Your search keyword '"Rollat-Farnier, Pierre-Antoine"' showing total 19 results

1. A new 165-SNP low-density lipoprotein cholesterol polygenic risk score based on next generation sequencing outperforms previously published scores in routine diagnostics of familial hypercholesterolemia

Author

Vanhoye, Xavier, Bardel, Claire, Rimbert, Antoine, Moulin, Philippe, Rollat-Farnier, Pierre-Antoine, Muntaner, Manon, Marmontel, Oriane, Dumont, Sabrina, Charrière, Sybil, Cornélis, François, Ducluzeau, Pierre Henri, Fonteille, Annie, Nobecourt, Estelle, Peretti, Noël, Schillo, Franck, Wargny, Matthieu, Cariou, Bertrand, Meirhaeghe, Aline, and Di Filippo, Mathilde

Published

2023

2. Disruption and deletion of the proximal part of TCF4 are associated with mild intellectual disability: About three new patients

Author

Masson, Julie, Pons, Linda, Busa, Tiffany, Missirian, Chantal, Lines, Matthew, Tevissen, Hélène, Diguet, Flavie, Rollat-Farnier, Pierre-Antoine, Lesca, Gaétan, Sanlaville, Damien, and Schluth-Bolard, Caroline

Published

2022

3. A 14q distal chromoanagenesis elucidated by whole genome sequencing

Author

Ader, Flavie, Heide, Solveig, Marzin, Pauline, Afenjar, Alexandra, Diguet, Flavie, Chantot Bastaraud, Sandra, Rollat-Farnier, Pierre-Antoine, Sanlaville, Damien, Portnoï, Marie-France, Siffroi, Jean-Pierre, and Schluth-Bolard, Caroline

Published

2020

4. Contribution of rare and predicted pathogenic gene variants to childhood-onset lupus: a large, genetic panel analysis of British and French cohorts

Author

Campion, Dominique, Dartigues, Jean-Francois, Deleuze, Jean-François, Genin, Emmanuelle, Lambert, Jean-Charles, Redon, Richard, Allain-Launay, Emma, Bader-Meunier, Brigitte, Belot, Alexandre, Bouayed, Kenza, Burtey, Stephane, Carbasse, Aurélia, Decramer, Stéphane, Despert, Véronique, Fain, Olivier, Fischbach, Michel, Flodrops, Hugues, Galeotti, Caroline, Hachulla, Eric, Hatchuel, Yves, Kleinmann, Jean-Francois, Kone-Paut, Isabelle, Lanteri, Aurélia, Lemelle, Irène, Maillard, Hélène, Maurier, François, Meinzer, Ulrich, Melki, Isabelle, Morell-Dubois, Sandrine, Pagnier, Anne, Piram, Maryam, Ranchin, Bruno, Reumaux, Héloise, Samaille, Charlotte, Sibilia, Jean, Weill, Olivia, Al-Abadi, Eslam, Armon, Kate, Bailey, Kathryn, Beresford, Michael, Brennan, Mary, Ciurtin, Coziana, Gardner-Medwin, Janet, Haslam, Kirsty, Hawley, Daniel, Leahy, Alice, Leone, Valentina, Mewar, Devesh, Moots, Rob, Pilkington, Clarissa, Ramanan, Athimalaipet, Rangaraj, Satyapal, Ratcliffe, Annie, Riley, Philip, Sen, Ethan, Sridhar, Arani, Wilkinson, Nick, Wood, Fiona, Rice, Gillian I, Omarjee, Sulliman Ommar, Rouchon, Quentin, Smith, Eve M D, Moreews, Marion, Tusseau, Maud, Frachette, Cécile, Bournhonesque, Raphael, Thielens, Nicole, Gaboriaud, Christine, Rouvet, Isabelle, Chopin, Emilie, Hoshino, Akihiro, Latour, Sylvain, Cimaz, Rolando, Romagnani, Paula, Malcus, Christophe, Fabien, Nicole, Sarda, Marie-Nathalie, Kassai, Behrouz, Lega, Jean-Christophe, Abou-Jaoude, Pauline, Bruce, Ian N, Simonet, Thomas, Bardel, Claire, Rollat-Farnier, Pierre Antoine, Viel, Sebastien, O'Sullivan, James, Walzer, Thierry, Mathieu, Anne-Laure, Marenne, Gaelle, Ludwig, Thomas, Ellingford, Jamie, Briggs, Tracy A, Beresford, Michael W, and Crow, Yanick J

Published

2020

5. Alpha Satellite Insertion Close to an Ancestral Centromeric Region

Author

Giannuzzi, Giuliana, Logsdon, Glennis A, Chatron, Nicolas, Miller, Danny E, Reversat, Julie, Munson, Katherine M, Hoekzema, Kendra, Bonnet-Dupeyron, Marie-Noëlle, Rollat-Farnier, Pierre-Antoine, Baker, Carl A, Sanlaville, Damien, Eichler, Evan E, Schluth-Bolard, Caroline, and Reymond, Alexandre

Subjects

Chromosomal Proteins, Non-Histone, ancestral centromere, Centromere, AcademicSubjects/SCI01130, structural variation, Humans, alpha satellite, DNA, Satellite, AcademicSubjects/SCI01180, Centromere Protein B, Discoveries, In Situ Hybridization, Fluorescence

Abstract

Human centromeres are mainly composed of alpha satellite DNA hierarchically organized as higher-order repeats (HORs). Alpha satellite dynamics is shown by sequence homogenization in centromeric arrays and by its transfer to other centromeric locations, for example, during the maturation of new centromeres. We identified during prenatal aneuploidy diagnosis by fluorescent in situ hybridization a de novo insertion of alpha satellite DNA from the centromere of chromosome 18 (D18Z1) into cytoband 15q26. Although bound by CENP-B, this locus did not acquire centromeric functionality as demonstrated by the lack of constriction and the absence of CENP-A binding. The insertion was associated with a 2.8-kbp deletion and likely occurred in the paternal germline. The site was enriched in long terminal repeats and located ∼10 Mbp from the location where a centromere was ancestrally seeded and became inactive in the common ancestor of humans and apes 20–25 million years ago. Long-read mapping to the T2T-CHM13 human genome assembly revealed that the insertion derives from a specific region of chromosome 18 centromeric 12-mer HOR array in which the monomer size follows a regular pattern. The rearrangement did not directly disrupt any gene or predicted regulatory element and did not alter the methylation status of the surrounding region, consistent with the absence of phenotypic consequences in the carrier. This case demonstrates a likely rare but new class of structural variation that we name “alpha satellite insertion.” It also expands our knowledge on alphoid DNA dynamics and conveys the possibility that alphoid arrays can relocate near vestigial centromeric sites.

Published

2021

6. Whole exome sequencing in three families segregating a pediatric case of sarcoidosis

Author

Calender, Alain, Rollat Farnier, Pierre Antoine, Buisson, Adrien, Pinson, Stéphane, Bentaher, Abderrazzaq, Lebecque, Serge, Corvol, Harriet, Abou Taam, Rola, Houdouin, Véronique, Bardel, Claire, Roy, Pascal, Devouassoux, Gilles, Cottin, Vincent, Seve, Pascal, Bernaudin, Jean-François, Lim, Clarice X., Weichhart, Thomas, Valeyre, Dominique, Pacheco, Yves, Clement, Annick, Nathan, Nadia, and in the frame of GSF (Groupe Sarcoïdose France)

Published

2018

7. Familial transmission of chromoanagenesis leads to unpredictable unbalanced rearrangements through meiotic recombination.

Author

Masson, Julie, Pebrel‐Richard, Céline, Egloff, Matthieu, Frétigny, Mathilde, Beaumont, Marion, Uguen, Kevin, Rollat‐Farnier, Pierre‐Antoine, Diguet, Flavie, Perthus, Isabelle, Le Gudayer, Gwenaël, Haye, Damien, Dupeyron, Marie‐Noëlle Bonnet, Putoux, Audrey, Raskin‐Champion, Fabienne, Till, Marianne, Chatron, Nicolas, Doray, Bérénice, Bardel, Claire, Vinciguerra, Christine, and Sanlaville, Damien

Subjects

MEIOSIS, FLUORESCENCE in situ hybridization, WHOLE genome sequencing, CHROMOSOMAL rearrangement, PRENATAL diagnosis

Abstract

Chromoanagenesis is a cellular mechanism that leads to complex chromosomal rearrangements (CCR) during a single catastrophic event. It may result in loss and/or gain of genetic material and may be responsible for various phenotypes. These rearrangements are usually sporadic. However, some familial cases have been reported. Here, we studied six families in whom an asymptomatic or paucisymptomatic parent transmitted a CCR to its offspring in an unbalanced manner. The rearrangements were characterized by karyotyping, fluorescent in situ hybridization, chromosomal microarray (CMA) and/or whole genome sequencing (WGS) in the carrier parents and offspring. We then hypothesized meiosis‐pairing figures between normal and abnormal parental chromosomes that may have led to the formation of new unbalanced rearrangements through meiotic recombination. Our work indicates that chromoanagenesis might be associated with a normal phenotype and normal fertility, even in males, and that WGS may be the only way to identify these events when there is no imbalance. Subsequently, the CCR can be transmitted to the next generation in an unbalanced and unpredictable manner following meiotic recombination. Thereby, prenatal diagnosis using CMA should be proposed to these families to detect any pathogenic imbalances in the offspring. [ABSTRACT FROM AUTHOR]

Published

2023

8. Complete characterisation of two new large Xq28 duplications involving F8 using whole genome sequencing in patients without haemophilia A.

Author

Jourdy, Yohann, Bardel, Claire, Fretigny, Mathilde, Diguet, Flavie, Rollat‐Farnier, Pierre‐Antoine, Mathieu, Marie‐Laure, Labalme, Audrey, Sanlaville, Damien, Edery, Patrick, Vinciguerra, Christine, and Schluth‐Bolard, Caroline

Subjects

WHOLE genome sequencing, HEMOPHILIA, CHROMOSOME analysis, GENETIC counseling, GENETIC correlations, DISABILITIES

Abstract

Introduction: Depending on the location of insertion of the gained region, F8 duplications can have variable clinical impacts from benign impact to severe haemophilia A phenotype. Aim: To characterize two large Xq28 duplications involving F8 incidentally detected by chromosome microarray analysis (CMA) in two patients presenting severe intellectual disability but no history of bleeding disorder. Methods: Whole genome sequencing (WGS) was performed in order to characterize the two large Xq28 duplications at nucleotide level. Results: In patient 1, a 60–73 kb gained region encompassing the exons 23–26 of F8 and SMIM9 was inserted at the int22h‐2 locus following a non‐homologous recombination between int22h‐1 and int22h‐2. We hypothesized that two independent events, micro‐homology‐mediated break‐induced replication (MMBIR) and break‐induced replication (BIR), could be involved in this rearrangement. In patient 2, the CMA found duplication from 101 to 116‐kb long encompassing the exons 16–26 of F8 and SMIM9. The WGS analysis identified a more complex rearrangement with the presence of three genomic junctions. Due to the multiple micro‐homologies observed at breakpoints, a replication‐based mechanism such as fork stalling and template switching (FoSTeS) was greatly suspected. In both cases, these complex rearrangements preserved an intact copy of the F8. Conclusion: This study highlights the value of WGS to characterize the genomic junction at the nucleotide level and ultimately better describe the molecular mechanisms involved in Xq28 structural variations. It also emphasizes the importance of specifying the structure of the genomic gain in order to improve genotype‐phenotype correlation and genetic counselling. [ABSTRACT FROM AUTHOR]

Published

2022

9. Whole Sequencing of Most Prevalent Dilated Cardiomyopathy-Causing Genes as a Molecular Strategy to Improve Molecular Diagnosis Efficiency?

Author

Januel, Louis, Chanavat, Valérie, Rollat-Farnier, Pierre-Antoine, Bardel, Claire, Nony, Severine, Millat, Gilles, and Janin, Alexandre

Subjects

MOLECULAR diagnosis, GENES, HYPERTROPHIC cardiomyopathy, DILATED cardiomyopathy, HEART failure

Abstract

Dilated cardiomyopathy (DCM) is the most common form of cardiomyopathy and one of the most common causes of heart failure. TTN-truncating variants represent the most common cause of DCM. Similarly, among other prevalent DCM-causing genes, truncating variants were also frequently detected in BAG3, DSP, FLNC, and LMNA. For these four genes, the current study aims to determine the prevalence of deep intronic pathogenic variants that could lead to splice defects. A next-generation sequencing (NGS) workflow based on whole gene sequencing of BAG3, DSP, FLNC, and LMNA of a cohort of 95 DCM patients, for whom no putatively causative point mutations were identified after NGS of a panel of 48 cardiomyopathy-causing genes, was thus performed. Our approach did not lead us to reconsider the molecular diagnosis of any patient of the cohort. This study suggests that deep splice mutations do not account for a significant proportion of DCM cases. In contrast with MYBPC3 in hypertrophic cardiomyopathy cases, NGS of BAG3, DSP, FLNC, and LMNA whole intronic sequences would not significantly improve the efficiency of molecular diagnosis of DCM probands. [ABSTRACT FROM AUTHOR]

Published

2021

10. Phenotypic Differences Between Polygenic and Monogenic Hypobetalipoproteinemia.

Author

Rimbert, Antoine, Vanhoye, Xavier, Coulibaly, Dramane, Marrec, Marie, Pichelin, Matthieu, Charrière, Sybil, Peretti, Noël, Valéro, René, Wargny, Matthieu, Carrié, Alain, Lindenbaum, Pierre, Deleuze, Jean-François, Genin, Emmanuelle, Redon, Richard, Rollat-Farnier, Pierre Antoine, Goxe, Didier, Degraef, Gilles, Marmontel, Oriane, Divry, Eléonore, and Bigot-Corbel, Edith

Published

2021

11. Development of a new expanded next‐generation sequencing panel for genetic diseases involved in dyslipidemia.

Author

Marmontel, Oriane, Rollat‐Farnier, Pierre Antoine, Wozny, Anne‐Sophie, Charrière, Sybil, Vanhoye, Xavier, Simonet, Thomas, Chatron, Nicolas, Collin‐Chavagnac, Delphine, Nony, Séverine, Dumont, Sabrina, Mahl, Muriel, Jacobs, Chantal, Janin, Alexandre, Caussy, Cyrielle, Poinsot, Pierre, Tauveron, Igor, Bardel, Claire, Millat, Gilles, Peretti, Noël, and Moulin, Philippe

Subjects

*NUCLEOTIDE sequencing, *GENETIC disorders, *DNA copy number variations, *CELL-free DNA, *MOLECULAR diagnosis

Abstract

The aim of this study was to provide an efficient tool: reliable, able to increase the molecular diagnosis performance, to facilitate the detection of copy number variants (CNV), to assess genetic risk scores (wGRS) and to offer the opportunity to explore candidate genes. Custom SeqCap EZ libraries, NextSeq500 sequencing and a homemade pipeline enable the analysis of 311 dyslipidemia‐related genes. In the training group (48 DNA from patients with a well‐established molecular diagnosis), this next‐generation sequencing (NGS) workflow showed an analytical sensitivity >99% (n = 532 variants) without any false negative including a partial deletion of one exon. In the prospective group, from 25 DNA from patients without prior molecular analyses, 18 rare variants were identified in the first intention panel genes, allowing the diagnosis of monogenic dyslipidemia in 11 patients. In six other patients, the analysis of minor genes and wGRS determination provided a hypothesis to explain the dyslipidemia. Remaining data from the whole NGS workflow identified four patients with potentially deleterious variants. This NGS process gives a major opportunity to accede to an enhanced understanding of the genetic of dyslipidemia by simultaneous assessment of multiple genetic determinants. [ABSTRACT FROM AUTHOR]

Published

2020

12. Genome sequencing in cytogenetics: Comparison of short‐read and linked‐read approaches for germline structural variant detection and characterization.

Author

Uguen, Kévin, Jubin, Claire, Duffourd, Yannis, Bardel, Claire, Malan, Valérie, Dupont, Jean‐Michel, El Khattabi, Laila, Chatron, Nicolas, Vitobello, Antonio, Rollat‐Farnier, Pierre‐Antoine, Baulard, Céline, Lelorch, Marc, Leduc, Aurélie, Tisserant, Emilie, Tran Mau‐Them, Frédéric, Danjean, Vincent, Delepine, Marc, Till, Marianne, Meyer, Vincent, and Lyonnet, Stanislas

Subjects

NUCLEOTIDE sequencing, DNA copy number variations, CYTOGENETICS, CHROMOSOMAL rearrangement

Abstract

Background: Structural variants (SVs) include copy number variants (CNVs) and apparently balanced chromosomal rearrangements (ABCRs). Genome sequencing (GS) enables SV detection at base‐pair resolution, but the use of short‐read sequencing is limited by repetitive sequences, and long‐read approaches are not yet validated for diagnosis. Recently, 10X Genomics proposed Chromium, a technology providing linked‐reads to reconstruct long DNA fragments and which could represent a good alternative. No study has compared short‐read to linked‐read technologies to detect SVs in a constitutional diagnostic setting yet. The aim of this work was to determine whether the 10X Genomics technology enables better detection and comprehension of SVs than short‐read WGS. Methods: We included 13 patients carrying various SVs. Whole genome analyses were performed using paired‐end HiSeq X sequencing with (linked‐read strategy) or without (short‐read strategy) Chromium library preparation. Two different bioinformatic pipelines were used: Variants are called using BreakDancer for short‐read strategy and LongRanger for long‐read strategy. Variant interpretations were first blinded. Results: The short‐read strategy allowed diagnosis of known SV in 10/13 patients. After unblinding, the linked‐read strategy identified 10/13 SVs, including one (patient 7) missed by the short‐read strategy. Conclusion: In conclusion, regarding the results of this study, 10X Genomics solution did not improve the detection and characterization of SV. [ABSTRACT FROM AUTHOR]

Published

2020

13. Whole MYBPC3 NGS sequencing as a molecular strategy to improve the efficiency of molecular diagnosis of patients with hypertrophic cardiomyopathy.

Author

Janin, Alexandre, Chanavat, Valérie, Rollat‐Farnier, Pierre‐Antoine, Bardel, Claire, Nguyen, Karine, Chevalier, Philippe, Eicher, Jean‐Christophe, Faivre, Laurence, Piard, Juliette, Albert, Emma, Nony, Severine, and Millat, Gilles

Abstract

Hypertrophic cardiomyopathy (HCM) is the most common heritable cardiomyopathy, historically believed to affect 1 of 500 people. MYBPC3 pathogenic variations are the most frequent cause of familial HCM and more than 90% of them introduce a premature termination codon. The current study aims to determine the prevalence of deep intronic MYBPC3 pathogenic variations that could lead to splice mutations. To improve molecular diagnosis, a next‐generation sequencing (NGS) workflow based on whole MYBPC3 sequencing of a cohort of 93 HCM patients, for whom no putatively causative point mutations were identified after NGS sequencing of a panel of 48 cardiomyopathy‐causing genes, was performed. Our approach led us to reconsider the molecular diagnosis of six patients of the cohort (6.5%). These HCM probands were carriers of either a new large MYBPC3 rearrangement or splice intronic variations (five cases). Four pathogenic intronic variations, including three novel ones, were detected. Among them, the prevalence of one of them (NM_000256.3:c.1927+ 600 C>T) was estimated at about 0.35% by the screening of 1,040 unrelated HCM individuals. This study suggests that deep MYBPC3 splice mutations account for a significant proportion of HCM cases (6.5% of this cohort). Consequently, NGS sequencing of MYBPC3 intronic sequences have to be performed systematically. [ABSTRACT FROM AUTHOR]

Published

2020

14. Identification of mobile retrocopies during genetic testing: Consequences for routine diagnosis.

Author

Chatron, Nicolas, Cassinari, Kevin, Quenez, Olivier, Baert‐Desurmont, Stéphanie, Bardel, Claire, Buisine, Marie‐Pierre, Calpena, Eduardo, Capri, Yline, Corominas Galbany, Jordi, Diguet, Flavie, Edery, Patrick, Isidor, Bertrand, Labalme, Audrey, Le Caignec, Cedric, Lévy, Jonathan, Lecoquierre, François, Lindenbaum, Pierre, Pichon, Olivier, Rollat‐Farnier, Pierre‐Antoine, and Simonet, Thomas

Abstract

Human retrocopies, that is messenger RNA transcripts benefitting from the long interspersed element 1 machinery for retrotransposition, may have specific consequences for genomic testing. Next genetration sequencing (NGS) techniques allow the detection of such mobile elements but they may be misinterpreted as genomic duplications or be totally overlooked. We report eight observations of retrocopies detected during diagnostic NGS analyses of targeted gene panels, exome, or genome sequencing. For seven cases, while an exons‐only copy number gain was called, read alignment inspection revealed a depth of coverage shift at every exon‐intron junction where indels were also systematically called. Moreover, aberrant chimeric read pairs spanned entire introns or were paired with another locus for terminal exons. The 8th retrocopy was present in the reference genome and thus showed a normal NGS profile. We emphasize the existence of retrocopies and strategies to accurately detect them at a glance during genetic testing and discuss pitfalls for genetic testing. [ABSTRACT FROM AUTHOR]

Published

2019

15. Whole genome paired-end sequencing elucidates functional and phenotypic consequences of balanced chromosomal rearrangement in patients with developmental disorders.

Author

Schluth-Bolard, Caroline, Diguet, Flavie, Chatron, Nicolas, Rollat-Farnier, Pierre-Antoine, Bardel, Claire, Afenjar, Alexandra, Amblard, Florence, Amiel, Jeanne, Blesson, Sophie, Callier, Patrick, Capri, Yline, Collignon, Patrick, Cordier, Marie-Pierre, Coubes, Christine, Demeer, Benedicte, Chaussenot, Annabelle, Demurger, Florence, Devillard, Françoise, Doco-Fenzy, Martine, and Dupont, Céline

Abstract

Background Balanced chromosomal rearrangements associated with abnormal phenotype are rare events, but may be challenging for genetic counselling, since molecular characterisation of breakpoints is not performed routinely. We used next-generation sequencing to characterise breakpoints of balanced chromosomal rearrangements at the molecular level in patients with intellectual disability and/or congenital anomalies. Methods Breakpoints were characterised by a paired-end low depth whole genome sequencing (WGS) strategy and validated by Sanger sequencing. Expression study of disrupted and neighbouring genes was performed by RT-qPGR from blood or lymphoblastoid cell line RNA. Results Among the 55 patients included (41 reciprocal translocations, 4 inversions, 2 insertions and 8 complex chromosomal rearrangements), we were able to detect 89% of chromosomal rearrangements (49/55). Molecular signatures at the breakpoints suggested that DNA breaks arose randomly and that there was no major influence of repeated elements. Non-homologous end-joining appeared as the main mechanism of repair (55% of rearrangements). A diagnosis could be established in 22/49 patients (44.8%), 15 by gene disruption (KANSL1, FOXP1, SPRED1, TLK2, MBD5, DMD, AUTS2, MEIS2, MEF2C, NRXN1, NFIX, SYNGAP1, GHR, ZMIZ1) and 7 by position effect (DLX5, MEF2C, BCL11B, SATB2, ZMIZ1). In addition, 16 new candidate genes were identified. Systematic gene expression studies further supported these results. We also showed the contribution of topologically associated domain maps to WGS data interpretation. Conclusion Paired-end WGS is a valid strategy and may be used for structural variation characterisation in a clinical setting. [ABSTRACT FROM AUTHOR]

Published

2019

16. Supravalvular Aortic Stenosis Caused by a Familial Chromosome 7 Inversion Disrupting the ELN Gene Uncovered by Whole-Genome Sequencing.

Author

Pons, Linda, Bouvagnet, Patrice, Bakloul, Mohamed, Di Filippo, Sylvie, Buisson, adrien, Chatron, Nicolas, Labalme, audrey, Metton, Olivier, Mitchell, Julia, Diguet, Flavie, Rollat-Farnier, Pierre-antoine, Sanlaville, Damien, and Schluth-Bolard, Caroline

Published

2019

17. Genome reduction and potential metabolic complementation of the dual endosymbionts in the whitefly Bemisia tabaci.

Author

Qiong Rao, Rollat-Farnier, Pierre-Antoine, Dan-Tong Zhu, Santos-Garcia, Diego, Silva, Francisco J., Moya, Andrés, Latorre, Amparo, Klein, Cecilia C., Vavre, Fabrice, Sagot, Marie-France, Shu-Sheng Liu, Mouton, Laurence, and Xiao-Wei Wang

Subjects

*SWEETPOTATO whitefly, *ENTEROBACTERIACEAE, *CANDIDATUS, *INVERTEBRATE-bacteria relationships, *ENDOSYMBIOSIS

Abstract

Background: The whitefly Bemisia tabaci is an important agricultural pest with global distribution. This phloem-sap feeder harbors a primary symbiont, "Candidatus Portiera aleyrodidarum", which compensates for the deficient nutritional composition of its food sources, and a variety of secondary symbionts. Interestingly, all of these secondary symbionts are found in co-localization with the primary symbiont within the same bacteriocytes, which should favor the evolution of strong interactions between symbionts. Results: In this paper, we analyzed the genome sequences ofthe primary symbiont Portiera and ofthe secondary symbiont Hamiltonella in the B. tabaci Mediterranean (MED) species in order to gain insight into the metabolic role of each symbiont in the biology of their host. The genome sequences of the uncultured symbionts Portiera and Hamiltonella were obtained from one single bacteriocyte of MED B. tabaci. As already reported, the genome of Portiera is highly reduced (357 kb), but has kept a number of genes encoding most essential amino-acids and carotenoids. On the other hand, Portiera lacks almost all the genes involved in the synthesis of vitamins and cofactors. Moreover, some pathways are incomplete, notably those involved in the synthesis of some essential amino-acids. Interestingly, the genome of Hamiltonella revealed that this secondary symbiont can not only provide vitamins and cofactors, but also complete the missing steps of some of the pathways of Portiera. In addition, some critical amino-acid biosynthetic genes are missing in the two symbiotic genomes, but analysis of whitefly transcriptome suggests that the missing steps may be performed by the whitefly itself or its microbiota. Conclusions: These data suggest that Portiera and Hamiltonella are not only complementary but could also be mutually dependent to provide a full complement of nutrients to their host. Altogether, these results illustrate how functional redundancies can lead to gene losses in the genomes ofthe different symbiotic partners, reinforcing their inter-dependency. [ABSTRACT FROM AUTHOR]

Published

2015

18. Two Host Clades, Two Bacterial Arsenals: Evolution through Gene Losses in Facultative Endosymbionts.

Author

Rollat-Farnier, Pierre-Antoine, Santos-Garcia, Diego, Qiong Rao, Sagot, Marie-France, Silva, Francisco J., Henri, Hélène, Zchori-Fein, Einat, Latorre, Amparo, Moya, Andrés, Barbe, Valérie, Shu-Sheng Liu, Xiao-Wei Wang, Vavre, Fabrice, and Mouton, Laurence

Subjects

*ARMORIES, *PROKARYOTES, *APHIDS, *SWEETPOTATO whitefly, *PARASITOIDS

Abstract

Bacterial endosymbiosis is an important evolutionary process in insects, which can harbor both obligate and facultative symbionts. The evolution of these symbionts is driven by evolutionary convergence, and they exhibit among the tiniest genomes in prokaryotes. The large host spectrum of facultative symbionts and the high diversity of strategies they use to infect new hosts probably impact the evolution of their genome and explain why they undergo less severe genomic erosion than obligate symbionts. Candidatus Hamiltonella defensa is suitable for the investigation of the genomic evolution of facultative symbionts because the bacteria are engaged in specific relationships in two clades of insects. In aphids, H. defensa is found in several species with an intermediate prevalence and confers protection against parasitoids. In whiteflies, H. defensa is almost fixed in some species of Bemisia tabaci, which suggests an important role of and a transition toward obligate symbiosis. In this study, comparisons of the genome of H. defensa present in two B. tabaci species (Middle East Asia Minor 1 and Mediterranean) and in the aphid Acyrthosiphon pisum revealed that they belong to two distinct clades and underwent specific gene losses. In aphids, it contains highly virulent factors that could allow protection and horizontal transfers. In whiteflies, the genome lost these factors and seems to have a limited ability to acquire genes. However it contains genes that could be involved in the production of essential nutrients, which is consistent with a primordial role for thissymbiont. In conclusion, although both lineages of H. defensa have mutualistic interactions with their hosts, their genomes follow distinct evolutionary trajectories that reflect their phenotype and could have important consequences on their evolvability. [ABSTRACT FROM AUTHOR]

Published

2015

19. The Genome of Cardinium cBtQ1 Provides Insights into Genome Reduction, Symbiont Motility, and Its Settlement in Bemisia tabaci.

Author

Santos-Garcia, Diego, Rollat-Farnier, Pierre-Antoine, Beitia, Francisco, Zchori-Fein, Einat, Vavre, Fabrice, Mouton, Laurence, Moya, Andrés, Latorre, Amparo, and Silva, Francisco J.

Subjects

*GENOMES, *SWEETPOTATO whitefly, *ENDOSYMBIOSIS, *HOSTS (Biology), *ARTHROPODA

Abstract

Many insects harbor inherited bacterial endosymbionts. Although some of them are not strictly essential and are considered facultative, they can be a key to host survival under specific environmental conditions, such as parasitoid attacks, climate changes, or insecticide pressures. The whitefly Bemisia tabaci is at the top of the list of organisms inflicting agricultural damage and outbreaks, and changes in its distribution may be associated to global warming. In this work, we have sequenced and analyzed the genome of Cardinium cBtQ1, a facultative bacterial endosymbiont of B. tabaci and propose that it belongs to a new taxonomic family, which also includes Candidatus Amoebophilus asiaticus and Cardinium cEper1, endosymbionts of amoeba and wasps, respectively. Reconstruction of their last common ancestors’ gene contents revealed an initial massive gene loss from the free-living ancestor. This was followed in Cardinium by smaller losses, associated with settlement in arthropods. Some of these losses, affecting cofactor and amino acid biosynthetic encoding genes, took place in Cardinium cBtQ1 after its divergence from the Cardinium cEper1 lineage and were related to its settlement in the whitefly and its endosymbionts. Furthermore, the Cardinium cBtQ1 genome displays a large proportion of transposable elements, which have recently inactivated genes and produced chromosomal rearrangements. The genome also contains a chromosomal duplication and a multicopy plasmid, which harbors several genes putatively associated with gliding motility, as well as two other genes encoding proteins with potential insecticidal activity. As gene amplification is very rare in endosymbionts, an important function of these genes cannot be ruled out. [ABSTRACT FROM AUTHOR]

Published

2014