Your search keyword '"Baudry L"' showing total 21 results

1. Controllable skyrmion chirality in ferroelectrics

Author

Tikhonov, Yu., Kondovych, S., Mangeri, J., Pavlenko, M., Baudry, L., Sené, A., Galda, A., Nakhmanson, S., Heinonen, O., Razumnaya, A., Luk'yanchuk, I., and Vinokur, V. M.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Chirality, an intrinsic handedness, is one of the most intriguing fundamental phenomena in nature. Materials composed of chiral molecules find broad applications in areas ranging from nonlinear optics and spintronics to biology and pharmaceuticals. However, chirality is usually an invariable inherent property of a given material that cannot be easily changed at will. Here, we demonstrate that ferroelectric nanodots support skyrmions the chirality of which can be controlled and switched. We devise protocols for realizing control and efficient manipulations of the different types of skyrmions. Our findings open the route for controlled chirality with potential applications in ferroelectric-based information technologies.

Published

2020

2. Ferroelectric multiple-valued logic units

Author

Lukyanchuk, I., Zaitseva, E., Levashenko, V., Kvassay, M., Kondovych, S., Tikhonov, Yu., Baudry, L., and Razumnaya, A.

Subjects

Physics - Applied Physics

Abstract

Employing many-valued logic (MVL) data processing allows to dramatically increase the performance of computing circuits. Here we propose to employ ferroelectrics for the material implementation of MVL units basing on their ability to pin the polarization as a sequence of multi-stable states. Two conceptual ideas are considered. As the first system, we suggest using the strained ferroelectric films that can host the polarization states, allowing the effective field-induced multilevel switching between them. As the second one, we propose to employ the ferroelectric nano-samples that confine the topologically protected polarization textures, which may be used as MVL structural elements. We demonstrate that these systems are suitable for engineering of the 3-, 4- and even 5-level logic units and consider the circuit design for such elements.

Published

2019

3. Chromosomal resolution reveals symbiotic virus colonization of parasitic wasp genomes

Author

Gauthier, J., Boulain, H., van Vugt, J.F.A., Baudry, L., Persyn, E., Aury, J.M., Noel, B., Bretaudeau, A., Legeai, Fabrice, Warris, S., Amine Chebbi, M., Dubreuil, Géraldine, Duvic, Bernard, Kremer, Natacha, Gayral, P., Musset, K., Thibaut, J., Bigot, D., Bressac, C., Moreau, S., Periquet, G., Harry, M., Montagné, N., Boulogne, I., Sabeti-Azad, M., Maïbèche, M., Chertemps, T., Hilliou, F., Siaussat, D., Amselem, J., Luyten, I., Capdevielle-Dulac, C., Labadie, Karine, Laís Merlin, B., Barbe, Valérie, de Boer, J.G., Marbouty, M., Cônsoli, F.L., Dupas, S., Hua Van, A., Le Goff, G., Bézier, Annie, Jacquin-Joly, E., Whitfield, James B., Vet, L.E.M., Smid, H.M., Kaiser-Arnault, L., Koszul, R., Huguet, Elisabeth, Herniou, Elisabeth A., and Drezen, J.M.

Subjects

BIOS Applied Bioinformatics, fungi, Life Science, Laboratory of Entomology, Laboratorium voor Entomologie

Abstract

Most endogenous viruses, an important proportion of eukaryote genomes, are doomed to slowly decay. Little is known, however, on how they evolve when they confer a benefit to their host. Bracoviruses are essential for the parasitism success of parasitoid wasps, whose genomes they integrated ~103 million years ago. Here we show, from the assembly of a parasitoid wasp genome, for the first time at a chromosomal scale, that symbiotic bracovirus genes spread to and colonized all the chromosomes. Moreover, large viral clusters are stably maintained suggesting strong evolutionary constraints. Genomic comparison with another wasps revealed that this organization was already established ~53 mya. Transcriptomic analyses highlight temporal synchronization of viral gene expression, leading to particle production. Immune genes are not induced, however, indicating the virus is not perceived as foreign by the wasp. This recognition suggests that no conflicts remain between symbiotic partners when benefits to them converge.

Published

2020

4. Controllable skyrmion chirality in ferroelectrics

Author

Tikhonov, Yu., primary, Kondovych, S., additional, Mangeri, J., additional, Pavlenko, M., additional, Baudry, L., additional, Sené, A., additional, Galda, A., additional, Nakhmanson, S., additional, Heinonen, O., additional, Razumnaya, A., additional, Luk’yanchuk, I., additional, and Vinokur, V. M., additional

Published

2020

5. La progression modérée de la durée d’utilisation des équipements se poursuit en 2014 - Résultats de l’enquête menée par la Banque de France

Author

CHOUARD, V., MINIER, A., TARRIEU, S., BAUDRY, L., and SOUAL, A.

Subjects

jel:J23, jel:D21, capacité, demande de travail, industrie, production, productivité du capital, salaires, jel:J21, jel:D24

Abstract

En 2014, la durée d’utilisation des équipements productifs (DUE) dans l’industrie manufacturière, mesurée par l’enquête de la Banque de France, poursuit sa progression amorcée après la crise financière de 2009. La hausse de la DUE serait ainsi de 1,7 % en 2014 (1,4 % en 2013), après la chute historique de – 6,8 % en 2009. Les autres résultats de l’enquête montrent que, pour certaines entreprises, cette hausse de la DUE s’est en partie effectuée avec des modifications des modes d’organisation du travail. Les PMI ont ainsi eu davantage recours au travail en équipes (travail posté) et, dans une moindre mesure, ont étendu la durée moyenne du travail, en particulier dans le secteur de fabrication de matériel de transport et dans le secteur de l’industrie agricole et alimentaire. Dans un contexte conjoncturel toujours incertain après cinq ans de crise, la légère progression de la DUE en 2014 révèle les contraintes d’adaptation des entreprises pour poursuivre leur développement sans avoir à faire face à des coûts supplémentaires. Ainsi, les entreprises déclarant en 2014 ne pas pouvoir adapter la DUE à une intensification de la demande sont aussi nombreuses qu’en 2013, le premier des obstacles invoqués est à nouveau le manque de main-d’oeuvre qualifiée. Cependant, pour 2015, les chefs d’entreprise anticipent de nouveau un rebond de 2,2 % de la DUE. Enfin, les tensions sur l’appareil de production restent contenues en 2014. Les taux d’utilisation des capacités productives ont remonté sans atteindre toutefois leur niveau d’avant-crise.

Published

2015

6. Barriers and facilitators to early initiation of palliative care as perceived by nurses working on pneumology and nephrology, a descriptive qualitative study.

Author

Paque K, Baudry L, Van Fraeyenhove F, and Heyrman B

Abstract

Aims and Objectives: Initiation of palliative care early in the disease trajectory is beneficial for patients with a life-limiting disease. However, palliative care is still introduced rather late or not at all. Therefore, this study aims to explore barriers and facilitators to early initiation of palliative care as perceived by nurses working on pneumology and nephrology., Methods: A descriptive interview-based study was conducted from a critical realist perspective until data sufficiency was reached. Fifteen nurses presented and discussed a patient for whom palliative care was initiated too late. Template analysis was conducted to develop themes and subthemes., Results: Five key themes were extracted: (1) communication, (2) fear, (3) personal beliefs about life and death, (4) ambiguity in terminology and (5) workload and time pressure. Barriers related to poor interdisciplinary communication were therapeutic obstinance, hierarchy, unawareness of the patient's wishes and fear of saying something inappropriate. Other barriers were patients' religious beliefs which often hindered the use of sedatives or morphine and led to discomfort and time restraints. A palliative support team in hospital and advance care planning (ACP) were enablers for early palliative care., Study Limitations: This study started from a negative experience, leading to identification of a lot of barriers and only a few facilitators. The limited sample size and the restriction to two wards within one single hospital limit the diversity of perspectives and the generalisability of the findings., Conclusion: More attention is needed for ACP and interdisciplinary communication. Palliative care, including ACP, and interdisciplinary communication should be included in the basic curricula of all healthcare professional courses. Further research is needed to explore barriers and facilitators to early initiation of palliative care in other healthcare settings and patient populations. This is crucial in order to develop and implement sustainable interventions for specific groups of patients., (© 2024 Nordic College of Caring Science.)

Published

2024

7. Insights into early animal evolution from the genome of the xenacoelomorph worm Xenoturbella bocki .

Author

Schiffer PH, Natsidis P, Leite DJ, Robertson HE, Lapraz F, Marlétaz F, Fromm B, Baudry L, Simpson F, Høye E, Zakrzewski AC, Kapli P, Hoff KJ, Müller S, Marbouty M, Marlow H, Copley RR, Koszul R, Sarkies P, and Telford MJ

Subjects

Animals, Evolution, Molecular, Phylogeny, Synteny, Biological Evolution, Invertebrates genetics, Genome

Abstract

The evolutionary origins of Bilateria remain enigmatic. One of the more enduring proposals highlights similarities between a cnidarian-like planula larva and simple acoel-like flatworms. This idea is based in part on the view of the Xenacoelomorpha as an outgroup to all other bilaterians which are themselves designated the Nephrozoa (protostomes and deuterostomes). Genome data can provide important comparative data and help understand the evolution and biology of enigmatic species better. Here, we assemble and analyze the genome of the simple, marine xenacoelomorph Xenoturbella bocki , a key species for our understanding of early bilaterian evolution. Our highly contiguous genome assembly of X. bocki has a size of ~111 Mbp in 18 chromosome-like scaffolds, with repeat content and intron, exon, and intergenic space comparable to other bilaterian invertebrates. We find X. bocki to have a similar number of genes to other bilaterians and to have retained ancestral metazoan synteny. Key bilaterian signaling pathways are also largely complete and most bilaterian miRNAs are present. Overall, we conclude that X. bocki has a complex genome typical of bilaterians, which does not reflect the apparent simplicity of its body plan that has been so important to proposals that the Xenacoelomorpha are the simple sister group of the rest of the Bilateria., Competing Interests: PS, PN, DL, HR, FL, FM, BF, LB, FS, EH, AZ, PK, KH, SM, MM, HM, RC, RK, PS, MT No competing interests declared, (© 2024, Schiffer et al.)

Published

2024

8. Orchestrating chromosome conformation capture analysis with Bioconductor.

Author

Serizay J, Matthey-Doret C, Bignaud A, Baudry L, and Koszul R

Subjects

Prospective Studies, Genome, Molecular Conformation, Chromatin genetics, Chromosomes genetics

Abstract

Genome-wide chromatin conformation capture assays provide formidable insights into the spatial organization of genomes. However, due to the complexity of the data structure, their integration in multi-omics workflows remains challenging. We present data structures, computational methods and visualization tools available in Bioconductor to investigate Hi-C, micro-C and other 3C-related data, in R. An online book ( https://bioconductor.org/books/OHCA/ ) further provides prospective end users with a number of workflows to process, import, analyze and visualize any type of chromosome conformation capture data., (© 2024. The Author(s).)

Published

2024

9. Chromosomal assembly of the flat oyster ( Ostrea edulis L.) genome as a new genetic resource for aquaculture.

Author

Boutet I, Alves Monteiro HJ, Baudry L, Takeuchi T, Bonnivard E, Billoud B, Farhat S, Gonzales-Araya R, Salaun B, Andersen AC, Toullec JY, Lallier FH, Flot JF, Guiglielmoni N, Guo X, Li C, Allam B, Pales-Espinosa E, Hemmer-Hansen J, Moreau P, Marbouty M, Koszul R, and Tanguy A

Abstract

The European flat oyster ( Ostrea edulis L.) is a native bivalve of the European coasts. Harvest of this species has declined during the last decades because of the appearance of two parasites that have led to the collapse of the stocks and the loss of the natural oyster beds. O. edulis has been the subject of numerous studies in population genetics and on the detection of the parasites Bonamia ostreae and Marteilia refringens. These studies investigated immune responses to these parasites at the molecular and cellular levels. Several genetic improvement programs have been initiated especially for parasite resistance. Within the framework of a European project (PERLE 2) that aims to produce genetic lines of O. edulis with hardiness traits (growth, survival, resistance) for the purpose of repopulating natural oyster beds in Brittany and reviving the culture of this species in the foreshore, obtaining a reference genome becomes essential as done recently in many bivalve species of aquaculture interest. Here, we present a chromosome-level genome assembly and annotation for the European flat oyster, generated by combining PacBio, Illumina, 10X linked, and Hi-C sequencing. The finished assembly is 887.2 Mb with a scaffold-N50 of 97.1 Mb scaffolded on the expected 10 pseudochromosomes. Annotation of the genome revealed the presence of 35,962 protein-coding genes. We analyzed in detail the transposable element (TE) diversity in the flat oyster genome, highlighted some specificities in tRNA and miRNA composition, and provided the first insight into the molecular response of O. edulis to M. refringens . This genome provides a reference for genomic studies on O. edulis to better understand its basic physiology and as a useful resource for genetic breeding in support of aquaculture and natural reef restoration., Competing Interests: The authors declare no conflicts of interest., (© 2022 The Authors. Evolutionary Applications published by John Wiley & Sons Ltd.)

Published

2022

10. Normalization of Chromosome Contact Maps: Matrix Balancing and Visualization.

Author

Matthey-Doret C, Baudry L, Mortaza S, Moreau P, Koszul R, and Cournac A

Subjects

Chromatin genetics, Genome, Genomics, Chromosomes

Abstract

Over the last decade, genomic proximity ligation approaches have reshaped our vision of chromosomes 3D organizations, from bacteria nucleoids to larger eukaryotic genomes. The different protocols (3Cseq, Hi-C, TCC, MicroC [XL], Hi-CO, etc.) rely on common steps (chemical fixation digestion, ligation…) to detect pairs of genomic positions in close proximity. The most common way to represent these data is a matrix, or contact map, which allows visualizing the different chromatin structures (compartments, loops, etc.) that can be associated to other signals such as transcription, protein occupancy, etc. as well as, in some instances, to biological functions.In this chapter we present and discuss the filtering of the events recovered in proximity ligation experiments as well as the application of the balancing normalization procedure on the resulting contact map. We also describe a computational tool for visualizing normalized contact data dubbed Scalogram.The different processes described here are illustrated and supported by the laboratory custom-made scripts pooled into "hicstuff," an open-access python package accessible on github ( https://github.com/koszullab/hicstuff )., (© 2022. Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2022

11. Chromosome-level genome assembly reveals homologous chromosomes and recombination in asexual rotifer Adineta vaga .

Author

Simion P, Narayan J, Houtain A, Derzelle A, Baudry L, Nicolas E, Arora R, Cariou M, Cruaud C, Gaudray FR, Gilbert C, Guiglielmoni N, Hespeels B, Kozlowski DKL, Labadie K, Limasset A, Llirós M, Marbouty M, Terwagne M, Virgo J, Cordaux R, Danchin EGJ, Hallet B, Koszul R, Lenormand T, Flot JF, and Van Doninck K

Abstract

Bdelloid rotifers are notorious as a speciose ancient clade comprising only asexual lineages. Thanks to their ability to repair highly fragmented DNA, most bdelloid species also withstand complete desiccation and ionizing radiation. Producing a well-assembled reference genome is a critical step to developing an understanding of the effects of long-term asexuality and DNA breakage on genome evolution. To this end, we present the first high-quality chromosome-level genome assemblies for the bdelloid Adineta vaga , composed of six pairs of homologous (diploid) chromosomes with a footprint of paleotetraploidy. The observed large-scale losses of heterozygosity are signatures of recombination between homologous chromosomes, either during mitotic DNA double-strand break repair or when resolving programmed DNA breaks during a modified meiosis. Dynamic subtelomeric regions harbor more structural diversity (e.g., chromosome rearrangements, transposable elements, and haplotypic divergence). Our results trigger the reappraisal of potential meiotic processes in bdelloid rotifers and help unravel the factors underlying their long-term asexual evolutionary success.

Published

2021

12. Author Correction: Chromosomal scale assembly of parasitic wasp genome reveals symbiotic virus colonization.

Author

Gauthier J, Boulain H, van Vugt JJFA, Baudry L, Persyn E, Aury JM, Noel B, Bretaudeau A, Legeai F, Warris S, Chebbi MA, Dubreuil G, Duvic B, Kremer N, Gayral P, Musset K, Josse T, Bigot D, Bressac C, Moreau S, Periquet G, Harry M, Montagné N, Boulogne I, Sabeti-Azad M, Maïbèche M, Chertemps T, Hilliou F, Siaussat D, Amselem J, Luyten I, Capdevielle-Dulac C, Labadie K, Merlin BL, Barbe V, de Boer JG, Marbouty M, Cônsoli FL, Dupas S, Hua-Van A, Le Goff G, Bézier A, Jacquin-Joly E, Whitfield JB, Vet LEM, Smid HM, Kaiser L, Koszul R, Huguet E, Herniou EA, and Drezen JM

Published

2021

13. Chromosomal scale assembly of parasitic wasp genome reveals symbiotic virus colonization.

Author

Gauthier J, Boulain H, van Vugt JJFA, Baudry L, Persyn E, Aury JM, Noel B, Bretaudeau A, Legeai F, Warris S, Chebbi MA, Dubreuil G, Duvic B, Kremer N, Gayral P, Musset K, Josse T, Bigot D, Bressac C, Moreau S, Periquet G, Harry M, Montagné N, Boulogne I, Sabeti-Azad M, Maïbèche M, Chertemps T, Hilliou F, Siaussat D, Amselem J, Luyten I, Capdevielle-Dulac C, Labadie K, Merlin BL, Barbe V, de Boer JG, Marbouty M, Cônsoli FL, Dupas S, Hua-Van A, Le Goff G, Bézier A, Jacquin-Joly E, Whitfield JB, Vet LEM, Smid HM, Kaiser L, Koszul R, Huguet E, Herniou EA, and Drezen JM

Subjects

Animals, Base Sequence, Conserved Sequence, Nudiviridae genetics, Receptors, Odorant genetics, Smell, Symbiosis, Synteny, Wasps virology, Biological Evolution, Chromosomes, Insect, Genome, Insect, Polydnaviridae genetics, Wasps genetics

Abstract

Endogenous viruses form an important proportion of eukaryote genomes and a source of novel functions. How large DNA viruses integrated into a genome evolve when they confer a benefit to their host, however, remains unknown. Bracoviruses are essential for the parasitism success of parasitoid wasps, into whose genomes they integrated ~103 million years ago. Here we show, from the assembly of a parasitoid wasp genome at a chromosomal scale, that bracovirus genes colonized all ten chromosomes of Cotesia congregata. Most form clusters of genes involved in particle production or parasitism success. Genomic comparison with another wasp, Microplitis demolitor, revealed that these clusters were already established ~53 mya and thus belong to remarkably stable genomic structures, the architectures of which are evolutionary constrained. Transcriptomic analyses highlight temporal synchronization of viral gene expression without resulting in immune gene induction, suggesting that no conflicts remain between ancient symbiotic partners when benefits to them converge.

Published

2021

14. Computer vision for pattern detection in chromosome contact maps.

Author

Matthey-Doret C, Baudry L, Breuer A, Montagne R, Guiglielmoni N, Scolari V, Jean E, Campeas A, Chanut PH, Oriol E, Méot A, Politis L, Vigouroux A, Moreau P, Koszul R, and Cournac A

Subjects

Algorithms, Chromosomes, Fungal genetics, Chromosomes, Human genetics, Genome, Fungal, Humans, Saccharomyces cerevisiae genetics, Workflow, Chromosomes genetics, Computers, Pattern Recognition, Automated

Abstract

Chromosomes of all species studied so far display a variety of higher-order organisational features, such as self-interacting domains or loops. These structures, which are often associated to biological functions, form distinct, visible patterns on genome-wide contact maps generated by chromosome conformation capture approaches such as Hi-C. Here we present Chromosight, an algorithm inspired from computer vision that can detect patterns in contact maps. Chromosight has greater sensitivity than existing methods on synthetic simulated data, while being faster and applicable to any type of genomes, including bacteria, viruses, yeasts and mammals. Our method does not require any prior training dataset and works well with default parameters on data generated with various protocols.

Published

2020

15. instaGRAAL: chromosome-level quality scaffolding of genomes using a proximity ligation-based scaffolder.

Author

Baudry L, Guiglielmoni N, Marie-Nelly H, Cormier A, Marbouty M, Avia K, Mie YL, Godfroy O, Sterck L, Cock JM, Zimmer C, Coelho SM, and Koszul R

Subjects

Humans, Chromosomes, Genomics methods, Seaweed genetics, Software

Abstract

Hi-C exploits contact frequencies between pairs of loci to bridge and order contigs during genome assembly, resulting in chromosome-level assemblies. Because few robust programs are available for this type of data, we developed instaGRAAL, a complete overhaul of the GRAAL program, which has adapted the latter to allow efficient assembly of large genomes. instaGRAAL features a number of improvements over GRAAL, including a modular correction approach that optionally integrates independent data. We validate the program using data for two brown algae, and human, to generate near-complete assemblies with minimal human intervention.

Published

2020

16. Serpentine: a flexible 2D binning method for differential Hi-C analysis.

Author

Baudry L, Millot GA, Thierry A, Koszul R, and Scolari VF

Subjects

Chromatin, Genomics, Genome, Software

Abstract

Motivation: Hi-C contact maps reflect the relative contact frequencies between pairs of genomic loci, quantified through deep sequencing. Differential analyses of these maps enable downstream biological interpretations. However, the multi-fractal nature of the chromatin polymer inside the cellular envelope results in contact frequency values spanning several orders of magnitude: contacts between loci pairs separated by large genomic distances are much sparser than closer pairs. The same is true for poorly covered regions, such as repeated sequences. Both distant and poorly covered regions translate into low signal-to-noise ratios. There is no clear consensus to address this limitation., Results: We present Serpentine, a fast, flexible procedure operating on raw data, which considers the contacts in each region of a contact map. Binning is performed only when necessary on noisy regions, preserving informative ones. This results in high-quality, low-noise contact maps that can be conveniently visualized for rigorous comparative analyses., Availability and Implementation: Serpentine is available on the PyPI repository and https://github.com/koszullab/serpentine; documentation and tutorials are provided at https://serpentine.readthedocs.io/en/latest/., Supplementary Information: Supplementary data are available at Bioinformatics online., (© The Author(s) 2020. Published by Oxford University Press.)

Published

2020

17. MetaTOR: A Computational Pipeline to Recover High-Quality Metagenomic Bins From Mammalian Gut Proximity-Ligation (meta3C) Libraries.

Author

Baudry L, Foutel-Rodier T, Thierry A, Koszul R, and Marbouty M

Abstract

Characterizing the complete genomic structure of complex microbial communities would represent a key step toward the understanding of their diversity, dynamics, and evolution. Current metagenomics approaches aiming at this goal are typically done by analyzing millions of short DNA sequences directly extracted from the environment. New experimental and computational approaches are constantly sought for to improve the analysis and interpretation of such data. We developed MetaTOR, an open-source computational solution that bins DNA contigs into individual genomes according to their 3D contact frequencies. Those contacts are quantified by chromosome conformation capture experiments (3C, Hi-C), also known as proximity-ligation approaches, applied to metagenomics samples (meta3C). MetaTOR was applied on 20 meta3C libraries of mice gut microbiota. We quantified the program ability to recover high-quality metagenome-assembled genomes (MAGs) from metagenomic assemblies generated directly from the meta3C libraries. Whereas nine high-quality MAGs are identified in the 148-Mb assembly generated using a single meta3C library, MetaTOR identifies 82 high-quality MAGs in the 763-Mb assembly generated from the merged 20 meta3C libraries, corresponding to nearly a third of the total assembly. Compared to the hybrid binning softwares MetaBAT or CONCOCT, MetaTOR recovered three times more high-quality MAGs. These results underline the potential of 3C-/Hi-C-based approaches in metagenomic projects.

Published

2019

18. Correction to: Proximity ligation scaffolding and comparison of two Trichoderma reesei strains genomes.

Author

Jourdier E, Baudry L, Poggi-Parodi D, Vicq Y, Koszul R, Margeot A, Marbouty M, and Bidard F

Abstract

[This corrects the article DOI: 10.1186/s13068-017-0837-6.].

Published

2018

19. Proximity ligation scaffolding and comparison of two Trichoderma reesei strains genomes.

Author

Jourdier E, Baudry L, Poggi-Parodi D, Vicq Y, Koszul R, Margeot A, Marbouty M, and Bidard F

Abstract

Background: The presence of low complexity and repeated regions in genomes often results in difficulties to assemble sequencing data into full chromosomes. However, the availability of full genome scaffolds is essential to several investigations, regarding for instance the evolution of entire clades, the analysis of chromosome rearrangements, and is pivotal to sexual crossing studies. In non-conventional but industrially relevant model organisms, such as the ascomycete Trichoderma reesei , a complete genome assembly is seldom available., Results: The chromosome scaffolds of T. reesei QM6a and Rut-C30 strains have been generated using a contact genomic/proximity ligation genomic approach. The original reference assembly, encompassing dozens of scaffolds, was reorganized into two sets of seven chromosomes. Chromosomal contact data also allowed to characterize 10-40 kb, gene-free, AT-rich (76%) regions corresponding to the T. reesei centromeres. Large chromosomal rearrangements (LCR) in Rut-C30 were then characterized, in agreement with former studies, and the position of LCR breakpoints used to assess the likely chromosome structure of other T. reesei strains [QM9414, CBS999.97 (1-1, re ), and QM9978]. In agreement with published results, we predict that the numerous chromosome rearrangements found in highly mutated industrial strains may limit the efficiency of sexual reproduction for their improvement., Conclusions: The GRAAL program allowed us to generate the karyotype of the Rut-C30 strain, and from there to predict chromosome structure for most T. reesei strains for which sequence is available. This method that exploits proximity ligation sequencing approach is a fast, cheap, and straightforward way to characterize both chromosome structure and centromere sequences and is likely to represent a popular convenient alternative to expensive and work-intensive resequencing projects.

Published

2017

20. Scaffolding bacterial genomes and probing host-virus interactions in gut microbiome by proximity ligation (chromosome capture) assay.

Author

Marbouty M, Baudry L, Cournac A, and Koszul R

Subjects

Animals, Male, Mice, Bacteria genetics, Bacteria metabolism, Bacteria virology, Bacteriophages genetics, Bacteriophages metabolism, Gastrointestinal Microbiome, Genome, Bacterial, Genome, Viral

Abstract

The biochemical activities of microbial communities, or microbiomes, are essential parts of environmental and animal ecosystems. The dynamics, balance, and effects of these communities are strongly influenced by phages present in the population. Being able to characterize bacterium-phage relationships is therefore essential to investigate these ecosystems to the full extent of their complexity. However, this task is currently limited by (i) the ability to characterize complete bacterial and viral genomes from a complex mix of species and (ii) the difficulty to assign phage sequences to their bacterial hosts. We show that both limitations can be circumvented using meta3C, an experimental and computational approach that exploits the physical contacts between DNA molecules to infer their proximity. In a single experiment, dozens of bacterial and phage genomes present in a complex mouse gut microbiota were assembled and scaffolded de novo. The phage genomes were then assigned to their putative bacterial hosts according to the physical contacts between the different DNA molecules, opening new perspectives for a comprehensive picture of the genomic structure of the gut flora. Therefore, this work holds far-reaching implications for human health studies aiming to bridge the virome to the microbiome.

Published

2017

21. Ferroelectric symmetry-protected multibit memory cell.

Author

Baudry L, Lukyanchuk I, and Vinokur VM

Abstract

The tunability of electrical polarization in ferroelectrics is instrumental to their applications in information-storage devices. The existing ferroelectric memory cells are based on the two-level storage capacity with the standard binary logics. However, the latter have reached its fundamental limitations. Here we propose ferroelectric multibit cells (FMBC) utilizing the ability of multiaxial ferroelectric materials to pin the polarization at a sequence of the multistable states. Employing the catastrophe theory principles we show that these states are symmetry-protected against the information loss and thus realize novel topologically-controlled access memory (TAM). Our findings enable developing a platform for the emergent many-valued non-Boolean information technology and target challenges posed by needs of quantum and neuromorphic computing., Competing Interests: The authors declare no competing financial interests.

Published

2017