Your search keyword '"Legeai, F"' showing total 14 results

1. Transcriptomic basis of sex loss in the pea aphid

Author

Huguet, M. D., Robin, S., Hudaverdian, S., Tanguy, S., Leterme-Prunier, N., Cloteau, R., Baulande, S., Legoix-Né, P., Legeai, F., Simon, J.-C., Jaquiéry, J., Tagu, D., and Le Trionnaire, G.

Published

2024

2. Extensive synteny conservation of holocentric chromosomes in Lepidoptera despite high rates of local genome rearrangements

Author

d'Alençon, E., Sezutsu, H., Legeai, F., Permal, E., Bernard-Samain, S., Gimenez, S., Gagneur, C., Cousserans, F., Shimomura, M., Brun-Barale, A., Flutre, T., Couloux, A., East, P., Gordon, K., Mita, K., Quesneville, H., Fournier, P., Feyereisen, R., and Berenbaum, May R.

Published

2010

3. Study of simple sequence repeat (SSR) markers from wheat expressed sequence tags (ESTs)

Author

Nicot, N., Chiquet, V., Gandon, B., Amilhat, L., Legeai, F., Leroy, P., Bernard, M., and Sourdille, P.

Published

2004

4. Annotated expressed sequence tags for studies of the regulation of reproductive modes in aphids

Author

Tagu, D, Prunier-Leterme, N, Legeai, F, Gauthier, J.-P, Duclert, A, Sabater-Muñoz, B, Bonhomme, J, and Simon, J.-C

Published

2004

5. Transcriptomic and proteomic analyses of seasonal photoperiodism in the pea aphid

Author

Gauthier J-P, Haubruge E, De Pauw E, Bonhomme J, Jaubert-Possamai S, Francis F, Le Trionnaire G, Legeai F, Prunier-Leterme N, Simon J-C, Tanguy S, and Tagu D

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Aphid adaptation to harsh winter conditions is illustrated by an alternation of their reproductive mode. Aphids detect photoperiod shortening by sensing the length of the night and switch from viviparous parthenogenesis in spring and summer, to oviparous sexual reproduction in autumn. The photoperiodic signal is transduced from the head to the reproductive tract to change the fate of the future oocytes from mitotic diploid embryogenesis to haploid formation of gametes. This process takes place in three consecutive generations due to viviparous parthenogenesis. To understand the molecular basis of the switch in the reproductive mode, transcriptomic and proteomic approaches were used to detect significantly regulated transcripts and polypeptides in the heads of the pea aphid Acyrthosiphon pisum. Results The transcriptomic profiles of the heads of the first generation were slightly affected by photoperiod shortening. This suggests that trans-generation signalling between the grand-mothers and the viviparous embryos they contain is not essential. By analogy, many of the genes and some of the proteins regulated in the heads of the second generation are implicated in visual functions, photoreception and cuticle structure. The modification of the cuticle could be accompanied by a down-regulation of the N-β-alanyldopamine pathway and desclerotization. In Drosophila, modification of the insulin pathway could cause a decrease of juvenile hormones in short-day reared aphids. Conclusion This work led to the construction of hypotheses for photoperiodic regulation of the switch of the reproductive mode in aphids.

Published

2009

6. Masculinization of the X-chromosome in aphid soma and gonads

Author

Jaquiéry, Julie, Simon, Jean-Christophe, Robin, Stéphanie, Richard, Gautier, Peccoud, Jean, Boulain, Hélène, Legeai, Fabrice, Tanguy, Sylvie, Prunier-Leterme, Nathalie, and Letrionnaire, Gaël

Subjects

Archaeology, CC1-960, Science

Abstract

Males and females share essentially the same genome but differ in their optimal values for many phenotypic traits, which can result in intra-locus conflict between the sexes. Aphids display XX/X0 sex chromosomes and combine unusual X chromosome inheritance with cyclical parthenogenesis. Theoretical and empirical works support the hypothesis that the large excess of male-biased genes observed on the aphid X chromosome compared to autosomes evolved in response to sexual conflicts, by restricting the products of sexually antagonistic alleles to the sex they benefits. However, whether such masculinization of the X affects all tissues (as expected if it evolved in response to sexual conflicts) or is limited to specific tissues remains an open question. Here, we measured gene expression in three different somatic and gonadic tissues of males, sexual females and parthenogenetic females of the pea aphid. We observed a masculinization of the X in each of the studied tissues, with male-biased genes being 2.5 to 3.5 more frequent on the X than expected. We also tested the hypothesis that gene duplication can facilitate the attenuation of conflicts by allowing gene copies to neo- or sub-functionalize and reach sex-specific optima. As predicted, X-linked copies of duplicated genes having their other copies on autosomes were more frequently male-biased (40.5% of the genes) than duplicated autosomal genes (6.6%) or X-linked single-copy genes (32.5%). These results highlight a peculiar pattern of expression of X-linked genes in aphids at the tissue level and provide further support for sex-biased expression as a mechanism to attenuate intra-locus sexual conflicts.

Published

2022

7. Genome scans on experimentally evolved populations reveal candidate regions for adaptation to plant resistance in the potato cyst nematode Globodera pallida.

Author

Eoche‐Bosy, D., Gautier, M., Esquibet, M., Legeai, F., Bretaudeau, A., Bouchez, O., Fournet, S., Grenier, E., and Montarry, J.

Subjects

PLANT resistance to insects, BIOLOGICAL adaptation, GOLDEN nematode, GLOBODERA pallida, METAGENOMICS, VIRULENCE of nematodes, NUCLEOTIDE sequencing, POPULATION genetics

Abstract

Improving resistance durability involves to be able to predict the adaptation speed of pathogen populations. Identifying the genetic bases of pathogen adaptation to plant resistances is a useful step to better understand and anticipate this phenomenon. Globodera pallida is a major pest of potato crop for which a resistance QTL, GpaV vrn, has been identified in Solanum vernei. However, its durability is threatened as G. pallida populations are able to adapt to the resistance in few generations. The aim of this study was to investigate the genomic regions involved in the resistance breakdown by coupling experimental evolution and high-density genome scan. We performed a whole-genome resequencing of pools of individuals (Pool-Seq) belonging to G. pallida lineages derived from two independent populations having experimentally evolved on susceptible and resistant potato cultivars. About 1.6 million SNPs were used to perform the genome scan using a recent model testing for adaptive differentiation and association to population-specific covariables. We identified 275 outliers and 31 of them, which also showed a significant reduction in diversity in adapted lineages, were investigated for their genic environment. Some candidate genomic regions contained genes putatively encoding effectors and were enriched in SPRYSECs, known in cyst nematodes to be involved in pathogenicity and in (a)virulence. Validated candidate SNPs will provide a useful molecular tool to follow frequencies of virulence alleles in natural G. pallida populations and define efficient strategies of use of potato resistances maximizing their durability. [ABSTRACT FROM AUTHOR]

Published

2017

8. Whole-genome re-sequencing of non-model organisms: lessons from unmapped reads.

Author

Gouin, A, Legeai, F, Nouhaud, P, Whibley, A, Simon, J-C, and Lemaitre, C

Subjects

*GENOMICS, *PEA aphid, *MOLECULAR genetics, *HOST plants, *ACYRTHOSIPHON

Abstract

Unmapped reads are often discarded from the analysis of whole-genome re-sequencing, but new biological information and insights can be uncovered through their analysis. In this paper, we investigate unmapped reads from the re-sequencing data of 33 pea aphid genomes from individuals specialized on different host plants. The unmapped reads for each individual were retrieved following mapping to the Acyrthosiphon pisum reference genome and its mitochondrial and symbiont genomes. These sets of unmapped reads were then cross-compared, revealing that a significant number of these unmapped sequences were conserved across individuals. Interestingly, sequences were most commonly shared between individuals adapted to the same host plant, suggesting that these sequences may contribute to the divergence between host plant specialized biotypes. Analysis of the contigs obtained from assembling the unmapped reads pooled by biotype allowed us to recover some divergent genomic regions previously excluded from analysis and to discover putative novel sequences of A. pisum and its symbionts. In conclusion, this study emphasizes the interest of the unmapped component of re-sequencing data sets and the potential loss of important information. We here propose strategies to aid the capture and interpretation of this information. [ABSTRACT FROM AUTHOR]

Published

2015

9. Genome scans reveal candidate regions involved in the adaptation to host plant in the pea aphid complex.

Author

Jaquiéry, J., Stoeckel, S., Nouhaud, P., Mieuzet, L., Mahéo, F., Legeai, F., Bernard, N., Bonvoisin, A., Vitalis, R., and Simon, J-C.

Subjects

PEA aphid, HOST plants, BIOLOGICAL evolution, PLANT adaptation, POPULATION differentiation

Abstract

A major goal in evolutionary biology is to uncover the genetic basis of adaptation. Divergent selection exerted on ecological traits may result in adaptive population differentiation and reproductive isolation and affect differentially the level of genetic divergence along the genome. Genome-wide scan of large sets of individuals from multiple populations is a powerful approach to identify loci or genomic regions under ecologically divergent selection. Here, we focused on the pea aphid, a species complex of divergent host races, to explore the organization of the genomic divergence associated with host plant adaptation and ecological speciation. We analysed 390 microsatellite markers located at variable distances from predicted genes in replicate samples of sympatric populations of the pea aphid collected on alfalfa, red clover and pea, which correspond to three common host-adapted races reported in this species complex. Using a method that accounts for the hierarchical structure of our data set, we found a set of 11 outlier loci that show higher genetic differentiation between host races than expected under the null hypothesis of neutral evolution. Two of the outliers are close to olfactory receptor genes and three other nearby genes encoding salivary proteins. The remaining outliers are located in regions with genes of unknown functions, or which functions are unlikely to be involved in interactions with the host plant. This study reveals genetic signatures of divergent selection across the genome and provides an inventory of candidate genes responsible for plant specialization in the pea aphid, thereby setting the stage for future functional studies. [ABSTRACT FROM AUTHOR]

Published

2012

10. Comparison of Gene Repertoires and Patterns of Evolutionary Rates in Eight Aphid Species That Differ by Reproductive Mode.

Author

Ollivier, M., Gabaldón, T., Poulain, J., Gavory, F., Leterme, N., Gauthier, J.-P., Legeai, F., Tagu, D., Simon, J. C., and Rispe, C.

Subjects

APHIDS, GENETIC mutation, REPRODUCTION, GENE expression, BIOLOGICAL evolution, GENETICS

Abstract

In theory, the loss of sexual reproduction is expected to result in the accumulation of deleterious mutations. In aphids, two main types of life cycle, cyclic and obligate parthenogenesis, represent respectively “sexual” and “asexual” reproductive modes. We used the complete pea aphid genome and previously published expressed sequence tags (ESTs) from two other aphid species. In addition, we obtained 100,000 new ESTs from five more species. The final set comprised four sexual and four asexual aphid species and served to test the influence of the reproductive mode on the evolutionary rates of genes. We reconstructed coding sequences from ESTs and annotated these genes, discovering a novel peptide gene family that appears to be among the most highly expressed transcripts from several aphid species. From 203 genes found to be 1:1 orthologs among the eight species considered, we established a species tree that partly conflicted with taxonomy (for Myzus ascalonicus). We then used this topology to evaluate the dynamics of evolutionary rates and mutation accumulation in the four sexual and four asexual taxa. No significant increase of the nonsynonymous to synonymous ratio or of nonsynonymous mutation numbers was found in any of the four branches for asexual taxa. We however found a significant increase of the synonymous rate in the branch leading to the asexual species Rhopalosiphum maidis, which could be due to a change in the mutation rate or to an increased number of generations implied by its change of life cycle. [ABSTRACT FROM AUTHOR]

Published

2012

11. Extensive synteny conservation of holocentric chromosomes in Lepidoptera despite high rates of local genome rearrangements.

Author

d'AIençona, E., Sezutsu, H., Legeai, F., Permale, E., Bernard-Samain, S., Gimenez, S., Gagneur, C., Cousserans°, F., Shimomura, M., Brun-BaraIe, A., Flutre, T., CouIoux, A., East, P., Gordon, K., Mita, K., Quesneville, H., Fournier, P., and Feyereisen, R.

Subjects

BOMBYCIDAE, SILKWORMS, CHROMOSOMES, GENOMES, NOCTUIDAE, HELICOVERPA armigera, FALL armyworm, BEHAVIOR, PHYSIOLOGY

Abstract

The recent assembly of the silkworm Bombyx mon genome with 432 Mb on 28 holocentric chromosomes has become a reference in the genomic analysis of the very diverse Order of Lepidoptera. We sequenced BAC5 from two major pests, the noctuid moths Helicoverpa armigera and Spodoptera frugiperda. corresponding to 15 regions distributed on 11 B. mon chromosomes, each BAC/region being anchored by known orthologous gene(s) to analyze syntenic relationships and genome rearrangements among the three species. Nearly 300 genes and numerous transposable elements were identified, with long interspersed nuclear elements and terminal inverted repeats the most abundant transposable element classes. There was a high degree of synteny conservation between B. mon and the two noctuid species. Conserved syntenic blocks of identified genes were very small, however, approximately 1.3 genes per block between B. mon and the two noctuid species and 2.0 genes per block between S. frugiperda and H. armigera. This corresponds to approximately two chromosome breaks per Mb DNA per My. This is a much higher evolution rate than among species of the Drosophila genus and may be related to the holocentric nature of the lepidopteran genomes. We report a large cluster of eight members of the aminopeptidase N gene family that we estimate to have been present since the Jurassic. In contrast, several clusters of cytochrome P450 genes showed multiple lineage-specific duplication events, in particular in the lepidopteran CYP9A subfamily. Our study highlights the value of the silkworm genome as a reference in lepidopteran comparative genomics. [ABSTRACT FROM AUTHOR]

Published

2010

12. AphidBase: a centralized bioinformatic resource for annotation of the pea aphid genome.

Author

Legeai, F., Shigenobu, S., Gauthier, J.-P., Colbourne, J., Rispe, C., Collin, O., Richards, S., Wilson, A. C. C., Murphy, T., and Tagu, D.

Subjects

*PEA aphid, *INFORMATION resources, *GENOMES, *SEARCH engines, *GENOMICS

Abstract

AphidBase is a centralized bioinformatic resource that was developed to facilitate community annotation of the pea aphid genome by the International Aphid Genomics Consortium (IAGC). The AphidBase Information System designed to organize and distribute genomic data and annotations for a large international community was constructed using open source software tools from the Generic Model Organism Database (GMOD). The system includes Apollo and GBrowse utilities as well as a wiki, blast search capabilities and a full text search engine. AphidBase strongly supported community cooperation and coordination in the curation of gene models during community annotation of the pea aphid genome. AphidBase can be accessed at . [ABSTRACT FROM AUTHOR]

Published

2010

13. Comparative analysis of the Acyrthosiphon pisum genome and expressed sequence tag-based gene sets from other aphid species.

Author

Ollivier, M., Legeai, F., and Rispe, C.

Subjects

*PEA aphid, *GENOMES, *GENES, *PHYLOGENY, *APHIDS, *MACROSIPHUM

Abstract

To study gene repertoires and their evolution within aphids, we compared the complete genome sequence of Acyrthosiphon pisum (reference gene set) and expressed sequence tag (EST) data from three other species: Myzus persicae, Aphis gossypii and Toxoptera citricida. We assembled ESTs, predicted coding sequences, and identified potential pairs of orthologues (reciprocical best hits) with A. pisum. Pairwise comparisons show that a fraction of the genes evolve fast (high ratio of non-synonymous to synonymous rates), including many genes shared by aphids but with no hit in Uniprot. A detailed phylogenetic study for four fast-evolving genes ( C002, JHAMT, Apo and GH) shows that rate accelerations are often associated with duplication events. We also compare compositional patterns between the two tribes of aphids, Aphidini and Macrosiphini. [ABSTRACT FROM AUTHOR]

Published

2010

14. Transcriptomic and proteomic analyses of seasonal photoperiodism in the pea aphid.

Author

Le Trionnaire, G., Francis, F., Jaubert-Possamai, S., Bonhomme, J., De Pauw, E., Gauthier, J.-P., Haubruge, E., Legeai, F., Prunier-Leterme, N., Simon, J.-C., Tanguy, S., and Tagu, D.

Subjects

APHIDS, PLANT genetics, PHOTOPERIODISM, CHRONOBIOLOGY, CELL cycle

Abstract

Background: Aphid adaptation to harsh winter conditions is illustrated by an alternation of their reproductive mode. Aphids detect photoperiod shortening by sensing the length of the night and switch from viviparous parthenogenesis in spring and summer, to oviparous sexual reproduction in autumn. The photoperiodic signal is transduced from the head to the reproductive tract to change the fate of the future oocytes from mitotic diploid embryogenesis to haploid formation of gametes. This process takes place in three consecutive generations due to viviparous parthenogenesis. To understand the molecular basis of the switch in the reproductive mode, transcriptomic and proteomic approaches were used to detect significantly regulated transcripts and polypeptides in the heads of the pea aphid Acyrthosiphon pisum. Results: The transcriptomic profiles of the heads of the first generation were slightly affected by photoperiod shortening. This suggests that trans-generation signalling between the grand-mothers and the viviparous embryos they contain is not essential. By analogy, many of the genes and some of the proteins regulated in the heads of the second generation are implicated in visual functions, photoreception and cuticle structure. The modification of the cuticle could be accompanied by a down-regulation of the N-β-alanyldopamine pathway and desclerotization. In Drosophila, modification of the insulin pathway could cause a decrease of juvenile hormones in short-day reared aphids. Conclusion: This work led to the construction of hypotheses for photoperiodic regulation of the switch of the reproductive mode in aphids. [ABSTRACT FROM AUTHOR]

Published

2009