Impact des bactéries féminisantes du genre Wolbachia sur l'évolution des chromosomes sexuels d'isopodes terrestres / Impact of a feminizing endosymbiotic bacteria (genus Wolbachia) on the evolution of terrestrial isopods sex chromosomes

Becking, Thomas

11 December 2017

Les Oniscidea présentent une diversité remarquable de systèmes chromosomiques de déterminisme du sexe (hétérogamétie mâle XX/XY ou hétérogamétie femelle ZW/ZZ), dont l'origine reste encore largement inconnue à ce jour. Il a été proposé que ces différents systèmes puissent être le produit de la coévolution entre les isopodes terrestres et Wolbachia, une bactérie endosymbiotique féminisante transmise verticalement par voie ovocytaire. Dans le but de caractériser l'impact de l'endosymbiose à Wolbachia sur l'évolution des mécanismes de déterminisme du sexe, nous avons utilisé une combinaison d'approches génomique, transcriptomique et d'expression de gènes. Tout d'abord, le génome de l'espèce Armadillidium nasatum (caractérisée par un système XX/XY) a été généré et ensuite annoté structurellement et fonctionnellement. A partir de ce génome, des approches de génomique comparatives ont permis la caractérisation de séquences liées au chromosomes Y, afin de mieux comprendre les processus impliqués dans la dégénérescence des gonosomes. Afin d'identifier des effecteurs liés au déterminisme ou à la différenciation du sexe, une approche par gènes candidats a permis de caractériser des gènes à domaines DM, connus pour être impliqués dans le déterminisme du sexe de nombreuses espèces, et d'en mesurer l'expression au cours du temps. Enfin, une phylogénie des Oniscidea a été réalisée en parallèle d'expériences de réversion de sexe afin d'estimer le nombre et la direction des transitions de systèmes d'hétérogamétie au cours de l'évolution des isopodes terrestres. Ces travaux contribuent à illustrer l'impact de l'endosymbiose sur l'évolution des mécanismes de déterminisme du sexe de l'hôte. / Oniscidea show a remarkable diversity of chromosomal sex determination systems (male heterogamety XX/XY or female heterogamety ZW / ZZ). However, the origin of such diversity is still largely unknown to date. It has been proposed that these different systems may be the product of the coevolution between terrestrial isopods and Wolbachia, a feminizing endosymbiotic bacteria transmitted vertically through oocytes. In order to characterize the impact of Wolbachia endosymbiosis on the evolution of sex determination mechanisms, we used a combination of genomic, transcriptomic and gene expression approaches. First, the genome of the species Armadillidium nasatum (characterized by an XX/XY system) was generated and then structurally and functionally annotated. From this genome, a comparative genomic approach allowed us to characterize sequences Y-linked, in order to better understand the processes involved in the sex chromosome degeneration. In order to identify effectors potentially related to sex determination or differentiation, a candidate gene approach has been used to characterize DM-domain genes, known to be involved in the sex determination pathways of many species, and then to measure their expression over development. Finally, a Oniscidea phylogeny was generated in parallel with sex-reversal experiments in order to characterize the number and the direction of the transitions of heterogenetic systems during the terrestrial isopods evolution. This work emphasize the impact of endosymbiosis on the evolution of host sex determination mechanisms.

Déterminisme du sexe

Hétérogametie

Chromosomes sexuels

Gènes à domaine DM

Wolbachia

Oniscidea

Génomique

Séquençage à haut débit

Sex determination

Heterogamety

Sex chromosomes

DM domain genes

Wolbachia

Oniscidea

Genomics

High-Throughput sequencing

572.8

Cryptic Dioecy in <em>Consolea</em> (Cactaceae): Sex Determination & Evolutionary Implications

Strittmatter, Lara I.

15 August 2006

No description available.

<em>Consolea</em>

Breeding System

Cactaceae

Cryptic Dioecy

Male sterility

Female sterility

Anther development

Ovule development

PCD

Heterochrony

Embryology

Unisexual flowers development

Sex determination

Dioecy evolution

Leaky males

Sex determination and interspecies hybridization in zebrafish <i>Danio rerio</i> and pearl danio <i>D. albolineatus</i>

Delomas, Thomas Allin

17 September 2018

No description available.

Agriculture

Aquaculture

Aquatic Sciences

Biology

Evolution and Development

Livestock

Organismal Biology

Zoology

Fish Production

zebrafish

pearl danio

danio

sex determination

polygenic

aquaculture

larval

rearing

husbandry

triploid

gynogenesis

evolution

fisheries

model organism

interspecies

hybridization

hybrid

asymmetric viability

Darwin

corollary

Development of Novel High-Resolution Melting (HRM) Assays for Gender Identification of Caribbean Flamingo (Phoenicopterus ruber ruber) and other Birds

Chapman, Alexandra

14 March 2013

Unambiguous gender identification (ID) is needed to assess parameters in studies of population dynamics, behavior, and evolutionary biology of Caribbean Flamingo (Phoenicopterus ruber ruber) and other birds. Due to its importance for management and conservation, molecular (DNA-based) avian gender ID assays targeting intron-size differences of the Chromosome Helicase ATPase DNA Binding (CHD) gene of males (CHD-Z) and females (CHD-W) have been developed. Male (ZZ) and female (WZ) genotypes are usually scored as size polymorphisms through agarose or acrylamide gels. For certain species, W-specific restriction sites or multiplex polymerase chain-reaction (PCR) involving CHD-W specific primers are needed. These approaches involve a minimum of three steps following DNA isolation: PCR, gel electrophoresis, and photo-documentation, which limit high throughput scoring and automation potential. In here, a short amplicon (SA) High-resolution Melting Analysis (HRMA) assay for avian gender ID is developed. SA-HRMA of an 81-Base Pair (bp) segment differentiates heteroduplex female (WZ) from homoduplex male (ZZ) genotypes by targeting Single-nucleotide Polymorphisms (SNPs) instead of intron-size differences between CHD-Z and CHD-W genes. To demonstrate the utility of the approach, the gender of Caribbean Flamingo (P. ruber ruber) (17 captive from the Dallas Zoo and 359 wild from Ria Lagartos, Yucatan, Mexico) was determined. The assay was also tested on specimens of Lesser Flamingo (P. minor), Chilean Flamingo (P. chilensis), Saddle-billed Stork (Ephippiorhynchus senegalensis), Scarlet Ibis (Eudocimus ruber), White-bellied Stork (Ciconia abdimii), Roseate Spoonbill (Platalea ajaja), Marabou Stork (Leptoptilos crumeniferus), Greater Roadrunner (Geococcyx californianus), and Attwater's Prairie Chicken (Tympanuchus cupido attwateri). Although the orthologous 81 bp segments of Z and W are highly conserved, sequence alignments with 50 avian species across 15 families revealed mismatches affecting one or more nucleotides within the SA-HRMA forward or reverse primers. Most mismatches were located along the CHD-Z gene that may generate heteroduplex curves and thus gender ID errors. For such cases, taxon and species-specific primer sets were designed. The SA-HRMA gender ID assay can be used in studies of avian ecology and behavior, to assess sex-associated demographics and migratory patterns, and as a proxy to determine the health of the flock and the degree by which conservation and captive breeding programs are functioning.

endangered birds

gender of sexually monomorphic birds

sexually monomorphic birds

fledglings

nestlings

DNA test to sex birds

Attwater's Prairie Chicken

Accipiter species

Ría Lagartos Biosphere Reserve

Lesser Flamingo

Flamingo

Chilean Flamingo

Phoenicopterus ruber ruber

Phoenicopterus

Caribbean Flamingo

High-resolution Melting Analysis

CHD1-W

CHD1-Z

polymorphism

W chromosome

Z chromosome

CHD1 gene

CHD gene

gender of birds

sex determination of birds

gender determination of birds

multiple avian species

non-invasive

conservation of birds

sex-ratio of birds

sex determination

molecular avian gender

molecular gender determination

Universal sexing of non-ratite birds

Predicting leatherback sea turtle sex ratios using spatial interpolation of nesting beach temperatures

Unknown Date

Sex determination in leatherback sea turtles is directed primarily by the temperatures a clutch experiences during the middle third of development. Warmer temperatures tend to produce females will cooler temperatures yield males. Nest temperatures can vary spatially and temporally. During the 2010 and 2011 nesting seasons, this study estimated the hatchling sex ratio of leatherback sea turtles on Sandy Point National Wildlife Refuge (SPNWR), St. Croix, U.S. Virgin Islands. I measured sand temperatures from May- August and across the spatial range of leatherback nesting habitat. I spatially interpolated those temperatures to create maps that predicted temperatures for all nests incubating on SPWNR. Nest temperatures were also directly measured and compared with predicted nest temperatures to validate the prediction model. Sexes of dead-in-nest hatchlings and full term embryos were used to confirm the sex-temperature response. The model showed that microclimatic variation likely impacts the production of both sexes on SPNWR. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2013.

Sex determination, Genetic

Sex ratios

Vegetation dynamics

Distúrbio do desenvolvimento sexual 46,XX testicular SRY negativo sindrômico devido à mutação missense no gene RSPO1: estudo clínico, molecular e histológico de grande família consanguínea brasileira / SRY-negative syndromic 46,XX testicular disorder of sex development due to missense homozygous RSPO1 mutation: clinical, molecular and histological study of a large consanguineous Brazilian family

Silva, Rosana Barbosa

22 October 2015

Nos mamíferos, a determinação sexual é governada pelo equilíbrio entre duas vias de sinalização paralelas e antagônicas: a via masculina SOX9/FGF9 e a via feminina RSPO1/beta-catenina/WNT4. A R-spondina 1 é uma importante reguladora do processo de diferenciação ovariana e atua modulando a via de sinalização Wnt canônica (Wnt/beta-catenina). Em humanos, mutações em RSPO1 causam uma rara síndrome genética autossômica recessiva caracterizada por Distúrbios do Desenvolvimento Sexual (DDS) 46,XX Testicular ou Ovotesticular, hiperceratose palmoplantar (HPP) e predisposição para o desenvolvimento de carcinoma de células escamosas (MIM 610644). Identificamos um paciente brasileiro, proveniente de uma grande família consanguínea, que apresentava a associação de HPP e DDS 46,XX Testicular SRY negativo. A avaliação da região codificadora do gene RSPO1 identificou a nova variante alélica c.305G>A (p.Cys102Tyr). O estudo de segregação realizado em 67 familiares demonstrou que a variante c.305G>A segrega em perfeita concordância com o fenótipo de HPP, exibindo um padrão de herança autossômico recessivo. Na família foram identificados 10 indivíduos afetados pelo fenótipo de HPP. As avaliações clínica e hormonal e os estudos molecular e citogenético nesses indivíduos resultou na caracterização de: (a) quatro indivíduos do sexo masculino 46,XX e/ou SRY negativo, com ambiguidade genital e perfil hormonal alterado; (b) cinco indivíduos do sexo masculino 46,XY e/ou SRY positivo, sem ambiguidade genital, com perfil hormonal normal e (c) uma mulher 46,XX, fértil. Experimentos de transfecção transitória in vitro demostraram que a proteína mutante tem menor capacidade de transativação do plasmídio reporter da via Wnt. As simulações de dinâmica molecular constataram que a troca p.Cys102Tyr aumenta a flexibilidade do backbone da R-spondina-1, diminuindo a energia de ligação da proteína ao complexo de receptores, LGR5 e RNF43. Em conjunto, nossos achados demonstram que a variante c.305G > A é patogênica, sendo responsável pela síndrome genética diagnosticada na família brasileira. As análises de expressão gênica e os estudos de imuno-histoquímica, por sua vez, detectaram um aumento da expressão do gene SOX9 e maior imonorreatividade para a proteína Sox9 no tecido testicular do caso índice. Esses resultados sugerem que o processo de reversão sexual nos indivíduos XX ocorra por uma hiperexpressão de SOX9 secundária à menor ativação da via Wnt/beta-catenina na gônada durante a embriogênese. No presente estudo também relatamos o primeiro caso de indivíduo de cariótipo 46,XX portador de mutação em homozigose no gene RSPO1 que não desenvolveu DDS. A variabilidade do fenótipo sexual não está associada com alterações no número de cópias dos genes WNT4 ou do SOX9 e região cis-regulatória. No entanto, a avaliação do exoma da família encontrou uma associação entre o polimorfismo do receptor LGR5 rs17109924 e a atenuação do fenótipo de DDS. Todavia, serão necessários estudos funcionais para esclarecer o impacto biológico da interação das variantes RSPO1 p.Cys102Tyr e LGR5 rs171099 / In mammals, sex determination is governed by the balance between two parallel and antagonic signaling pathways: the male SOX9/FGF9 and the female, RSPO1/beta-catenin/WNT4 pathways. R-spondin 1 regulates the ovarian differentiation process by its modulating action through the canonic Wnt pathway (Wnt/beta-catenin). In humans, patogenic mutations in RSPO1 cause a rare, autosomic recessive syndrome characterized by 46,XX Testicular or Ovotesticular disorders of sexual development (DSD), palmoplantar keratosis (PPK) and predisposition to squamous cell carcinoma (MIM 610644). We identified and studied a SRY-negative 46,XX DSD patient with PPK from a large, consaguineous, brazillian family. Through a \"candidate gene\" approach we identified in the proband a new allelic variant in the coding region of RSPO1, c.305G > A. This variant presented full concordance with the PPK phenotype by segregation analyses in 10 of 67 members of this family. Clinical, hormonal, cytogenetic and molecular genetic studies characterized three patterns in individuals with this variant: (a) four 46,XX and/or SRY-negative males with ambiguous genitalia and altered hormonal profile; (b) five 46,XY and/or SRY-positive males without ambiguous genitalia with normal hormonal profile; (c) one 46,XX fertile woman. In vitro experiments demonstrated that transient transfection of the mutant protein resulted in lower transactivation of the Wnt pathway-reporter plasmid. Moreover, molecular dinamic studies showed that p.Cys102Tyr increased the R-spondin-1 backbone flexibility, thus decreasing the interaction between this protein and its receptors, LGR5 and RNF43. Thus, both in vitro and in silico analysis demonstrate the pathogenicity of the RSPO1 variant c.305G > A. In addition, in the index case, a higher expression of SOX9, corroborated by a reactive immunohistochemistry in testicular tissue, suggested that the process of sexual reversal in the XX individual is driven by a higher SOX9 expression possibly due to a lower Wnt/beta-catenin signaling pathway activation during embriogenesis. In this study, we also reported the first 46,XX individual with RSPO1 mutation without DSD, in which no copy number abnormality was detected in WNT4, SOX9 and its cisregulatory regions. Whole exome sequencing of the affected individuals revealed, in turn, that the LGR5 rs17109924 polymorphism associates with a protacted DSD phenotype in the fertile woman with normal hormonal profile. Despite this evidence, future studies are nedded to address causality and biological impact between RSPO1 p.Cys102Tyr and LGR5 rs17109924 variants

Beta catenin

Beta catenina

Ceratodermia palmar e plantar

Expressão gênica

Fatores de transcrição SOX9

Gene expression

Genética

Genetics

Imunohistoquímica

Keratoderma palmoplantar

Modelos moleculares

Models molecular

Processos de determinação sexual

Sex determination processes

Via de sinalização Wnt

Wnt signaling pathway

Quantitative and molecular genetic studies on temperature-dependent sex determination of Nile tilapia (<i>Oreochromis niloticus</i>) / Quantitativ- und molekulargenetische Studien zur temperaturabhängigen Geschlechtsdetermination von Niltilapien (<i>Oreochromis niloticus</i>)

Lühmann, Liane-Magdalena

02 February 2012

No description available.

630 Landwirtschaft

Veterinärmedizin

YFT000

Agricultural Sciences

Nilbuntbarsch

Tilapien

Temperatur

Geschlechtsdetermination

Zucht

Genetik

Heritabilität

Quantitative Trait Loci

<i>Oreochromis niloticus</i>

Nile tilapia

temperature

sex determination

sex reversal

breeding

genetics

heritability

quantitative trait loci

<i>Oreochromis niloticus</i>

42.64

Distúrbio do desenvolvimento sexual 46,XX testicular SRY negativo sindrômico devido à mutação missense no gene RSPO1: estudo clínico, molecular e histológico de grande família consanguínea brasileira / SRY-negative syndromic 46,XX testicular disorder of sex development due to missense homozygous RSPO1 mutation: clinical, molecular and histological study of a large consanguineous Brazilian family

Rosana Barbosa Silva

22 October 2015

Nos mamíferos, a determinação sexual é governada pelo equilíbrio entre duas vias de sinalização paralelas e antagônicas: a via masculina SOX9/FGF9 e a via feminina RSPO1/beta-catenina/WNT4. A R-spondina 1 é uma importante reguladora do processo de diferenciação ovariana e atua modulando a via de sinalização Wnt canônica (Wnt/beta-catenina). Em humanos, mutações em RSPO1 causam uma rara síndrome genética autossômica recessiva caracterizada por Distúrbios do Desenvolvimento Sexual (DDS) 46,XX Testicular ou Ovotesticular, hiperceratose palmoplantar (HPP) e predisposição para o desenvolvimento de carcinoma de células escamosas (MIM 610644). Identificamos um paciente brasileiro, proveniente de uma grande família consanguínea, que apresentava a associação de HPP e DDS 46,XX Testicular SRY negativo. A avaliação da região codificadora do gene RSPO1 identificou a nova variante alélica c.305G>A (p.Cys102Tyr). O estudo de segregação realizado em 67 familiares demonstrou que a variante c.305G>A segrega em perfeita concordância com o fenótipo de HPP, exibindo um padrão de herança autossômico recessivo. Na família foram identificados 10 indivíduos afetados pelo fenótipo de HPP. As avaliações clínica e hormonal e os estudos molecular e citogenético nesses indivíduos resultou na caracterização de: (a) quatro indivíduos do sexo masculino 46,XX e/ou SRY negativo, com ambiguidade genital e perfil hormonal alterado; (b) cinco indivíduos do sexo masculino 46,XY e/ou SRY positivo, sem ambiguidade genital, com perfil hormonal normal e (c) uma mulher 46,XX, fértil. Experimentos de transfecção transitória in vitro demostraram que a proteína mutante tem menor capacidade de transativação do plasmídio reporter da via Wnt. As simulações de dinâmica molecular constataram que a troca p.Cys102Tyr aumenta a flexibilidade do backbone da R-spondina-1, diminuindo a energia de ligação da proteína ao complexo de receptores, LGR5 e RNF43. Em conjunto, nossos achados demonstram que a variante c.305G > A é patogênica, sendo responsável pela síndrome genética diagnosticada na família brasileira. As análises de expressão gênica e os estudos de imuno-histoquímica, por sua vez, detectaram um aumento da expressão do gene SOX9 e maior imonorreatividade para a proteína Sox9 no tecido testicular do caso índice. Esses resultados sugerem que o processo de reversão sexual nos indivíduos XX ocorra por uma hiperexpressão de SOX9 secundária à menor ativação da via Wnt/beta-catenina na gônada durante a embriogênese. No presente estudo também relatamos o primeiro caso de indivíduo de cariótipo 46,XX portador de mutação em homozigose no gene RSPO1 que não desenvolveu DDS. A variabilidade do fenótipo sexual não está associada com alterações no número de cópias dos genes WNT4 ou do SOX9 e região cis-regulatória. No entanto, a avaliação do exoma da família encontrou uma associação entre o polimorfismo do receptor LGR5 rs17109924 e a atenuação do fenótipo de DDS. Todavia, serão necessários estudos funcionais para esclarecer o impacto biológico da interação das variantes RSPO1 p.Cys102Tyr e LGR5 rs171099 / In mammals, sex determination is governed by the balance between two parallel and antagonic signaling pathways: the male SOX9/FGF9 and the female, RSPO1/beta-catenin/WNT4 pathways. R-spondin 1 regulates the ovarian differentiation process by its modulating action through the canonic Wnt pathway (Wnt/beta-catenin). In humans, patogenic mutations in RSPO1 cause a rare, autosomic recessive syndrome characterized by 46,XX Testicular or Ovotesticular disorders of sexual development (DSD), palmoplantar keratosis (PPK) and predisposition to squamous cell carcinoma (MIM 610644). We identified and studied a SRY-negative 46,XX DSD patient with PPK from a large, consaguineous, brazillian family. Through a \"candidate gene\" approach we identified in the proband a new allelic variant in the coding region of RSPO1, c.305G > A. This variant presented full concordance with the PPK phenotype by segregation analyses in 10 of 67 members of this family. Clinical, hormonal, cytogenetic and molecular genetic studies characterized three patterns in individuals with this variant: (a) four 46,XX and/or SRY-negative males with ambiguous genitalia and altered hormonal profile; (b) five 46,XY and/or SRY-positive males without ambiguous genitalia with normal hormonal profile; (c) one 46,XX fertile woman. In vitro experiments demonstrated that transient transfection of the mutant protein resulted in lower transactivation of the Wnt pathway-reporter plasmid. Moreover, molecular dinamic studies showed that p.Cys102Tyr increased the R-spondin-1 backbone flexibility, thus decreasing the interaction between this protein and its receptors, LGR5 and RNF43. Thus, both in vitro and in silico analysis demonstrate the pathogenicity of the RSPO1 variant c.305G > A. In addition, in the index case, a higher expression of SOX9, corroborated by a reactive immunohistochemistry in testicular tissue, suggested that the process of sexual reversal in the XX individual is driven by a higher SOX9 expression possibly due to a lower Wnt/beta-catenin signaling pathway activation during embriogenesis. In this study, we also reported the first 46,XX individual with RSPO1 mutation without DSD, in which no copy number abnormality was detected in WNT4, SOX9 and its cisregulatory regions. Whole exome sequencing of the affected individuals revealed, in turn, that the LGR5 rs17109924 polymorphism associates with a protacted DSD phenotype in the fertile woman with normal hormonal profile. Despite this evidence, future studies are nedded to address causality and biological impact between RSPO1 p.Cys102Tyr and LGR5 rs17109924 variants

Beta catenina

Ceratodermia palmar e plantar

Expressão gênica

Fatores de transcrição SOX9

Genética

Imunohistoquímica

Modelos moleculares

Processos de determinação sexual

Via de sinalização Wnt

Beta catenin

Gene expression

Genetics

Keratoderma palmoplantar

Models molecular

Sex determination processes

Wnt signaling pathway

Cell-free fetal DNA (cffDNA) enrichment for non-invasive prenatal testing (NIPT) : a comparison of molecular techniques

Sillence, Kelly

January 2016

Prenatal assessment of fetal health is routinely offered throughout pregnancy to ensure that the most effective management can be provided to maintain fetal and maternal well-being. Currently, invasive testing is used for definitive diagnosis of fetal aneuploidy, which is associated with a 1% risk of iatrogenic fetal loss. Developing non-invasive prenatal testing (NIPT) is a key area of research and methods to increase the level of cell-free fetal DNA (cffDNA) within the maternal circulation have been discussed to improve accuracy of such tests. In this study, three strategies; co-amplification at lower denaturation temperature polymerase chain reaction (COLD-PCR), inverse-PCR and Pippin Prep™ gel electrophoresis, were analysed to identify a novel approach to selectively enrich shorter cffDNA fragments from larger maternal cell-free DNA (cfDNA). The sensitivity of droplet digital PCR (ddPCR) against real-time PCR (qPCR) was compared for fetal sex and RHD genotyping. In addition RHD zygosity testing was carried out for non-maternal samples. Consequently, Pippin Prep™ gel electrophoresis was combined with ddPCR analysis for the NIPD of Down Syndrome (DS) in pseudo-maternal samples. The results revealed that the Pippin Prep™ gel electrophoresis enrichment approach successfully demonstrated 2-fold to 5-fold increases in the cffDNA fraction. However, further optimisation assays of COLD-PCR and inverse-PCR using actual maternal samples were required. The spike experiments for DS detection revealed that with the present assay IV overrepresentation of the chromosome 21 target could be significantly detected for samples with ≥15% ‘cffDNA fraction’. In conjunction with the Pippin Prep™ enrichment method, this would have enabled assessment of all 10 maternal samples. Alternatively, fetal sex and RHD genotyping results determined that ddPCR provides a more sensitive platform compared to qPCR approaches, particularly for samples that express low cffDNA fractions (<2%). The ddPCR platform also proved to be a rapid and accurate system for the determination of RHD zygosity. This study highlights that ddPCR could be used as opposed to qPCR for accurate determination of fetal sex and RHD status. While sequencing approaches currently provide the most sensitive platforms for NIPT of fetal aneuploidy, high costs (>£400) prevent universal application. The combination of cffDNA enrichment with ddPCR analysis could provide a cheaper and more widely available platform for NIPD. However, further large scale validation studies using actual maternal samples are required.

618.3

Etude des bases moléculaires du déterminisme sexuel et de la différenciation chez une espèce hétérogamétique femelle ZZ-ZW : Schistosoma mansoni / Molecular basis of sex determination and differentiation of a female heterogametic species ZZ/ZW : Schistosoma mansoni

Picard, Marion

01 December 2015

Parmi plus de 20000 espèces de trématodes hermaphrodites, les Schistosomatidae ont un statut particulier car ils sont gonochoriques (i.e. deux sexes séparés). Le gonochorisme chez ces espèces, et leur dimorphisme sexuel, seraient en fait une stratégie d’adaptation à leur habitat : le système veineux des vertébrés à sang chaud, dont l’Homme. Malgré un mode chromosomique de déterminisme du sexe (i.e. hétérogamétie femelle ZW), les individus mâles et femelles demeurent phénotypiquement identiques durant tous les stades larvaires de leur cycle de vie hétéroxène. La différenciation sexuelle n’a lieu qu’après l’infestation de leur hôte définitif. Dans ce travail, nous nous sommes intéressés aux facteurs moléculaires déclenchant cette différenciation chez Schistosoma mansoni. Nous avons établi le profil d’expression sexe-dépendant de gènes conservés de la cascade de détermination/différenciation chez les animaux : les DMRT (Double-sex and Male-abnormal-3 Related Transcription Factors). Nous avons par ailleurs généré un transcriptome comparatif mâle/femelle (RNA-seq) sur 5 stades de développement in vivo, dont 3 stades « schistosomules » inédits. Cela nous a permis d’identifier de potentiels gènes « clés » de la différenciation sexuelle et de souligner l’importance de l’interaction hôte-parasite. Enfin, par la combinaison de cette approche transcriptomique et d’une analyse épigénomique (ChIP-seq), nous avons montré une dynamique de la compensation de dose génique au cours du cycle de vie chez les femelles ainsi que la mise en place d’une stratégie transcriptionnelle particulière chez les mâles, optimisant leur développement dans l’hôte et ainsi, leur succès reproducteur. / Parasitic flatworms include more than 20.000 species that are mainly hermaphrodites. Among them, the hundred species of Schistosomatidae are intriguing because they are gonochoric. The acquisition of gonochorism in these species is supposed to provide genetic and functional advantages to adapt to their hosts: warm-blooded animals. Sex of schistosomes is genetically determined at the time of fertilization (i.e. ZW female heterogametic system). However, there is no phenotypic dimorphism through all the larval stages of its complex lifecycle: sexual dimorphism appears only in the definitive host. The molecular mechanisms triggering this late sexual differentiation remain unclear, and this is precisely the topic of our present work. We performed transcriptomic (RNA-Sequencing and quantitative-PCRs) and structural (ChIP-Sequencing) analyses at different stages of Schistosoma mansoni development. Here, we present data suggesting that the sexual differentiation relies on a combination of genetic and epigenetic factors. In a genetic point of view, we show a sex-associated expression of the DMRT genes (Double-sex and Mab-3 Related Transcription Factors) that are known to be involved in sex determination/differentiation through all the animal kingdom. In addition, we propose new potential sex-determining key genes and a pivotal role of host-pathogen interaction at the time of development. In a structural point of view, we highlight a dynamic status of dosage compensation in females and chromatin modifications in males. This intense remodeling reveals a specific transcriptomic strategy which optimizes male development and beyond that, schistosomes reproductive success.

Déterminisme du sexe

Différenciation sexuelle

Développement parasitaire in vivo

Evolution des chromosomes sexuels

Compensation de dose génique

Mécanismes chromatiniens

Schistosoma mansoni

Expression différentielle de gènes

Séquençage Haut-Débit

Sex determination

Sexual differentiation

In vivo parasite development

Sex chromosome evolution

Dosage compensation

Chromatin mechanisms

ZZ/ZW Female heterogametic system

Sex-biased gene expression

High-throughput sequencing

577.85