Your search keyword '"Rodde N"' showing total 28 results

1. Analysis of STAT1 expression and biological activity reveals interferon-tau-dependent STAT1-regulated SOCS genes in the bovine endometrium

Author

Vitorino Carvalho, A., primary, Eozenou, C., additional, Healey, G. D., additional, Forde, N., additional, Reinaud, P., additional, Chebrout, M., additional, Gall, L., additional, Rodde, N., additional, Padilla, A. Lesage, additional, Delville, C. Giraud, additional, Leveugle, M., additional, Richard, C., additional, Sheldon, I. M., additional, Lonergan, P., additional, Jolivet, G., additional, and Sandra, O., additional

Published

2016

2. Uncoupled Embryonic and Extra-Embryonic Tissues Compromise Blastocyst Development after Somatic Cell Nuclear Transfer

Author

Akagi, T, Degrelle, SA, Jaffrezic, F, Campion, E, Le Cao, K-A, Le Bourhis, D, Richard, C, Rodde, N, Fleurot, R, Everts, RE, Lecardonnel, J, Heyman, Y, Vignon, X, Yang, X, Tian, XC, Lewin, HA, Renard, J-P, Hue, I, Akagi, T, Degrelle, SA, Jaffrezic, F, Campion, E, Le Cao, K-A, Le Bourhis, D, Richard, C, Rodde, N, Fleurot, R, Everts, RE, Lecardonnel, J, Heyman, Y, Vignon, X, Yang, X, Tian, XC, Lewin, HA, Renard, J-P, and Hue, I

Abstract

Somatic cell nuclear transfer (SCNT) is the most efficient cell reprogramming technique available, especially when working with bovine species. Although SCNT blastocysts performed equally well or better than controls in the weeks following embryo transfer at Day 7, elongation and gastrulation defects were observed prior to implantation. To understand the developmental implications of embryonic/extra-embryonic interactions, the morphological and molecular features of elongating and gastrulating tissues were analysed. At Day 18, 30 SCNT conceptuses were compared to 20 controls (AI and IVP: 10 conceptuses each); one-half of the SCNT conceptuses appeared normal while the other half showed signs of atypical elongation and gastrulation. SCNT was also associated with a high incidence of discordance in embryonic and extra-embryonic patterns, as evidenced by morphological and molecular "uncoupling". Elongation appeared to be secondarily affected; only 3 of 30 conceptuses had abnormally elongated shapes and there were very few differences in gene expression when they were compared to the controls. However, some of these differences could be linked to defects in microvilli formation or extracellular matrix composition and could thus impact extra-embryonic functions. In contrast to elongation, gastrulation stages included embryonic defects that likely affected the hypoblast, the epiblast, or the early stages of their differentiation. When taking into account SCNT conceptus somatic origin, i.e. the reprogramming efficiency of each bovine ear fibroblast (Low: 0029, Med: 7711, High: 5538), we found that embryonic abnormalities or severe embryonic/extra-embryonic uncoupling were more tightly correlated to embryo loss at implantation than were elongation defects. Alternatively, extra-embryonic differences between SCNT and control conceptuses at Day 18 were related to molecular plasticity (high efficiency/high plasticity) and subsequent pregnancy loss. Finally, because it alters re-d

Published

2012

3. Analysis of STAT1 expression and biological activity reveals interferon-tau-dependent STAT1-regulated SOCS genes in the bovine endometrium.

Author

Carvalho, A. Vitorino, Eozenou, C., Healey, G. D., Forde, N., Reinaud, P., Chebrout, M., Gall, L., Rodde, N., Padilla, A. Lesage, Delville, C. Giraud, Leveugle, M., Richard, C., Sheldon, I. M., Lonergan, P., Jolivet, G., and Sandra, O.

Subjects

STAT proteins, INTERFERONS, ENDOMETRIUM, PHOSPHORYLATION, CYTOKINES

Abstract

Signal transducer and activator of transcription (STAT) proteins are critical for the regulation of numerous biological processes. In cattle, microarray analyses identified STAT1 as a differentially expressed gene in the endometrium during the peri-implantation period. To gain new insights about STAT1 during the oestrous cycle and early pregnancy, we investigated STAT1 transcript and protein expression, as well as its biological activity in bovine tissue and cells of endometrial origin. Pregnancy increased STAT1 expression on Day 16, and protein and phosphorylation levels on Day 20. In cyclic and pregnant females, STAT1 was located in endometrial cells but not in the luminal epithelium at Day 20 of pregnancy. The expression of STAT1 during the oestrous cycle was not affected by progesterone supplementation. In vivo and in vitro, interferon-tau (IFNT) stimulated STAT1 mRNA expression, protein tyrosine phosphorylation and nuclear translocation. Using chromatin immunoprecipitation in IFNT-stimulated endometrial cells, we demonstrated an increase of STAT1 binding on interferon regulatory factor 1 (IRF1), cytokine-inducible SH2-containing protein (CISH), suppressor of cytokine signaling 1 and 3 (SOCS1, SOCS3) gene promoters consistent with the induction of their transcripts. Our data provide novel molecular insights into the biological functions of STAT1 in the various cells composing the endometrium during maternal pregnancy recognition and implantation. [ABSTRACT FROM AUTHOR]

Published

2016

4. ABSTRACTS: 5 In vivo gene delivery of the murine uterus: what and why?

Author

Rodde, N, primary, Munaut, C, additional, Prince, S, additional, Olivier, F, additional, Bellemin, AL, additional, Chaouat, G, additional, and Sandra, O, additional

Published

2008

5. STAT3–SOCS3: The invasion balance in trophoblast cells?

Author

Poehlmann, T.G., primary, Bachmann, S., additional, Rudloff, I., additional, Neblung, C., additional, Schleussner, E., additional, Rodde, N., additional, Sandra, O., additional, and Markert, U.R., additional

Published

2007

6. P18-9 Automatisation du phénotypage étendu aux systèmes: Kidd, Lewis, MNS et P sur Olympus PK 7200: réalisation et validation

Author

Quainon, F, primary, Subtil, E, additional, Pinet, MC, additional, and Rodde, N, additional

Published

1998

7. 5 In vivo gene delivery of the murine uterus: what and why?

Author

Rodde, N., Munaut, C., Prince, S., Olivier, F., Bellemin, A. L., Chaouat, G., and Sandra, O.

Subjects

*GENE expression, *TRANSGENIC animals, *GENES, *HUMAN embryo transfer, *PLASMIDS, *LUCIFERASES, *PREGNANCY

Abstract

Problem: The in vivo gene delivery offers an alternative for affecting the expression of genes without deriving transgenic animals. In order to investigate the biological functions of genes during implantation, the in vivo transfection of the murine uterus was assessed using a non-cationic agent. Material and Methods: Various routes of administration were tested using complexes of JetPEI (Polyplus-Transfection) and pEGFPluc plasmid injected into mice. The luciferase activity was quantified and the GFP cell localisation was investigated in the uterus. The consequences of the injections on the pregnancy were estimated. Results: The efficiency of the in vivo transfection in the uterus as well the type of transfected cells depends on the route of injection. No apparent effect was seen on the pregnancy outcome. Conclusion: Investigating the function of a gene during implantation in the mouse appears feasible using the jetPEI-based method of gene delivery. Targeted analyses of specific genes are in progress. [ABSTRACT FROM AUTHOR]

Published

2008

8. An insight into normal and pathological pregnancies using large-scale microarrays: lessons from microarrays

Author

Mona Rahmati, Olivier Sandra, Nathalie Coqué, Gérard Chaouat, Valérie Serazin, Jean-Michel Foidart, Sandrine Zourbas, Julie Aubert, Francesco Tedesco, Nathalie Rodde, Carine Munaut, Sylvie Dubanchet, Jacques Martal, Roberta Bulla, Jens C. Jensenius, Marie Petitbarat, Thiel Steffen, Isabelle Bataillon, Nathalie Lédée, Benoit Hennuy, Chaouat, G., Rodde, N., Petitbarat, M., Bulla, Roberta, Rahmati, M., Dubanchet, S., Zourbas, S., Bataillon, I., Coqué, N., Hennuy, B., Martal, J., Munaut, C., Aubert, J., Sérazin, V., Steffen, T., Jensenius, J. C., Foidart, J. M., Sandra, O., Tedesco, Francesco, Lédée, N., U782, Institut National de la Santé et de la Recherche Médicale (INSERM), UMR 0782, Hôpital Antoine Béclère, Université Paris-Sud - Paris 11 (UP11), Biologie du Développement et Reproduction (BDR), Institut National de la Recherche Agronomique (INRA), Department of Life Sciences, Università degli studi di Trieste, UMR INRA-ENVA 1198 (BDR), École nationale vétérinaire d'Alfort (ENVA), Mathématiques et Informatique Appliquées (MIA-Paris), AgroParisTech-Institut National de la Recherche Agronomique (INRA), Laboratoire de Biologie des Tumeurs et Dévelopement, Université de Liège, Gamètes, implantation, gestation (GIG), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ), Aarhus University [Aarhus], Tumour & Development Laboratory, INSERM, Université Paris-Sud, AP-HP - Hôpital Antoine Béclère [Clamart], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Biologie du développement et reproduction (BDR), Centre National de la Recherche Scientifique (CNRS)-École nationale vétérinaire d'Alfort (ENVA)-Institut National de la Recherche Agronomique (INRA), and European Society for Reproductive Immunology (ESRI). POL.

Subjects

Male, Microarray, Immunology, preeclampsia, recurrent pregnancy loss, Immune tolerance, Preeclampsia, Mice, 03 medical and health sciences, 0302 clinical medicine, Immune system, Pre-Eclampsia, Pregnancy, Immune Tolerance, medicine, Animals, Humans, Immunology and Allergy, Pathological, Oligonucleotide Array Sequence Analysis, 030304 developmental biology, cba mice, Mice, Inbred BALB C, 0303 health sciences, business.industry, Gene Expression Profiling, First pregnancy, Obstetrics and Gynecology, [SDV.BDLR]Life Sciences [q-bio]/Reproductive Biology, medicine.disease, Disease Models, Animal, Gene Expression Regulation, Reproductive Medicine, Mice, Inbred DBA, Mice, Inbred CBA, [SDV.IMM]Life Sciences [q-bio]/Immunology, Female, DNA microarray, business, microarray, 030215 immunology

Abstract

In the introduction, we briefly recall old but classic evidence that there is no tolerance to paternal alloantigens in a first pregnancy. Therefore, we performed small- and large-scale microarrays in CBA × DBA/2 and CBA × BALB/c combinations, recently described as a murine model for preeclampsia. Our results are in line with other data suggesting a very early deregulation of local immune vascular events rather than a break of immune tolerance. Other data presented at the Tioman 2010 Preeclampsia Workshop supporting this hypothesis are briefly summarised, as well as indications and caveats from a recent human microarray on implantation failure and recurrent pregnancy loss.

Published

2011

9. An online database for einkorn wheat to aid in gene discovery and functional genomics studies.

Author

Sharma PK, Ahmed HI, Heuberger M, Koo DH, Quiroz-Chavez J, Adhikari L, Raupp J, Cauet S, Rodde N, Cravero C, Callot C, Yadav IS, Kathiresan N, Athiyannan N, Ramirez-Gonzalez RH, Uauy C, Wicker T, Abrouk M, Gu YQ, Poland J, Krattinger SG, Lazo GR, and Tiwari VK

Subjects

Plant Breeding, Genomics methods, Genetic Association Studies, Triticum genetics, Genome, Plant genetics

Abstract

Diploid A-genome wheat (einkorn wheat) presents a nutrition-rich option as an ancient grain crop and a resource for the improvement of bread wheat against abiotic and biotic stresses. Realizing the importance of this wheat species, reference-level assemblies of two einkorn wheat accessions were generated (wild and domesticated). This work reports an einkorn genome database that provides an interface to the cereals research community to perform comparative genomics, applied genetics and breeding research. It features queries for annotated genes, the use of a recent genome browser release, and the ability to search for sequence alignments using a modern BLAST interface. Other features include a comparison of reference einkorn assemblies with other wheat cultivars through genomic synteny visualization and an alignment visualization tool for BLAST results. Altogether, this resource will help wheat research and breeding. Database URL  https://wheat.pw.usda.gov/GG3/pangenome., (© The Author(s) 2023. Published by Oxford University Press.)

Published

2023

10. A persistent major mutation in canonical jasmonate signaling is embedded in an herbivory-elicited gene network.

Author

Ray R, Halitschke R, Gase K, Leddy SM, Schuman MC, Rodde N, and Baldwin IT

Subjects

Mutation, Gene Regulatory Networks, Herbivory genetics

Abstract

When insect herbivores attack plants, elicitors from oral secretions and regurgitants (OS) enter wounds during feeding, eliciting defense responses. These generally require plant jasmonate (JA) signaling, specifically, a jasmonoyl-L-isoleucine (JA-Ile) burst, for their activation and are well studied in the native tobacco Nicotiana attenuata . We used intraspecific diversity captured in a 26-parent MAGIC population planted in nature and an updated genome assembly to impute natural variation in the OS-elicited JA-Ile burst linked to a mutation in the JA-Ile biosynthetic gene NaJAR4 . Experiments revealed that NaJAR4 variants were associated with higher fitness in the absence of herbivores but compromised foliar defenses, with two NaJAR homologues (4 and 6) complementing each other spatially and temporally. From decade-long seed collections of natural populations, we uncovered enzymatically inactive variants occurring at variable frequencies, consistent with a balancing selection regime maintaining variants. Integrative analyses of OS-induced transcriptomes and metabolomes of natural accessions revealed that NaJAR4 is embedded in a nonlinear complex gene coexpression network orchestrating responses to OS, which we tested by silencing four hub genes in two connected coexpressed networks and examining their OS-elicited metabolic responses. Lines silenced in two hub genes ( NaGLR and NaFB67 ) co-occurring in the NaJAR4/6 module showed responses proportional to JA-Ile accumulations; two from an adjacent module ( NaERF and NaFB61 ) had constitutively expressed defenses with high resistance. We infer that mutations with large fitness consequences can persist in natural populations due to compensatory responses from gene networks, which allow for diversification in conserved signaling pathways and are generally consistent with predictions of an omnigene model.

Published

2023

11. Einkorn genomics sheds light on history of the oldest domesticated wheat.

Author

Ahmed HI, Heuberger M, Schoen A, Koo DH, Quiroz-Chavez J, Adhikari L, Raupp J, Cauet S, Rodde N, Cravero C, Callot C, Lazo GR, Kathiresan N, Sharma PK, Moot I, Yadav IS, Singh L, Saripalli G, Rawat N, Datla R, Athiyannan N, Ramirez-Gonzalez RH, Uauy C, Wicker T, Tiwari VK, Abrouk M, Poland J, and Krattinger SG

Subjects

History, Ancient, Whole Genome Sequencing, Genetic Introgression, Hybridization, Genetic, Bread history, Centromere genetics, Genomics, Triticum classification, Triticum genetics, Crop Production history, Genome, Plant genetics

Abstract

Einkorn (Triticum monococcum) was the first domesticated wheat species, and was central to the birth of agriculture and the Neolithic Revolution in the Fertile Crescent around 10,000 years ago 1,2 . Here we generate and analyse 5.2-Gb genome assemblies for wild and domesticated einkorn, including completely assembled centromeres. Einkorn centromeres are highly dynamic, showing evidence of ancient and recent centromere shifts caused by structural rearrangements. Whole-genome sequencing analysis of a diversity panel uncovered the population structure and evolutionary history of einkorn, revealing complex patterns of hybridizations and introgressions after the dispersal of domesticated einkorn from the Fertile Crescent. We also show that around 1% of the modern bread wheat (Triticum aestivum) A subgenome originates from einkorn. These resources and findings highlight the history of einkorn evolution and provide a basis to accelerate the genomics-assisted improvement of einkorn and bread wheat., (© 2023. The Author(s).)

Published

2023

12. An improved assembly of the pearl millet reference genome using Oxford Nanopore long reads and optical mapping.

Author

Salson M, Orjuela J, Mariac C, Zekraouï L, Couderc M, Arribat S, Rodde N, Faye A, Kane NA, Tranchant-Dubreuil C, Vigouroux Y, and Berthouly-Salazar C

Subjects

Plant Breeding, Genome, Chromosome Mapping, Pennisetum genetics, Nanopores

Abstract

Pearl millet (Pennisetum glaucum (L.)) R. Br. syn. Cenchrus americanus (L.) Morrone) is an important crop in South Asia and sub-Saharan Africa which contributes to ensuring food security. Its genome has an estimated size of 1.76 Gb and displays a high level of repetitiveness above 80%. A first assembly was previously obtained for the Tift 23D2B1-P1-P5 cultivar genotype using short-read sequencing technologies. This assembly is, however, incomplete and fragmented with around 200 Mb unplaced on chromosomes. We report here an improved quality assembly of the pearl millet Tift 23D2B1-P1-P5 cultivar genotype obtained with an approach combining Oxford Nanopore long reads and Bionano Genomics optical maps. This strategy allowed us to add around 200 Mb at the chromosome-level assembly. Moreover, we strongly improved continuity in the order of the contigs and scaffolds within the chromosomes, particularly in the centromeric regions. Notably, we added more than 100 Mb around the centromeric region on chromosome 7. This new assembly also displayed a higher gene completeness with a complete BUSCO score of 98.4% using the Poales database. This more complete and higher quality assembly of the Tift 23D2B1-P1-P5 genotype now available to the community will help in the development of research on the role of structural variants and more broadly in genomics studies and the breeding of pearl millet., Competing Interests: Conflicts of interest statement The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Genetics Society of America.)

Published

2023

13. The genomics of linkage drag in inbred lines of sunflower.

Author

Huang K, Jahani M, Gouzy J, Legendre A, Carrere S, Lázaro-Guevara JM, González Segovia EG, Todesco M, Mayjonade B, Rodde N, Cauet S, Dufau I, Staton SE, Pouilly N, Boniface MC, Tapy C, Mangin B, Duhnen A, Gautier V, Poncet C, Donnadieu C, Mandel T, Hübner S, Burke JM, Vautrin S, Bellec A, Owens GL, Langlade N, Muños S, and Rieseberg LH

Subjects

Genome, Plant genetics, Plant Breeding, Genotype, Genomics, Helianthus genetics

Abstract

Crop wild relatives represent valuable sources of alleles for crop improvement, including adaptation to climate change and emerging diseases. However, introgressions from wild relatives might have deleterious effects on desirable traits, including yield, due to linkage drag. Here, we analyzed the genomic and phenotypic impacts of wild introgressions in inbred lines of cultivated sunflower to estimate the impacts of linkage drag. First, we generated reference sequences for seven cultivated and one wild sunflower genotype, as well as improved assemblies for two additional cultivars. Next, relying on previously generated sequences from wild donor species, we identified introgressions in the cultivated reference sequences, as well as the sequence and structural variants they contain. We then used a ridge-regression best linear unbiased prediction (BLUP) model to test the effects of the introgressions on phenotypic traits in the cultivated sunflower association mapping population. We found that introgression has introduced substantial sequence and structural variation into the cultivated sunflower gene pool, including >3,000 new genes. While introgressions reduced genetic load at protein-coding sequences, they mostly had negative impacts on yield and quality traits. Introgressions found at high frequency in the cultivated gene pool had larger effects than low-frequency introgressions, suggesting that the former likely were targeted by artificial selection. Also, introgressions from more distantly related species were more likely to be maladaptive than those from the wild progenitor of cultivated sunflower. Thus, breeding efforts should focus, as far as possible, on closely related and fully compatible wild relatives.

Published

2023

14. A MITE insertion abolishes the AP3-3 self-maintenance regulatory loop in apetalous flowers of Nigella damascena.

Author

Conde E Silva N, Leguilloux M, Bellec A, Rodde N, Aubert J, Manicacci D, Damerval C, Berges H, and Deveaux Y

Subjects

DNA Transposable Elements genetics, Plant Proteins genetics, Plant Proteins metabolism, MADS Domain Proteins genetics, Flowers, Gene Expression Regulation, Plant, Nigella damascena metabolism, Arabidopsis Proteins metabolism, Arabidopsis genetics

Abstract

MADS-box transcription factors are important regulators of floral organ identity through their binding to specific motifs, termed CArG, in the promoter of their target genes. Petal initiation and development depend on class A and B genes, but MADS-box genes of the APETALA3 (AP3) clade are key regulators of this process. In the early diverging eudicot Nigella damascena, an apetalous [T] morph is characterized by the lack of expression of the NdAP3-3 gene, with its expression being petal-specific in the wild-type [P] morph. All [T] morph plants are homozygous for an NdAP3-3 allele with a Miniature Inverted-repeat Transposable Element (MITE) insertion in the second intron of the gene. Here, we investigated to which extent the MITE insertion impairs regulation of the NdAP3-3 gene. We found that expression of NdAP3-3 is initiated in the [T] morph, but the MITE insertion prevents its positive self-maintenance by affecting the correct splicing of the mRNA. We also found specific CArG features in the promoter of the NdAP3-3 genes with petal-specific expression. However, they are not sufficient to drive expression only in petals of transgenic Arabidopsis, highlighting the existence of Nigella-specific cis/trans-acting factors in regulating AP3 paralogs., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Society for Experimental Biology. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2023

15. Intact ribosomal DNA arrays of Potentilla origin detected in Erythronium nucleus suggest recent eudicot-to-monocot horizontal transfer.

Author

Bartha L, Mandáková T, Kovařík A, Bulzu PA, Rodde N, Mahelka V, Lysak MA, Fustier MA, Šafář J, Cápal P, Keresztes L, and Banciu HL

Subjects

DNA, Ribosomal genetics, DNA, Ribosomal Spacer genetics, In Situ Hybridization, Fluorescence, Phylogeny, Liliaceae, Potentilla genetics

Abstract

During our initial phylogenetic study of the monocot genus Erythronium (Liliaceae), we observed peculiar eudicot-type internal transcribed spacer (ITS) sequences in a dataset derived from genomic DNA of Erythronium dens-canis. This raised the possibility of horizontal transfer of a eudicot alien ribosomal DNA (rDNA) into the Erythronium genome. In this work we aimed to support this hypothesis by carrying out genomic, molecular, and cytogenetic analyses. Genome skimming coupled by PacBio HiFi sequencing of a bacterial artificial chromosome clone derived from flow-sorted nuclei was used to characterise the alien 45S rDNA. Integration of alien rDNA in the recipient genome was further proved by Southern blotting and fluorescence in situ hybridization using specific probes. Alien rDNA, nested among Potentilla species in phylogenetic analysis, likely entered the Erythronium lineage in the common ancestor of E. dens-canis and E. caucasicum. Transferred eudicot-type rDNA preserved its tandemly arrayed feature on a single chromosome and was found to be transcribed in the monocot host, albeit much less efficiently than the native counterpart. This study adds a new example to the rarely documented nuclear-to-nuclear jumps of DNA between eudicots and monocots while holding the scientific community continually in suspense about the mode of DNA transfer., (© 2022 The Authors. New Phytologist © 2022 New Phytologist Foundation.)

Published

2022

16. The haplotype-resolved chromosome pairs of a heterozygous diploid African cassava cultivar reveal novel pan-genome and allele-specific transcriptome features.

Author

Qi W, Lim YW, Patrignani A, Schläpfer P, Bratus-Neuenschwander A, Grüter S, Chanez C, Rodde N, Prat E, Vautrin S, Fustier MA, Pratas D, Schlapbach R, and Gruissem W

Subjects

Alleles, Chromosomes, Diploidy, Haplotypes, Plant Breeding, Sequence Analysis, DNA, Transcriptome, Manihot genetics

Abstract

Background: Cassava (Manihot esculenta) is an important clonally propagated food crop in tropical and subtropical regions worldwide. Genetic gain by molecular breeding has been limited, partially because cassava is a highly heterozygous crop with a repetitive and difficult-to-assemble genome., Findings: Here we demonstrate that Pacific Biosciences high-fidelity (HiFi) sequencing reads, in combination with the assembler hifiasm, produced genome assemblies at near complete haplotype resolution with higher continuity and accuracy compared to conventional long sequencing reads. We present 2 chromosome-scale haploid genomes phased with Hi-C technology for the diploid African cassava variety TME204. With consensus accuracy >QV46, contig N50 >18 Mb, BUSCO completeness of 99%, and 35k phased gene loci, it is the most accurate, continuous, complete, and haplotype-resolved cassava genome assembly so far. Ab initio gene prediction with RNA-seq data and Iso-Seq transcripts identified abundant novel gene loci, with enriched functionality related to chromatin organization, meristem development, and cell responses. During tissue development, differentially expressed transcripts of different haplotype origins were enriched for different functionality. In each tissue, 20-30% of transcripts showed allele-specific expression (ASE) differences. ASE bias was often tissue specific and inconsistent across different tissues. Direction-shifting was observed in <2% of the ASE transcripts. Despite high gene synteny, the HiFi genome assembly revealed extensive chromosome rearrangements and abundant intra-genomic and inter-genomic divergent sequences, with large structural variations mostly related to LTR retrotransposons. We use the reference-quality assemblies to build a cassava pan-genome and demonstrate its importance in representing the genetic diversity of cassava for downstream reference-guided omics analysis and breeding., Conclusions: The phased and annotated chromosome pairs allow a systematic view of the heterozygous diploid genome organization in cassava with improved accuracy, completeness, and haplotype resolution. They will be a valuable resource for cassava breeding and research. Our study may also provide insights into developing cost-effective and efficient strategies for resolving complex genomes with high resolution, accuracy, and continuity., (© The Author(s) 2022. Published by Oxford University Press GigaScience.)

Published

2022

17. Long-read genome sequencing of bread wheat facilitates disease resistance gene cloning.

Author

Athiyannan N, Abrouk M, Boshoff WHP, Cauet S, Rodde N, Kudrna D, Mohammed N, Bettgenhaeuser J, Botha KS, Derman SS, Wing RA, Prins R, and Krattinger SG

Subjects

Bread, Cloning, Molecular, Plant Diseases genetics, Plant Diseases microbiology, Disease Resistance genetics, Triticum genetics, Triticum microbiology

Abstract

The cloning of agronomically important genes from large, complex crop genomes remains challenging. Here we generate a 14.7 gigabase chromosome-scale assembly of the South African bread wheat (Triticum aestivum) cultivar Kariega by combining high-fidelity long reads, optical mapping and chromosome conformation capture. The resulting assembly is an order of magnitude more contiguous than previous wheat assemblies. Kariega shows durable resistance to the devastating fungal stripe rust disease 1 . We identified the race-specific disease resistance gene Yr27, which encodes an intracellular immune receptor, to be a major contributor to this resistance. Yr27 is allelic to the leaf rust resistance gene Lr13; the Yr27 and Lr13 proteins show 97% sequence identity 2,3 . Our results demonstrate the feasibility of generating chromosome-scale wheat assemblies to clone genes, and exemplify that highly similar alleles of a single-copy gene can confer resistance to different pathogens, which might provide a basis for engineering Yr27 alleles with multiple recognition specificities in the future., (© 2022. The Author(s).)

Published

2022

18. Population genomics of apricots unravels domestication history and adaptive events.

Author

Groppi A, Liu S, Cornille A, Decroocq S, Bui QT, Tricon D, Cruaud C, Arribat S, Belser C, Marande W, Salse J, Huneau C, Rodde N, Rhalloussi W, Cauet S, Istace B, Denis E, Carrère S, Audergon JM, Roch G, Lambert P, Zhebentyayeva T, Liu WS, Bouchez O, Lopez-Roques C, Serre RF, Debuchy R, Tran J, Wincker P, Chen X, Pétriacq P, Barre A, Nikolski M, Aury JM, Abbott AG, Giraud T, and Decroocq V

Subjects

Chromosomes, Plant genetics, Disease Resistance genetics, Evolution, Molecular, Fruit classification, Fruit genetics, Fruit growth & development, Gene Flow, Genetic Variation, Life Cycle Stages genetics, Metagenomics, Phenotype, Phylogeny, Prunus armeniaca classification, Prunus armeniaca growth & development, Selection, Genetic, Domestication, Genome, Plant genetics, Prunus armeniaca genetics

Abstract

Among crop fruit trees, the apricot (Prunus armeniaca) provides an excellent model to study divergence and adaptation processes. Here, we obtain nearly 600 Armeniaca apricot genomes and four high-quality assemblies anchored on genetic maps. Chinese and European apricots form two differentiated gene pools with high genetic diversity, resulting from independent domestication events from distinct wild Central Asian populations, and with subsequent gene flow. A relatively low proportion of the genome is affected by selection. Different genomic regions show footprints of selection in European and Chinese cultivated apricots, despite convergent phenotypic traits, with predicted functions in both groups involved in the perennial life cycle, fruit quality and disease resistance. Selection footprints appear more abundant in European apricots, with a hotspot on chromosome 4, while admixture is more pervasive in Chinese cultivated apricots. Our study provides clues to the biology of selected traits and targets for fruit tree research and breeding.

Published

2021

19. Structure of the intergenic spacers in chicken ribosomal DNA.

Author

Dyomin A, Galkina S, Fillon V, Cauet S, Lopez-Roques C, Rodde N, Klopp C, Vignal A, Sokolovskaya A, Saifitdinova A, and Gaginskaya E

Subjects

Animals, Conserved Sequence, DNA, Ribosomal Spacer chemistry, Sequence Homology, Nucleic Acid, Chickens genetics, DNA, Ribosomal genetics, DNA, Ribosomal Spacer genetics

Abstract

Background: Ribosomal DNA (rDNA) repeats are situated in the nucleolus organizer regions (NOR) of chromosomes and transcribed into rRNA for ribosome biogenesis. Thus, they are an essential component of eukaryotic genomes. rDNA repeat units consist of rRNA gene clusters that are transcribed into single pre-rRNA molecules, each separated by intergenic spacers (IGS) that contain regulatory elements for rRNA gene cluster transcription. Because of their high repeat content, rDNA sequences are usually absent from genome assemblies. In this work, we used the long-read sequencing technology to describe the chicken IGS and fill the knowledge gap on rDNA sequences of one of the key domesticated animals., Methods: We used the long-read PacBio RSII technique to sequence the BAC clone WAG137G04 (Wageningen BAC library) known to contain chicken NOR elements and the HGAP workflow software suit to assemble the PacBio RSII reads. Whole-genome sequence contigs homologous to the chicken rDNA repetitive unit were identified based on the Gallus&#95;gallus-5.0 assembly with BLAST. We used the Geneious 9.0.5 and Mega software, maximum likelihood method and Chickspress project for sequence evolution analysis, phylogenetic tree construction and analysis of the raw transcriptome data., Results: Three complete IGS sequences in the White Leghorn chicken genome and one IGS sequence in the red junglefowl contig AADN04001305.1 (Gallus&#95;gallus-5.0) were detected. They had various lengths and contained three groups of tandem repeats (some of them being very GC rich) that form highly organized arrays. Initiation and termination sites of rDNA transcription were located within small and large unique regions (SUR and LUR), respectively. No functionally significant sites were detected within the tandem repeat sequences., Conclusions: Due to the highly organized GC-rich repeats, the structure of the chicken IGS differs from that of IGS in human, apes, Xenopus or fish rDNA. However, the chicken IGS shares some molecular organization features with that of the turtles, which are other representatives of the Sauropsida clade that includes birds and reptiles. Our current results on the structure of chicken IGS together with the previously reported ribosomal gene cluster sequence provide sufficient data to consider that the complete chicken rDNA sequence is assembled with confidence in terms of molecular DNA organization.

Published

2019

20. Gene Duplication in the Sugarcane Genome: A Case Study of Allele Interactions and Evolutionary Patterns in Two Genic Regions.

Author

Sforça DA, Vautrin S, Cardoso-Silva CB, Mancini MC, Romero-da Cruz MV, Pereira GDS, Conte M, Bellec A, Dahmer N, Fourment J, Rodde N, Van Sluys MA, Vicentini R, Garcia AAF, Forni-Martins ER, Carneiro MS, Hoffmann HP, Pinto LR, Landell MGA, Vincentz M, Berges H, and de Souza AP

Abstract

Sugarcane ( Saccharum spp.) is highly polyploid and aneuploid. Modern cultivars are derived from hybridization between S. officinarum and S. spontaneum . This combination results in a genome exhibiting variable ploidy among different loci, a huge genome size (~10 Gb) and a high content of repetitive regions. An approach using genomic, transcriptomic, and genetic mapping can improve our knowledge of the behavior of genetics in sugarcane. The hypothetical HP600 and Centromere Protein C ( CENP-C ) genes from sugarcane were used to elucidate the allelic expression and genomic and genetic behaviors of this complex polyploid. The physically linked side-by-side genes HP600 and CENP-C were found in two different homeologous chromosome groups with ploidies of eight and ten. The first region (Region01) was a Sorghum bicolor ortholog region with all haplotypes of HP600 and CENP-C expressed, but HP600 exhibited an unbalanced haplotype expression. The second region (Region02) was a scrambled sugarcane sequence formed from different noncollinear genes containing partial duplications of HP600 and CENP-C (paralogs). This duplication resulted in a non-expressed HP600 pseudogene and a recombined fusion version of CENP-C and the orthologous gene Sobic.003G299500 with at least two chimeric gene haplotypes expressed. It was also determined that it occurred before Saccharum genus formation and after the separation of sorghum and sugarcane. A linkage map was constructed using markers from nonduplicated Region01 and for the duplication (Region01 and Region02). We compare the physical and linkage maps, demonstrating the possibility of mapping markers located in duplicated regions with markers in nonduplicated region. Our results contribute directly to the improvement of linkage mapping in complex polyploids and improve the integration of physical and genetic data for sugarcane breeding programs. Thus, we describe the complexity involved in sugarcane genetics and genomics and allelic dynamics, which can be useful for understanding complex polyploid genomes.

Published

2019

21. A gene-rich fraction analysis of the Passiflora edulis genome reveals highly conserved microsyntenic regions with two related Malpighiales species.

Author

Munhoz CF, Costa ZP, Cauz-Santos LA, Reátegui ACE, Rodde N, Cauet S, Dornelas MC, Leroy P, Varani AM, Bergès H, and Vieira MLC

Subjects

Gene Library, Manihot genetics, Populus genetics, Sequence Analysis, DNA, Gene Order, Genome, Plant, Passiflora genetics, Synteny

Abstract

Passiflora edulis is the most widely cultivated species of passionflowers, cropped mainly for industrialized juice production and fresh fruit consumption. Despite its commercial importance, little is known about the genome structure of P. edulis. To fill in this gap in our knowledge, a genomic library was built, and now completely sequenced over 100 large-inserts. Sequencing data were assembled from long sequence reads, and structural sequence annotation resulted in the prediction of about 1,900 genes, providing data for subsequent functional analysis. The richness of repetitive elements was also evaluated. Microsyntenic regions of P. edulis common to Populus trichocarpa and Manihot esculenta, two related Malpighiales species with available fully sequenced genomes were examined. Overall, gene order was well conserved, with some disruptions of collinearity identified as rearrangements, such as inversion and translocation events. The microsynteny level observed between the P. edulis sequences and the compared genomes is surprising, given the long divergence time that separates them from the common ancestor. P. edulis gene-rich segments are more compact than those of the other two species, even though its genome is much larger. This study provides a first accurate gene set for P. edulis, opening the way for new studies on the evolutionary issues in Malpighiales genomes.

Published

2018

22. Laser Capture Micro-Dissection Coupled to RNA Sequencing: A Powerful Approach Applied to the Model Legume Medicago truncatula in Interaction with Sinorhizobium meliloti.

Author

Roux B, Rodde N, Moreau S, Jardinaud MF, and Gamas P

Subjects

Paraffin Embedding, RNA, Plant genetics, RNA, Plant isolation & purification, RNA, Ribosomal genetics, Tissue Fixation, Laser Capture Microdissection methods, Medicago truncatula genetics, Medicago truncatula microbiology, Models, Biological, Sequence Analysis, RNA methods, Sinorhizobium meliloti physiology

Abstract

Understanding the development of multicellular organisms requires the identification of regulators, notably transcription factors, and specific transcript populations associated with tissue differentiation. Laser capture microdissection (LCM) is one of the techniques that enable the analysis of distinct tissues or cells within an organ. Coupling this technique with RNA sequencing (RNAseq) makes it extremely powerful to obtain a genome-wide and dynamic view of gene expression. Moreover, RNA sequencing allows two or potentially more interacting organisms to be analyzed simultaneously. In this chapter, a LCM-RNAseq protocol optimized for root and symbiotic root nodule analysis is presented, using the model legume Medicago truncatula (in interaction with Sinorhizobium meliloti in the nodule samples). This includes the description of procedures for plant material fixation, embedding, and micro-dissection; it is followed by a presentation of techniques for RNA extraction and amplification, adapted for the simultaneous analysis of plant and bacterial cells in interaction or, more generally, polyadenylated and non-polyadenylated RNAs. Finally, step-by-step statistical analyses of RNAseq data are described. Those are critical for quality assessment of the whole procedure and for the identification of differentially expressed genes.

Published

2018

23. Genome-Wide Identification of the Mutation Underlying Fleece Variation and Discriminating Ancestral Hairy Species from Modern Woolly Sheep.

Author

Demars J, Cano M, Drouilhet L, Plisson-Petit F, Bardou P, Fabre S, Servin B, Sarry J, Woloszyn F, Mulsant P, Foulquier D, Carrière F, Aletru M, Rodde N, Cauet S, Bouchez O, Pirson M, Tosser-Klopp G, and Allain D

Subjects

Animals, Biological Evolution, Carrier Proteins genetics, DNA, Ancient, Genetic Variation genetics, Genome, Genome-Wide Association Study methods, Mutation, Phenotype, Transcription Factors genetics, Wool, Sheep genetics, Sheep, Domestic genetics

Abstract

The composition and structure of fleece variation observed in mammals is a consequence of a strong selective pressure for fiber production after domestication. In sheep, fleece variation discriminates ancestral species carrying a long and hairy fleece from modern domestic sheep (Ovis aries) owning a short and woolly fleece. Here, we report that the "woolly" allele results from the insertion of an antisense EIF2S2 retrogene (called asEIF2S2) into the 3' UTR of the IRF2BP2 gene leading to an abnormal IRF2BP2 transcript. We provide evidence that this chimeric IRF2BP2/asEIF2S2 messenger 1) targets the genuine sense EIF2S2 RNA and 2) creates a long endogenous double-stranded RNA which alters the expression of both EIF2S2 and IRF2BP2 mRNA. This represents a unique example of a phenotype arising via a RNA-RNA hybrid, itself generated through a retroposition mechanism. Our results bring new insights on the sheep population history thanks to the identification of the molecular origin of an evolutionary phenotypic variation., (© The Author 2017. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published

2017

24. The Chloroplast Genome of Passiflora edulis (Passifloraceae) Assembled from Long Sequence Reads: Structural Organization and Phylogenomic Studies in Malpighiales.

Author

Cauz-Santos LA, Munhoz CF, Rodde N, Cauet S, Santos AA, Penha HA, Dornelas MC, Varani AM, Oliveira GC, Bergès H, and Vieira ML

Abstract

The family Passifloraceae consists of some 700 species classified in around 16 genera. Almost all its members belong to the genus Passiflora . In Brazil, the yellow passion fruit ( Passiflora edulis ) is of considerable economic importance, both for juice production and consumption as fresh fruit. The availability of chloroplast genomes (cp genomes) and their sequence comparisons has led to a better understanding of the evolutionary relationships within plant taxa. In this study, we obtained the complete nucleotide sequence of the P. edulis chloroplast genome, the first entirely sequenced in the Passifloraceae family. We determined its structure and organization, and also performed phylogenomic studies on the order Malpighiales and the Fabids clade. The P. edulis chloroplast genome is characterized by the presence of two copies of an inverted repeat sequence (IRA and IRB) of 26,154 bp, each separating a small single copy region of 13,378 bp and a large single copy (LSC) region of 85,720 bp. The annotation resulted in the identification of 105 unique genes, including 30 tRNAs, 4 rRNAs, and 71 protein coding genes. Also, 36 repetitive elements and 85 SSRs (microsatellites) were identified. The structure of the complete cp genome of P. edulis differs from that of other species because of rearrangement events detected by means of a comparison based on 22 members of the Malpighiales. The rearrangements were three inversions of 46,151, 3,765 and 1,631 bp, located in the LSC region. Phylogenomic analysis resulted in strongly supported trees, but this could also be a consequence of the limited taxonomic sampling used. Our results have provided a better understanding of the evolutionary relationships in the Malpighiales and the Fabids, confirming the potential of complete chloroplast genome sequences in inferring evolutionary relationships and the utility of long sequence reads for generating very accurate biological information.

Published

2017

25. A Laser Dissection-RNAseq Analysis Highlights the Activation of Cytokinin Pathways by Nod Factors in the Medicago truncatula Root Epidermis.

Author

Jardinaud MF, Boivin S, Rodde N, Catrice O, Kisiala A, Lepage A, Moreau S, Roux B, Cottret L, Sallet E, Brault M, Emery RJ, Gouzy J, Frugier F, and Gamas P

Subjects

Gene Expression Regulation, Plant, Lasers, Lipopolysaccharides pharmacology, Medicago truncatula genetics, Plant Epidermis drug effects, Plant Epidermis genetics, Plant Proteins genetics, Plant Proteins metabolism, Plant Roots genetics, Plants, Genetically Modified, Root Nodules, Plant genetics, Root Nodules, Plant metabolism, Sequence Analysis, RNA methods, Signal Transduction, Cytokinins metabolism, Lipopolysaccharides metabolism, Medicago truncatula metabolism, Plant Epidermis metabolism, Plant Roots metabolism

Abstract

Nod factors (NFs) are lipochitooligosaccharidic signal molecules produced by rhizobia, which play a key role in the rhizobium-legume symbiotic interaction. In this study, we analyzed the gene expression reprogramming induced by purified NF (4 and 24 h of treatment) in the root epidermis of the model legume Medicago truncatula Tissue-specific transcriptome analysis was achieved by laser-capture microdissection coupled to high-depth RNA sequencing. The expression of 17,191 genes was detected in the epidermis, among which 1,070 were found to be regulated by NF addition, including previously characterized NF-induced marker genes. Many genes exhibited strong levels of transcriptional activation, sometimes only transiently at 4 h, indicating highly dynamic regulation. Expression reprogramming affected a variety of cellular processes, including perception, signaling, regulation of gene expression, as well as cell wall, cytoskeleton, transport, metabolism, and defense, with numerous NF-induced genes never identified before. Strikingly, early epidermal activation of cytokinin (CK) pathways was indicated, based on the induction of CK metabolic and signaling genes, including the CRE1 receptor essential to promote nodulation. These transcriptional activations were independently validated using promoter:β-glucuronidase fusions with the MtCRE1 CK receptor gene and a CK response reporter (TWO COMPONENT SIGNALING SENSOR NEW). A CK pretreatment reduced the NF induction of the EARLY NODULIN11 (ENOD11) symbiotic marker, while a CK-degrading enzyme (CYTOKININ OXIDASE/DEHYDROGENASE3) ectopically expressed in the root epidermis led to increased NF induction of ENOD11 and nodulation. Therefore, CK may play both positive and negative roles in M. truncatula nodulation., (© 2016 American Society of Plant Biologists. All Rights Reserved.)

Published

2016

26. An integrated analysis of plant and bacterial gene expression in symbiotic root nodules using laser-capture microdissection coupled to RNA sequencing.

Author

Roux B, Rodde N, Jardinaud MF, Timmers T, Sauviac L, Cottret L, Carrère S, Sallet E, Courcelle E, Moreau S, Debellé F, Capela D, de Carvalho-Niebel F, Gouzy J, Bruand C, and Gamas P

Subjects

Gene Expression, Gene Expression Profiling, Genes, Bacterial genetics, Medicago truncatula cytology, Meristem genetics, Nitrogen Fixation, Plant Roots genetics, Root Nodules, Plant genetics, Sinorhizobium meliloti cytology, Symbiosis, Gene Expression Regulation, Plant, Laser Capture Microdissection methods, Medicago truncatula genetics, Sequence Analysis, RNA methods, Sinorhizobium meliloti genetics

Abstract

Rhizobium-induced root nodules are specialized organs for symbiotic nitrogen fixation. Indeterminate-type nodules are formed from an apical meristem and exhibit a spatial zonation which corresponds to successive developmental stages. To get a dynamic and integrated view of plant and bacterial gene expression associated with nodule development, we used a sensitive and comprehensive approach based upon oriented high-depth RNA sequencing coupled to laser microdissection of nodule regions. This study, focused on the association between the model legume Medicago truncatula and its symbiont Sinorhizobium meliloti, led to the production of 942 million sequencing read pairs that were unambiguously mapped on plant and bacterial genomes. Bioinformatic and statistical analyses enabled in-depth comparison, at a whole-genome level, of gene expression in specific nodule zones. Previously characterized symbiotic genes displayed the expected spatial pattern of expression, thus validating the robustness of our approach. We illustrate the use of this resource by examining gene expression associated with three essential elements of nodule development, namely meristem activity, cell differentiation and selected signaling processes related to bacterial Nod factors and redox status. We found that transcription factor genes essential for the control of the root apical meristem were also expressed in the nodule meristem, while the plant mRNAs most enriched in nodules compared with roots were mostly associated with zones comprising both plant and bacterial partners. The data, accessible on a dedicated website, represent a rich resource for microbiologists and plant biologists to address a variety of questions of both fundamental and applied interest., (© 2014 The Authors The Plant Journal © 2014 John Wiley & Sons Ltd.)

Published

2014

27. Uncoupled embryonic and extra-embryonic tissues compromise blastocyst development after somatic cell nuclear transfer.

Author

Degrelle SA, Jaffrezic F, Campion E, Lê Cao KA, Le Bourhis D, Richard C, Rodde N, Fleurot R, Everts RE, Lecardonnel J, Heyman Y, Vignon X, Yang X, Tian XC, Lewin HA, Renard JP, and Hue I

Subjects

Animals, Case-Control Studies, Cattle, Cell Differentiation physiology, DNA Primers genetics, Embryo Transfer veterinary, Extraembryonic Membranes ultrastructure, Female, Gene Expression Regulation, Developmental genetics, Gene Regulatory Networks genetics, In Situ Hybridization veterinary, Microscopy, Electron, Scanning veterinary, Nuclear Transfer Techniques adverse effects, Pregnancy, Real-Time Polymerase Chain Reaction veterinary, Sex Determination Analysis veterinary, Blastocyst physiology, Cell Communication physiology, Embryonic Development physiology, Extraembryonic Membranes physiopathology, Gene Expression Regulation, Developmental physiology, Nuclear Transfer Techniques veterinary

Abstract

Somatic cell nuclear transfer (SCNT) is the most efficient cell reprogramming technique available, especially when working with bovine species. Although SCNT blastocysts performed equally well or better than controls in the weeks following embryo transfer at Day 7, elongation and gastrulation defects were observed prior to implantation. To understand the developmental implications of embryonic/extra-embryonic interactions, the morphological and molecular features of elongating and gastrulating tissues were analysed. At Day 18, 30 SCNT conceptuses were compared to 20 controls (AI and IVP: 10 conceptuses each); one-half of the SCNT conceptuses appeared normal while the other half showed signs of atypical elongation and gastrulation. SCNT was also associated with a high incidence of discordance in embryonic and extra-embryonic patterns, as evidenced by morphological and molecular "uncoupling". Elongation appeared to be secondarily affected; only 3 of 30 conceptuses had abnormally elongated shapes and there were very few differences in gene expression when they were compared to the controls. However, some of these differences could be linked to defects in microvilli formation or extracellular matrix composition and could thus impact extra-embryonic functions. In contrast to elongation, gastrulation stages included embryonic defects that likely affected the hypoblast, the epiblast, or the early stages of their differentiation. When taking into account SCNT conceptus somatic origin, i.e. the reprogramming efficiency of each bovine ear fibroblast (Low: 0029, Med: 7711, High: 5538), we found that embryonic abnormalities or severe embryonic/extra-embryonic uncoupling were more tightly correlated to embryo loss at implantation than were elongation defects. Alternatively, extra-embryonic differences between SCNT and control conceptuses at Day 18 were related to molecular plasticity (high efficiency/high plasticity) and subsequent pregnancy loss. Finally, because it alters re-differentiation processes in vivo, SCNT reprogramming highlights temporally and spatially restricted interactions among cells and tissues in a unique way.

Published

2012

28. An insight into normal and pathological pregnancies using large-scale microarrays: lessons from microarrays.

Author

Chaouat G, Rodde N, Petitbarat M, Bulla R, Rahmati M, Dubanchet S, Zourbas S, Bataillon I, Coqué N, Hennuy B, Martal J, Munaut C, Aubert J, Sérazin V, Steffen T, Jensenius JC, Foidart JM, Sandra O, Tedesco F, and Lédée N

Subjects

Animals, Disease Models, Animal, Female, Gene Expression Profiling methods, Humans, Male, Mice, Mice, Inbred BALB C, Mice, Inbred CBA, Mice, Inbred DBA, Oligonucleotide Array Sequence Analysis methods, Pre-Eclampsia genetics, Pre-Eclampsia immunology, Pregnancy, Gene Expression Regulation immunology, Immune Tolerance, Pre-Eclampsia metabolism

Abstract

In the introduction, we briefly recall old but classic evidence that there is no tolerance to paternal alloantigens in a first pregnancy. Therefore, we performed small- and large-scale microarrays in CBA × DBA/2 and CBA × BALB/c combinations, recently described as a murine model for preeclampsia. Our results are in line with other data suggesting a very early deregulation of local immune vascular events rather than a break of immune tolerance. Other data presented at the Tioman 2010 Preeclampsia Workshop supporting this hypothesis are briefly summarised, as well as indications and caveats from a recent human microarray on implantation failure and recurrent pregnancy loss., (Copyright © 2011 Elsevier Ireland Ltd. All rights reserved.)

Published

2011