Blanc, and Nicolas Engrand

Subjects

Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Abstract

An amendment to this paper has been published and can be accessed via the original article.

Published

2020