Your search keyword '"Hilliou, F"' showing total 49 results

1. Particle Gun Methodology as a Tool in Metabolic Engineering

Author

Leech, M. J., Burtin, D., Hallard, D., Hilliou, F., Kemp, B., Palacios, N., Rocha, P., O’Callaghan, D., Verpoorte, R., Christou, P., Verpoorte, Robert, editor, and Alfermann, A. W., editor

Published

2000

2. Adaptation by copy number variation increases insecticide resistance in the fall armyworm

Author

Gimenez, S., Abdelgaffar, H., Le Goff, G., Hilliou, F., Blanco, C., Hänniger, S., Bretaudeau, A., Legeai, F., Nègre, N., Jurat-Fuentes, J., and Nam, E.

Published

2020

3. Nuclear factors GT-1 and 3AF1 interact with multiple sequences within the promoter of the Tdc gene from Madagascar periwinkle: GT-1 is involved in UV light-induced expression

Author

Ouwerkerk, P. B. F., Trimborn, T. O., Hilliou, F., and Memelink, J.

Published

1999

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

Author

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

Subjects

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

Abstract

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

Published

2020

5. The genome sequence of the grape phylloxera provides insights into the evolution, adaptation, and invasion routes of an iconic pest

Author

Rispe, C, Legeai, F, Nabity, PD, Fernandez, R, Arora, AK, Baa-Puyoulet, P, Banfill, CR, Bao, L, Barbera, M, Bouallegue, M, Bretaudeau, A, Brisson, JA, Calevro, F, Capy, P, Catrice, O, Chertemps, T, Couture, C, Deliere, L, Douglas, AE, Dufault-Thompson, K, Escuer, P, Feng, H, Forneck, A, Gabaldon, T, Guigo, R, Hilliou, F, Hinojosa-Alvarez, S, Hsiao, Y-M, Hudaverdian, S, Jacquin-Joly, E, James, EB, Johnston, S, Joubard, B, Le Goff, G, Le Trionnaire, G, Librado, P, Liu, S, Lombaert, E, Lu, H-L, Maibeche, M, Makni, M, Marcet-Houben, M, Martinez-Torres, D, Meslin, C, Montagne, N, Moran, NA, Papura, D, Parisot, N, Rahbe, Y, Lopes, MR, Ripoll-Cladellas, A, Robin, S, Roques, C, Roux, P, Rozas, J, Sanchez-Gracia, A, Sanchez-Herrero, JF, Santesmasses, D, Scatoni, I, Serre, R-F, Tang, M, Tian, W, Umina, PA, van Munster, M, Vincent-Monegat, C, Wemmer, J, Wilson, ACC, Zhang, Y, Zhao, C, Zhao, J, Zhao, S, Zhou, X, Delmotte, F, Tagu, D, Rispe, C, Legeai, F, Nabity, PD, Fernandez, R, Arora, AK, Baa-Puyoulet, P, Banfill, CR, Bao, L, Barbera, M, Bouallegue, M, Bretaudeau, A, Brisson, JA, Calevro, F, Capy, P, Catrice, O, Chertemps, T, Couture, C, Deliere, L, Douglas, AE, Dufault-Thompson, K, Escuer, P, Feng, H, Forneck, A, Gabaldon, T, Guigo, R, Hilliou, F, Hinojosa-Alvarez, S, Hsiao, Y-M, Hudaverdian, S, Jacquin-Joly, E, James, EB, Johnston, S, Joubard, B, Le Goff, G, Le Trionnaire, G, Librado, P, Liu, S, Lombaert, E, Lu, H-L, Maibeche, M, Makni, M, Marcet-Houben, M, Martinez-Torres, D, Meslin, C, Montagne, N, Moran, NA, Papura, D, Parisot, N, Rahbe, Y, Lopes, MR, Ripoll-Cladellas, A, Robin, S, Roques, C, Roux, P, Rozas, J, Sanchez-Gracia, A, Sanchez-Herrero, JF, Santesmasses, D, Scatoni, I, Serre, R-F, Tang, M, Tian, W, Umina, PA, van Munster, M, Vincent-Monegat, C, Wemmer, J, Wilson, ACC, Zhang, Y, Zhao, C, Zhao, J, Zhao, S, Zhou, X, Delmotte, F, and Tagu, D

Abstract

Background Although native to North America, the invasion of the aphid-like grape phylloxera Daktulosphaira vitifoliae across the globe altered the course of grape cultivation. For the past 150 years, viticulture relied on grafting-resistant North American Vitis species as rootstocks, thereby limiting genetic stocks tolerant to other stressors such as pathogens and climate change. Limited understanding of the insect genetics resulted in successive outbreaks across the globe when rootstocks failed. Here we report the 294-Mb genome of D. vitifoliae as a basic tool to understand host plant manipulation, nutritional endosymbiosis, and enhance global viticulture. Results Using a combination of genome, RNA, and population resequencing, we found grape phylloxera showed high duplication rates since its common ancestor with aphids, but similarity in most metabolic genes, despite lacking obligate nutritional symbioses and feeding from parenchyma. Similarly, no enrichment occurred in development genes in relation to viviparity. However, phylloxera evolved > 2700 unique genes that resemble putative effectors and are active during feeding. Population sequencing revealed the global invasion began from the upper Mississippi River in North America, spread to Europe and from there to the rest of the world. Conclusions The grape phylloxera genome reveals genetic architecture relative to the evolution of nutritional endosymbiosis, viviparity, and herbivory. The extraordinary expansion in effector genes also suggests novel adaptations to plant feeding and how insects induce complex plant phenotypes, for instance galls. Finally, our understanding of the origin of this invasive species and its genome provide genetics resources to alleviate rootstock bottlenecks restricting the advancement of viticulture.

Published

2020

6. The genome sequence of the grape phylloxera provides insights into the evolution, adaptation, and invasion routes of an iconic pest (vol 18, 90, 2020)

Author

Rispe, C, Legeai, F, Nabity, PD, Fernandez, R, Arora, AK, Baa-Puyoulet, P, Banfill, CR, Bao, L, Barbera, M, Bouallegue, M, Bretaudeau, A, Brisson, JA, Calevro, F, Capy, P, Catrice, O, Chertemps, T, Couture, C, Deliere, L, Douglas, AE, Dufault-Thompson, K, Escuer, P, Feng, H, Forneck, A, Gabaldon, T, Guigo, R, Hilliou, F, Hinojosa-Alvarez, S, Hsiao, Y-M, Hudaverdian, S, Jacquin-Joly, E, James, EB, Johnston, S, Joubard, B, Le Goff, G, Le Trionnaire, G, Librado, P, Liu, S, Lombaert, E, Lu, H-L, Maibeche, M, Makni, M, Marcet-Houben, M, Martinez-Torres, D, Meslin, C, Montagne, N, Moran, NA, Papura, D, Parisot, N, Rahbe, Y, Lopes, MR, Ripoll-Cladellas, A, Robin, S, Roques, C, Roux, P, Rozas, J, Sanchez-Gracia, A, Sanchez-Herrero, JF, Santesmasses, D, Scatoni, I, Serre, R-F, Tang, M, Tian, W, Umina, PA, van Munster, M, Vincent-Monegat, C, Wemmer, J, Wilson, ACC, Zhang, Y, Zhao, C, Zhao, J, Zhao, S, Zhou, X, Delmotte, F, Tagu, D, Rispe, C, Legeai, F, Nabity, PD, Fernandez, R, Arora, AK, Baa-Puyoulet, P, Banfill, CR, Bao, L, Barbera, M, Bouallegue, M, Bretaudeau, A, Brisson, JA, Calevro, F, Capy, P, Catrice, O, Chertemps, T, Couture, C, Deliere, L, Douglas, AE, Dufault-Thompson, K, Escuer, P, Feng, H, Forneck, A, Gabaldon, T, Guigo, R, Hilliou, F, Hinojosa-Alvarez, S, Hsiao, Y-M, Hudaverdian, S, Jacquin-Joly, E, James, EB, Johnston, S, Joubard, B, Le Goff, G, Le Trionnaire, G, Librado, P, Liu, S, Lombaert, E, Lu, H-L, Maibeche, M, Makni, M, Marcet-Houben, M, Martinez-Torres, D, Meslin, C, Montagne, N, Moran, NA, Papura, D, Parisot, N, Rahbe, Y, Lopes, MR, Ripoll-Cladellas, A, Robin, S, Roques, C, Roux, P, Rozas, J, Sanchez-Gracia, A, Sanchez-Herrero, JF, Santesmasses, D, Scatoni, I, Serre, R-F, Tang, M, Tian, W, Umina, PA, van Munster, M, Vincent-Monegat, C, Wemmer, J, Wilson, ACC, Zhang, Y, Zhao, C, Zhao, J, Zhao, S, Zhou, X, Delmotte, F, and Tagu, D

Abstract

An amendment to this paper has been published and can be accessed via the original article.

Published

2020

7. Gene expression profiling of Spodoptera frugiperda hemocytes and fat body using cDNA microarray reveals polydnavirus-associated variations in lepidopteran host genes transcript levels

Author

Feyereisen R, Delobel P, Galibert L, Ravallec M, Rocher J, Deleury E, Sofer L, Jousset F-X, Hilliou F, Barat-Houari M, Fournier P, and Volkoff A-N

Subjects

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

Abstract

Abstract Background Genomic approaches provide unique opportunities to study interactions of insects with their pathogens. We developed a cDNA microarray to analyze the gene transcription profile of the lepidopteran pest Spodoptera frugiperda in response to injection of the polydnavirus HdIV associated with the ichneumonid wasp Hyposoter didymator. Polydnaviruses are associated with parasitic ichneumonoid wasps and are required for their development within the lepidopteran host, in which they act as potent immunosuppressive pathogens. In this study, we analyzed transcriptional variations in the two main effectors of the insect immune response, the hemocytes and the fat body, after injection of filter-purified HdIV. Results Results show that 24 hours post-injection, about 4% of the 1750 arrayed host genes display changes in their transcript levels with a large proportion (76%) showing a decrease. As a comparison, in S. frugiperda fat body, after injection of the pathogenic JcDNV densovirus, 8 genes display significant changes in their transcript level. They differ from the 7 affected by HdIV and, as opposed to HdIV injection, are all up-regulated. Interestingly, several of the genes that are modulated by HdIV injection have been shown to be involved in lepidopteran innate immunity. Levels of transcripts related to calreticulin, prophenoloxidase-activating enzyme, immulectin-2 and a novel lepidopteran scavenger receptor are decreased in hemocytes of HdIV-injected caterpillars. This was confirmed by quantitative RT-PCR analysis but not observed after injection of heat-inactivated HdIV. Conversely, an increased level of transcripts was found for a galactose-binding lectin and, surprisingly, for the prophenoloxidase subunits. The results obtained suggest that HdIV injection affects transcript levels of genes encoding different components of the host immune response (non-self recognition, humoral and cellular responses). Conclusion This analysis of the host-polydnavirus interactions by a microarray approach indicates that the presence of HdIV induces, directly or indirectly, variations in transcript levels of specific host genes, changes that could be responsible in part for the alterations observed in the parasitized host physiology. Development of such global approaches will allow a better understanding of the strategies employed by parasites to manipulate their host physiology, and will permit the identification of potential targets of the immunosuppressive polydnaviruses.

Published

2006

8. Two genomes of highly polyphagous lepidopteran pests (Spodoptera frugiperda, Noctuidae) with different host-plant ranges

Author

Gouin, A., Bretaudeau, A., Nam, K., Gimenez, S., Aury, J., Duvic, B., Hilliou, F., Durand, N., Montagné, N., Darboux, I., Kuwar, S., Chertemps, T., Siaussat, D., Bretschneider, A., Moné, Y., Ahn, S., Hänniger, S., Grenet, A., Neunemann, D., Maumus, F., Luyten, I., Labadie, K., Xu, W., Koutroumpa, F., Escoubas, J., Llopis, A., Maïbèche-Coisne, M., Salasc, F., Tomar, A., Anderson, A., Khan, S., Dumas, P., Orsucci, M., Guy, J., Belser, C., Alberti, A., Noel, B., Couloux, A., Mercier, J., Nidelet, S., Dubois, E., Liu, N., Boulogne, I., Mirabeau, O., Le Goff, G., Gordon, K., Oakeshott, J., Consoli, F., Volkoff, A., Fescemyer, H., Marden, J., Luthe, D., Herrero, S., Heckel, D., Wincker, P., Kergoat, G., Amselem, J., Quesneville, H., Groot, A., Jacquin-Joly, E., Nègre, N., Lemaitre, C., Legeai, F., and Fournier, E.

Subjects

fungi

Abstract

Emergence of polyphagous herbivorous insects entails significant adaptation to recognize, detoxify and digest a variety of host-plants. Despite of its biological and practical importance - since insects eat 20% of crops - no exhaustive analysis of gene repertoires required for adaptations in generalist insect herbivores has previously been performed. The noctuid moth Spodoptera frugiperda ranks as one of the world’s worst agricultural pests. This insect is polyphagous while the majority of other lepidopteran herbivores are specialist. It consists of two morphologically indistinguishable strains (“C” and “R”) that have different host plant ranges. To describe the evolutionary mechanisms that both enable the emergence of polyphagous herbivory and lead to the shift in the host preference, we analyzed whole genome sequences from laboratory and natural populations of both strains. We observed huge expansions of genes associated with chemosensation and detoxification compared with specialist Lepidoptera. These expansions are largely due to tandem duplication, a possible adaptation mechanism enabling polyphagy. Individuals from natural C and R populations show significant genomic differentiation. We found signatures of positive selection in genes involved in chemoreception, detoxification and digestion, and copy number variation in the two latter gene families, suggesting an adaptive role for structural variation.

Published

2017

9. Cytochrome P450s from the fall armyworm (Spodoptera frugiperda): responses to plant allelochemicals and pesticides

Author

Giraudo, M., primary, Hilliou, F., additional, Fricaux, T., additional, Audant, P., additional, Feyereisen, R., additional, and Le Goff, G., additional

Published

2014

10. Gene expression profiling of Spodoptera frugiperda hemocytes and fat body using cDNA microarray reveals polydnavirus-associated variations in lepidopteran host genes transcript levels

Author

Barat-Houari, M, primary, Hilliou, F, additional, Jousset, F-X, additional, Sofer, L, additional, Deleury, E, additional, Rocher, J, additional, Ravallec, M, additional, Galibert, L, additional, Delobel, P, additional, Feyereisen, R, additional, Fournier, P, additional, and Volkoff, A-N, additional

Published

2006

11. Impact of punctual mutations in the cap gene of Junonia coenia densovirus (JcDNV) on virus assembly and infectivity to Ld 652 cells and Spodoptera littoralis larvae

Author

Iatrou, Kostas, Couble, Pierre, Abd-Alla, A., Jousset, F-X., Cousserans, F., Bergoin, M., Abe, H., Fujii, T., Mita, K., Ajimura, M., Shimada, T., Sahara, K., Tamura, T., Altstein, M., Hariton, A., Davidovitch, M., Ben-Aziz, O., Barat-Houari, M., Hilliou, F., Jousset, F.-X., Sofer, L., Deleury, E., Rocher, J., Ravallec, M., Galibert, L., Feyereisen, R., Fournier, P., Volkoff, A-N., Baxter, Simon W., Chamberlain, Nicola, Papa, Riccardo, Humphray, Sean J., ffrench-Constant, Richard H., McMillan, W. Owen, Jiggins, Chris D., Behere, G.T., Russell, D., Batterham, P., Tay, W. T., Beldade, P., Rudd, S., Gruber, J.D., Long, A.D., Breugelmans, B., Simonet, G., de Velde, S. Van, Soest, S. Van, Smagghe, G., Broeck, J. Vanden, Clark, R., Brown, S., Heckel, D., Jiggins, C. D., Collins, S., Vogler, A. P, Chamberlain, N., Baxter, S., Jiggins, C., ffrench-Constant, R.H., Chortyk, O., Friz, J., Thompson, C., Kumar, P., Tice, C., Vertin, B., Palli, R., Kumar, M., Meyer, A., Meteyer, T., Smith, H., Cress, D., Li, B., Hormann, R., Collinge, Derek, Gordon, Karl, Behm, Carolyn, Whyard, Steve, Alençon, d', Audant, E., Bernard-Samain, P., Bidegainberry, S., Brehélin, V., Brun-Barale, M., Cousserans, A., Duvic, C., Escoubas, B., Feyereisen, J-M., Fournier, R., Gagneur, Ph., Gordon, C., Gimenez, K., Heckel, S., Hotelier, D., Hilliou, Th., Mita, F., Negre, K., Sabourault, V., Suraporn, C., Volkoff, S., Weissenbach, N., Maria, De Simone Anna, Angela, Sorrentino, Francesca, Di Cara, Polito, Lino, Anna, Digilio F., Drezen, J-M, Bezier, A., Lesobre, J., Huguet, E., Dupuy, C., Eleftherianos, I., Millichap, P. J., Felföldi, G., Gökcen, F., Waterfield, N., Clarke, D. J., ffrench-Constant, R. H., Reynolds, S. E., Elias, M., Joron, M., Willmott, K., Kaiser, V., Silva-Brandão, K. L., Freitas, A.V.L., Arias Mejía, C., Gomez Pineres, L.M., Brower, A.V.Z., Escoubas, J.-M., Girard, P.-A., Volkoff, N., Boublik, Y., D'Alençon, E., Taillez, P., Brehélin, M., Venekei, I., Fischer, H. M., Wheat, C. W., Wittstock, U., Heckel, D. G., Vogel, H., Freitak, D., Katsuma, S., Futahashi, R., Fujiwara, H., Garel, Annie, Briolay, Jérôme, Brouilly, Patrick, Royer, Corinne, Sasanuma, Shun-ichi, Sasanuma, Motoe, Keime, Céline, Gandrillon, Olivier, Chavancy, Gérard, Mita, Kasuei, Geber, M., Faye, I., Terenius, O., Goldsmith, M., Proestou, D., Carter, D., Nicholson, E., Wu, C., Zhang, H., Gopinathan, K. P., Parthasarathy, R., Dhawan, S., Gordon, K., Colebatch, G., Campbell, P.M., Horne, I., East, P.D., Hughes, T.M., Marcus, J.M., Serbielle, C., Douris, V., Lalmanach, G., Iatrou, K., Iga, Masatoshi, Sekimoto, Takayuki, Elmogy, Mohamed, Iwami, Masafumi, Sakurai, Sho, Jacquin-Joly, E., Merlin, C., Malpel, S., Pelletier, J., Brigaud, I., François, M-C., Maïbèche, M., Jarvis, D.L., Aumiller, J.J., Geisler, C., Hensley, J., Hollister, J.R., Shi, X., Jiggins, Chris D, Joron, Mathieu, Mallet, James, Jostova, P., Svatos, A., Pichova, Iva, Kadono-Okuda, K., Ito, K., Nohata, J., Yamamoto, K., Sasanuma, M., Sasanuma, S., Eguchi, R., Hara, W., Kiyokawa, I., Kobayashi, I., Uchino, K., Sezutsu, H., Kanda, T., Miura, T., Ohashi, T., Katayama, K., Kourti, A., Gkouvitsas, T., Kusakabe, T., Mon, H., Takahashi, M., Lee, J.M., Kawaguchi, Y., Labropoulou, V., Stefanou, D., Magkrioti, C., Andronopoulou, E., Swevers, L., Lapointe, R., Tanaka, K., Barney, W., Whitfield, J., Banks, J., Béliveau, C., Stoltz, D., Webb, B.A., Cusson, M., Lee, Siu Fai, Heckel, David G., Li, Yi, Guarino, Linda A., Li, Muwang, Li, Minhui, Guo, Qiuhong, Miao, Xuexia, Hou, Chengxiang, Lin, Hongxuan, Huang, Yongping, Li, Lan, Zheng, Sichun, Ladd, Tim, Zhang, Dayu, Buhlers, Deborah, Krell, Peter J., Arif, Basil M., Retnakaran, Arthur, Feng, Qili, Doucet, Daniel, Machado, Ednildo, Swevers, Luc, Makhijani, Kalpana, Bharathi, V, Kannan, Ramakrishnan, Shashidhara, L S, Mauchamp, Bernard, Jalabert, Audrey, Rocha, Martine Da, Grenier, Anne-Marie, Labas, Valérie, Vinh, Joëlle, Mita, Kazuei, Kadono-Okuda, Keiko, Miao, Yungen, Yue, Wanfu, Li, Xinghua, Wu, Xiaofeng, Miller, T.A., Park, Y., Ren, X., Kasahara, M., Sasaki, S., Nagayasu, Y., Yamada, T., Kanamori, H., Namiki, N., Kitagawa, M., Yamashita, H., Yasukochi, Y., Rvikumar, G., Shimomura, M., Nagamura, Y., Shin-I, T., Morishita, S., Sasaki, T., Sugahara, R., Monteiro, Antónia, Chen, Bin, Ramos, Diane, Kamal, Firdous, Glaser, Gary, Stockslager, Steven, Nieberding, C., Schneider, V., Vos, H. De, Lassance, J.M., Lofstedt, C., Brakefield, P.M., Nighorn, A., Papanicolaou, A., Blaxter, M.L., Jiggins, C.D., Papantonis, A., Sourmeli, S., Lecanidou, R., Rocha, M. Da, Royer, C., Pennacchio, F., Falabella, P., Varricchio, P., Malva, C., Pohl, Nelida, Sison-Mangus, Marilou, Briscoe, Adriana D., Saenko, S.V., Satish, V., Shukla, J.N., Nagaraju, J., Frank, Scholz, Tine, Lesch, Susann, Beez, Traute, Holthusen, Ines, Anderl, Geuenich, Silvia, Tina, Trenczek, Kojima, K., Niimi, T., Hatakeyama, M., Shiotsuki, Takahiro, Tan, An-Jiang, Tamura, Toshiki, Simpson, Robert, Newcomb, Richard, Beuning, Lesley, Yauk, Yah-Khing, Crowhurst, Ross, Gatehouse, Heather, Gatehouse, Laurence, Markwick, Ngaire, Chagne, Dave, Gleave, Andrew, Christeller, John, Strand, M. R., Soin, T., Loocke, K. Van, Wheelock, C., Harada, T., Akamatsu, M., Nakagawa, Y., Truman, JW, Hiruma, K, Allee, JP, MacWhinnie, SGB, Champlin, D, Riddiford, LM, Turnbull, M.W., Vitkova, M., Kubickova, S., Marec, F., Kroymann, J., Mithöfer, A., Boland, W., Vogt, R.G., Franco, M-d., Bohbot, J, Fernandez, K., Kobres, P., Hanna, J., Poppy, J., Webb, Bruce A., Gill, Torrence A., Fath-Goodin, Angelika, Kroemer, Jeremy, Wedde, M., Altincicek, B., Vilcinskas, A., Wee, Choon Wei, Robin, Charles, Heckel, David G, Wheat, Christopher W., Labandeira, Conrad, Andolfatto, P., Feng, Q., Simpson, R., Vogel, Heiko, Williams, A. K., Xia, Qingyou, Zhou, Zeyang, Lu, Cheng, Xiang, Zhonghuai, Zhang, Liang, Yamamoto, Kimiko, Narukawa, Junko, Nohata, Junko, Suetsugu, Yoshitaka, Minami, Hiroshi, Shimomura, Michihiko, Yukuhiro, K., Itoh, M., Banno, Y., Kômoto, N., Kosegawa, E., Hirokawa, M., Tatematsu, K., Nishimura, M., Maekawa, H., Kawanishi, Y., Nakajima, Y., and Krell, Peter J

Subjects

Article

Published

2007

12. Cytochrome P450s from the fall armyworm ( Spodoptera frugiperda): responses to plant allelochemicals and pesticides.

Author

Giraudo, M., Hilliou, F., Fricaux, T., Audant, P., Feyereisen, R., and Le Goff, G.

Subjects

*CYTOCHROME P-450, *FALL armyworm, *ALLELOCHEMICALS, *PESTICIDES, *PLANT metabolites, *GENE expression in plants

Abstract

Spodoptera frugiperda is a polyphagous lepidopteran pest that encounters a wide range of toxic plant metabolites in its diet. The ability of this insect to adapt to its chemical environment might be explained by the action of major detoxification enzymes such as cytochrome P450s (or CYP). Forty-two sequences coding for P450s were identified and most of the transcripts were found to be expressed in the midgut, Malpighian tubules and fat body of S. frugiperda larvae. Relatively few P450s were expressed in the established cell line Sf9. In order to gain information on how these genes respond to different chemical compounds, larvae and Sf9 cells were exposed to plant secondary metabolites (indole, indole-3-carbinol, quercetin, 2-tridecanone and xanthotoxin), insecticides (deltamethrin, fipronil, methoprene, methoxyfenozide) or model inducers (clofibrate and phenobarbital). Several genes were induced by plant chemicals such as P450s from the 6B, 321A and 9A subfamilies. Only a few genes responded to insecticides, belonging principally to the CYP9A family. There was little overlap between the response in vivo measured in the midgut and the response in vitro in Sf9 cells. In addition, regulatory elements were detected in the promoter region of these genes. In conclusion, several P450s were identified that could potentially be involved in the adaptation of S. frugiperda to its chemical environment. [ABSTRACT FROM AUTHOR]

Published

2015

13. Development of an efficient transformation system for Catharanthus roseus cell cultures using particle bombardment

Author

Hilliou, F., Christou, P., and Leech, M. J.

Published

1999

14. Spodoptera EST sequencing and analysis of synteny among 3 species bring new perspectives for Lepidoptera genomics

Author

D Alencon, E., Audant, P., Bernard-Samain, S., Bidegainberry, V., Brehelin, M., Brun-Barale, A., Cousserans, C., Duvic, B., Jean-Michel ESCOUBAS, Feyereisen, R., Fournier, P., Gagneur, C., Gordon, K., Gimenez, S., Heckel, D., Hotelier, T., Hilliou, F., Mita, K., Negre, V., Sabourault, C., Suraporn, S., Volkoff, N., Weissenbach, J., Biologie Intégrative et Virologie des Insectes [Univ. de Montpellier II] (BIVI), Institut National de la Recherche Agronomique (INRA)-Université Montpellier 2 - Sciences et Techniques (UM2), Réponse des Organismes aux Stress Environnementaux (ROSE), Institut National de la Recherche Agronomique (INRA)-Université Nice Sophia Antipolis (1965 - 2019) (UNS), COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA), Genoscope - Centre national de séquençage [Evry] (GENOSCOPE), Université Paris-Saclay-Direction de Recherche Fondamentale (CEA) (DRF (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Ecologie microbienne des insectes et interactions hôte-pathogène (EMIP), Interactions Biotiques et Santé Végétale, Institut National de la Recherche Agronomique (INRA), CSIRO Entomology, Commonwealth Scientific and Industrial Research Organisation [Canberra] (CSIRO), Diversité, Génomes & Interactions Microorganismes - Insectes [Montpellier] (DGIMI), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Université de Montpellier (UM), Max-Planck-Institut, Services déconcentrés d'appui à la recherche - Montpellier, Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), Institut Sophia Agrobiotech (ISA), COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Centre National de la Recherche Scientifique (CNRS), Institute of Agrobiological Sciences, NARO, Ecology and Conservation Science for Sustainable Seas (ECOSEAS), Centre National de la Recherche Scientifique (CNRS)-Université Côte d'Azur (UCA), Consortium National de Recherche en Génomique, and Centre National de la Recherche Scientifique (CNRS)

Subjects

[SDV]Life Sciences [q-bio]

Abstract

absent

15. The antiglucocorticoid RU38486 is a potent accelerator of adipose conversion of 3T3-F442A cells

Author

Fève, B., primary, Antras, J., additional, Lasnier, F., additional, Hilliou, F., additional, and Pairault, J., additional

Published

1989

16. Genome sequences of four Ixodes species expands understanding of tick evolution.

Author

Cerqueira de Araujo A, Noel B, Bretaudeau A, Labadie K, Boudet M, Tadrent N, Istace B, Kritli S, Cruaud C, Olaso R, Deleuze JF, Voordouw MJ, Hervet C, Plantard O, Zamoto-Niikura A, Chertemps T, Maïbèche M, Hilliou F, Le Goff G, Chmelař J, Mazák V, Jmel MA, Kotsyfakis M, Medina JM, Hackenberg M, Šimo L, Koutroumpa FA, Wincker P, Kopáček P, Perner J, Aury JM, and Rispe C

Subjects

Animals, Evolution, Molecular, Female, Ixodes genetics, Genome

Abstract

Background: Ticks, hematophagous Acari, pose a significant threat by transmitting various pathogens to their vertebrate hosts during feeding. Despite advances in tick genomics, high-quality genomes were lacking until recently, particularly in the genus Ixodes, which includes the main vectors of Lyme disease., Results: Here, we present the genome sequences of four tick species, derived from a single female individual, with a particular focus on the European species Ixodes ricinus, achieving a chromosome-level assembly. Additionally, draft assemblies were generated for the three other Ixodes species, I. persulcatus, I. pacificus, and I. hexagonus. The quality of the four genomes and extensive annotation of several important gene families have allowed us to study the evolution of gene repertoires at the level of the genus Ixodes and of the tick group. We have determined gene families that have undergone major amplifications during the evolution of ticks, while an expression atlas obtained for I. ricinus reveals striking patterns of specialization both between and within gene families. Notably, several gene family amplifications are associated with a proliferation of single-exon genes-most strikingly for fatty acid elongases and sulfotransferases., Conclusions: The integration of our data with existing genomes establishes a solid framework for the study of gene evolution, improving our understanding of tick biology. In addition, our work lays the foundations for applied research and innovative control targeting these organisms., Competing Interests: Declarations. Ethics approval and consent to participate: The use of vertebrate animals (mice and rabbits) to maintain the I. ricinus colony at the University of Neuchâtel was performed following the Swiss legislation on animal experimentation. The commission that is part of the “Service de la Consommation et des Affaires Vétérinaires (SCAV)” of the canton of Vaud, Switzerland, evaluated and approved the ethics of this part of the study. The SCAV of the canton of Neuchâtel, Switzerland, issued the animal experimentation permit (NE05/2014). Consent for publication: Not applicable. Competing interests: The authors declare no competing interests., (© 2025. The Author(s).)

Published

2025

17. Correction: Adaptive evolution of invasive fall armyworms to maize with potential involvement of cytochrome P450 genes.

Author

Yainna S, Hilliou F, Haenniger S, d'Alençon E, Brévault T, and Nam K

Published

2024

18. Adaptive evolution of invasive fall armyworms to maize with potential involvement of Cytochrome P450 genes.

Author

Yainna S, Hilliou F, Haenniger S, d'Alençon E, Brévault T, and Nam K

Subjects

Animals, Evolution, Molecular, Larva genetics, Adaptation, Physiological genetics, Transcriptome, Zea mays genetics, Zea mays parasitology, Cytochrome P-450 Enzyme System genetics, Spodoptera genetics, Introduced Species

Abstract

Background: An invasion occurs when introduced species establish and maintain stable populations in areas outside of their native habitat. Adaptive evolution has been proposed to contribute to this process. The fall armyworm (Spodoptera frugiperda) is one of the major pest insects infesting maize in both invaded and native areas. The invasion of this species was reported from West Africa in 2016, followed by spreading across the Old World. We tested adaptive evolution to maize using 56 native samples from the USA and 59 invasive samples from Senegal, based on genomic and transcriptomic analyses., Results: Principal component analysis revealed that the Senegalese population originated from corn strain. Three genetic loci were identified as targets of selective sweeps in the Senegalese population. These loci include four Cytochrome P450 genes (CYP321B1, CYP321B3, CYP321B4, and CYP337B5), as well as 12 genes of which the function is unclear. Transcriptomic analysis showed an overexpression of CYP321B1 and CYP321B3 genes in sfC samples compared to sfR samples. Additionally, these two genes were overexpressed when corn strain samples were exposed to maize. In larval feeding assays, the Senegalese population exhibited higher survival rates than a Floridan population across all four tested maize varieties., Conclusions: These results suggest that the analyzed Senegalese population experienced adaptive evolution involving loci containing CYP genes, potentially associated with an increase in the survival rates on maize. We argue that the invasive success of the fall armyworm is contributed by stabilizing selection to maize., (© 2024. The Author(s).)

Published

2024

19. The complete mitochondrial genome of Leucoptera coffeella (Lepidoptera: Lyonetiidae) and phylogenetic relationships within the Yponomeutoidea superfamily.

Author

Pereira Dos Santos M, Zotta Mota AP, Coiti Togawa R, Florencio Martins N, Fabricio de Melo Bellard do Nascimento E, Lucena VS, Castellani MA, Saliba Albuquerque EV, and Hilliou F

Subjects

Animals, Phylogeny, Base Sequence, Genes, Mitochondrial, RNA, Transfer genetics, Lepidoptera genetics, Genome, Mitochondrial, Moths genetics

Abstract

The coffee leaf miner (Leucoptera coffeella) is one of the major pests of coffee crops in the neotropical regions, and causes major economic losses. Few molecular data are available to identify this pest and advances in the knowledge of the genome of L. coffeella will contribute to improving pest identification and also clarify taxonomy of this microlepidoptera. L. coffeella DNA was extracted and sequenced using PacBio HiFi technology. Here we report the complete L. coffeella circular mitochondrial genome (16,407 bp) assembled using Aladin software. We found a total of 37 genes, including 13 protein-coding genes (PCGs), 22 transfer RNA genes (tRNAs), 2 ribosomal RNA genes (rRNAs) and an A + T rich-region and a D-loop. The L. coffeella mitochondrial gene organization is highly conserved with similarities to lepidopteran mitochondrial gene rearrangements (trnM-trnI-trnQ). We concatenated the 13 PCG to construct a phylogenetic tree and inferred the relationship between L. coffeella and other lepidopteran species. L. coffeella is found in the Lyonetiidae clade together with L. malifoliella and Lyonetia clerkella, both leaf miners. Interestingly, this clade is assigned in the Yponomeutoidea superfamily together with Gracillariidae, and both superfamilies displayed species with leaf-mining feeding habits., (© 2024. The Author(s).)

Published

2024

20. The evolutionary process of invasion in the fall armyworm (Spodoptera frugiperda).

Author

Yainna S, Tay WT, Durand K, Fiteni E, Hilliou F, Legeai F, Clamens AL, Gimenez S, Asokan R, Kalleshwaraswamy CM, Deshmukh SS, Meagher RL Jr, Blanco CA, Silvie P, Brévault T, Dassou A, Kergoat GJ, Walsh T, Gordon K, Nègre N, d'Alençon E, and Nam K

Subjects

Humans, Animals, Phylogeny, Asia, Africa, Africa, Western, Spodoptera genetics

Abstract

The fall armyworm (FAW; Spodoptera frugiperda) is one of the major agricultural pest insects. FAW is native to the Americas, and its invasion was first reported in West Africa in 2016. Then it quickly spread through Africa, Asia, and Oceania, becoming one of the main threats to corn production. We analyzed whole genome sequences of 177 FAW individuals from 12 locations on four continents to infer evolutionary processes of invasion. Principal component analysis from the TPI gene and whole genome sequences shows that invasive FAW populations originated from the corn strain. Ancestry coefficient and phylogenetic analyses from the nuclear genome indicate that invasive populations are derived from a single ancestry, distinct from native populations, while the mitochondrial phylogenetic tree supports the hypothesis of multiple introductions. Adaptive evolution specific to invasive populations was observed in detoxification, chemosensory, and digestion genes. We concluded that extant invasive FAW populations originated from the corn strain with potential contributions of adaptive evolution., (© 2022. The Author(s).)

Published

2022

21. Transcriptomics and Metabolomics Analyses Reveal High Induction of the Phenolamide Pathway in Tomato Plants Attacked by the Leafminer Tuta absoluta .

Author

Roumani M, Le Bot J, Boisbrun M, Magot F, Péré A, Robin C, Hilliou F, and Larbat R

Abstract

Tomato plants are attacked by a variety of herbivore pests and among them, the leafminer Tuta absoluta , which is currently a major threat to global tomato production. Although the commercial tomato is susceptible to T. absoluta attacks, a better understanding of the defensive plant responses to this pest will help in defining plant resistance traits and broaden the range of agronomic levers that can be used for an effective integrated pest management strategy over the crop cycle. In this study, we developed an integrative approach combining untargeted metabolomic and transcriptomic analyses to characterize the local and systemic metabolic responses of young tomato plants to T. absoluta larvae herbivory. From metabolomic analyses, the tomato response appeared to be both local and systemic, with a local response in infested leaves being much more intense than in other parts of the plant. The main response was a massive accumulation of phenolamides with great structural diversity, including rare derivatives composed of spermine and dihydrocinnamic acids. The accumulation of this family of specialized metabolites was supported by transcriptomic data, which showed induction of both phenylpropanoid and polyamine precursor pathways. Moreover, our transcriptomic data identified two genes strongly induced by T. absoluta herbivory, that we functionally characterized as putrescine hydroxycinnamoyl transferases. They catalyze the biosynthesis of several phenolamides, among which is caffeoylputrescine. Overall, this study provided new mechanistic clues of the tomato/ T. absoluta interaction.

Published

2022

22. Detoxification gene families in Phylloxera: Endogenous functions and roles in response to the environment.

Author

Chertemps T, Le Goff G, Maïbèche M, and Hilliou F

Subjects

Adaptation, Physiological, Animals, Gene Expression Profiling, Humans, Phylogeny, Aphids genetics, Vitis

Abstract

Phylloxera, Daktulosphaira vitifoliae, is an agronomic pest that feeds monophagously on grapevine, Vitis spp. host plants. Phylloxera manipulates primary and secondary plant metabolism to establish either leaf or root galls. We manually annotated 198 detoxification genes potentially involved in plant host manipulation, including cytochrome P450 (66 CYPs), carboxylesterase (20 CCEs), glutathione-S-transferase (10 GSTs), uridine diphosphate-glycosyltransferase (35 UGTs) and ABC transporter (67 ABCs) families. Transcriptomic expression patterns of these detoxification genes were analyzed for root and leaf galls. In addition to these transcriptomic analyses, we reanalyzed recent data from L1 and L2-3 stages feeding on tolerant and resistant rootstock. Data from two agricultural pest aphids, the generalist Myzus persicae and the Fabaceae specialist Acyrthosiphon pisum, and from the true bug vector of Chagas disease, Rhodnius prolixus, were used to perform phylogenetic analyses for each detoxification gene family. We found expansions of several gene sub-families in the genome of D. vitifoliae. Phylogenetically close genes were found to be organized in clusters in the same genomic position and orientation suggesting recent successive duplications. These results highlight the roles of the phylloxera detoxification gene repertoire in insect physiology and in adaptation to plant secondary metabolites, and provide gene candidates for further functional analyses., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2021

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

Author

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

Published

2021

24. Resistance in the Genus Spodoptera : Key Insect Detoxification Genes.

Author

Hilliou F, Chertemps T, Maïbèche M, and Le Goff G

Abstract

The genus Spodoptera (Lepidoptera: Noctuidae) includes species that are among the most important crop pests in the world. These polyphagous species are able to feed on many plants, including corn, rice and cotton. In addition to their ability to adapt to toxic compounds produced by plants, they have developed resistance to the chemical insecticides used for their control. One of the main mechanisms developed by insects to become resistant involves detoxification enzymes. In this review, we illustrate some examples of the role of major families of detoxification enzymes such as cytochromes P450, carboxyl/cholinesterases, glutathione S-transferases (GST) and transporters such as ATP-binding cassette (ABC) transporters in insecticide resistance. We compare available data for four species, Spodoptera exigua , S. frugiperda , S. littoralis and S. litura . Molecular mechanisms underlying the involvement of these genes in resistance will be described, including the duplication of the CYP9A cluster, over-expression of GST epsilon or point mutations in acetylcholinesterase and ABCC2. This review is not intended to be exhaustive but to highlight the key roles of certain genes.

Published

2021

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

Author

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

Subjects

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

Abstract

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

Published

2021

26. Adaptation by copy number variation increases insecticide resistance in the fall armyworm.

Author

Gimenez S, Abdelgaffar H, Goff GL, Hilliou F, Blanco CA, Hänniger S, Bretaudeau A, Legeai F, Nègre N, Jurat-Fuentes JL, d'Alençon E, and Nam K

Subjects

Animals, Cytochrome P-450 Enzyme System genetics, Female, Genome, Insect genetics, Nitriles pharmacology, Pyrethrins pharmacology, DNA Copy Number Variations genetics, Insecticide Resistance genetics, Insecticides pharmacology, Spodoptera drug effects, Spodoptera genetics

Abstract

Understanding the genetic basis of insecticide resistance is a key topic in agricultural ecology. The adaptive evolution of multi-copy detoxification genes has been interpreted as a cause of insecticide resistance, yet the same pattern can also be generated by the adaptation to host-plant defense toxins. In this study, we tested in the fall armyworm, Spodoptera frugiperda (Lepidoptera: Noctuidae), if adaptation by copy number variation caused insecticide resistance in two geographically distinct populations with different levels of resistance and the two host-plant strains. We observed a significant allelic differentiation of genomic copy number variations between the two geographic populations, but not between host-plant strains. A locus with positively selected copy number variation included a CYP gene cluster. Toxicological tests supported a central role for CYP enzymes in deltamethrin resistance. Our results indicate that copy number variation of detoxification genes might be responsible for insecticide resistance in fall armyworm and that evolutionary forces causing insecticide resistance could be independent of host-plant adaptation.

Published

2020

27. Deciphering the molecular mechanisms of mother-to-egg immune protection in the mealworm beetle Tenebrio molitor.

Author

Tetreau G, Dhinaut J, Galinier R, Audant-Lacour P, Voisin SN, Arafah K, Chogne M, Hilliou F, Bordes A, Sabarly C, Chan P, Walet-Balieu ML, Vaudry D, Duval D, Bulet P, Coustau C, Moret Y, and Gourbal B

Subjects

Animals, Bacillus thuringiensis pathogenicity, Immunity immunology, Proteomics methods, Tenebrio immunology, Bacterial Infections immunology, Larva microbiology, Ovum immunology, Serratia pathogenicity, Tenebrio microbiology

Abstract

In a number of species, individuals exposed to pathogens can mount an immune response and transmit this immunological experience to their offspring, thereby protecting them against persistent threats. Such vertical transfer of immunity, named trans-generational immune priming (TGIP), has been described in both vertebrates and invertebrates. Although increasingly studied during the last decade, the mechanisms underlying TGIP in invertebrates are still elusive, especially those protecting the earliest offspring life stage, i.e. the embryo developing in the egg. In the present study, we combined different proteomic and transcriptomic approaches to determine whether mothers transfer a "signal" (such as fragments of infecting bacteria), mRNA and/or protein/peptide effectors to protect their eggs against two natural bacterial pathogens, namely the Gram-positive Bacillus thuringiensis and the Gram-negative Serratia entomophila. By taking the mealworm beetle Tenebrio molitor as a biological model, our results suggest that eggs are mainly protected by an active direct transfer of a restricted number of immune proteins and of antimicrobial peptides. In contrast, the present data do not support the involvement of mRNA transfer while the transmission of a "signal", if it happens, is marginal and only occurs within 24h after maternal exposure to bacteria. This work exemplifies how combining global approaches helps to disentangle the different scenarios of a complex trait, providing a comprehensive characterization of TGIP mechanisms in T. molitor. It also paves the way for future alike studies focusing on TGIP in a wide range of invertebrates and vertebrates to identify additional candidates that could be specific to TGIP and to investigate whether the TGIP mechanisms found herein are specific or common to all insect species., Competing Interests: The authors declare that they have no competing interest. Pascaline Audant-Lacour was unable to confirm her authorship contributions. On her behalf, all other authors have reported her contributions to the best of their knowledge.

Published

2020

28. Correction to: The genome sequence of the grape phylloxera provides insights into the evolution, adaptation, and invasion routes of an iconic pest.

Author

Rispe C, Legeai F, Nabity PD, Fernández R, Arora AK, Baa-Puyoulet P, Banfill CR, Bao L, Barberà M, Bouallègue M, Bretaudeau A, Brisson JA, Calevro F, Capy P, Catrice O, Chertemps T, Couture C, Delière L, Douglas AE, Dufault-Thompson K, Escuer P, Feng H, Forneck A, Gabaldón T, Guigó R, Hilliou F, Hinojosa-Alvarez S, Hsiao YM, Hudaverdian S, Jacquin-Joly E, James EB, Johnston S, Joubard B, Le Goff G, Le Trionnaire G, Librado P, Liu S, Lombaert E, Lu HL, Maïbèche M, Makni M, Marcet-Houben M, Martínez-Torres D, Meslin C, Montagné N, Moran NA, Papura D, Parisot N, Rahbé Y, Lopes MR, Ripoll-Cladellas A, Robin S, Roques C, Roux P, Rozas J, Sánchez-Gracia A, Sánchez-Herrero JF, Santesmasses D, Scatoni I, Serre RF, Tang M, Tian W, Umina PA, van Munster M, Vincent-Monégat C, Wemmer J, Wilson ACC, Zhang Y, Zhao C, Zhao J, Zhao S, Zhou X, Delmotte F, and Tagu D

Abstract

An amendment to this paper has been published and can be accessed via the original article.

Published

2020

29. The genome sequence of the grape phylloxera provides insights into the evolution, adaptation, and invasion routes of an iconic pest.

Author

Rispe C, Legeai F, Nabity PD, Fernández R, Arora AK, Baa-Puyoulet P, Banfill CR, Bao L, Barberà M, Bouallègue M, Bretaudeau A, Brisson JA, Calevro F, Capy P, Catrice O, Chertemps T, Couture C, Delière L, Douglas AE, Dufault-Thompson K, Escuer P, Feng H, Forneck A, Gabaldón T, Guigó R, Hilliou F, Hinojosa-Alvarez S, Hsiao YM, Hudaverdian S, Jacquin-Joly E, James EB, Johnston S, Joubard B, Le Goff G, Le Trionnaire G, Librado P, Liu S, Lombaert E, Lu HL, Maïbèche M, Makni M, Marcet-Houben M, Martínez-Torres D, Meslin C, Montagné N, Moran NA, Papura D, Parisot N, Rahbé Y, Lopes MR, Ripoll-Cladellas A, Robin S, Roques C, Roux P, Rozas J, Sánchez-Gracia A, Sánchez-Herrero JF, Santesmasses D, Scatoni I, Serre RF, Tang M, Tian W, Umina PA, van Munster M, Vincent-Monégat C, Wemmer J, Wilson ACC, Zhang Y, Zhao C, Zhao J, Zhao S, Zhou X, Delmotte F, and Tagu D

Subjects

Animal Distribution, Animals, Introduced Species, Vitis, Adaptation, Biological genetics, Biological Evolution, Genome, Insect physiology, Hemiptera genetics

Abstract

Background: Although native to North America, the invasion of the aphid-like grape phylloxera Daktulosphaira vitifoliae across the globe altered the course of grape cultivation. For the past 150 years, viticulture relied on grafting-resistant North American Vitis species as rootstocks, thereby limiting genetic stocks tolerant to other stressors such as pathogens and climate change. Limited understanding of the insect genetics resulted in successive outbreaks across the globe when rootstocks failed. Here we report the 294-Mb genome of D. vitifoliae as a basic tool to understand host plant manipulation, nutritional endosymbiosis, and enhance global viticulture., Results: Using a combination of genome, RNA, and population resequencing, we found grape phylloxera showed high duplication rates since its common ancestor with aphids, but similarity in most metabolic genes, despite lacking obligate nutritional symbioses and feeding from parenchyma. Similarly, no enrichment occurred in development genes in relation to viviparity. However, phylloxera evolved > 2700 unique genes that resemble putative effectors and are active during feeding. Population sequencing revealed the global invasion began from the upper Mississippi River in North America, spread to Europe and from there to the rest of the world., Conclusions: The grape phylloxera genome reveals genetic architecture relative to the evolution of nutritional endosymbiosis, viviparity, and herbivory. The extraordinary expansion in effector genes also suggests novel adaptations to plant feeding and how insects induce complex plant phenotypes, for instance galls. Finally, our understanding of the origin of this invasive species and its genome provide genetics resources to alleviate rootstock bottlenecks restricting the advancement of viticulture.

Published

2020

30. SATQPCR: Website for statistical analysis of real-time quantitative PCR data.

Author

Rancurel C, van Tran T, Elie C, and Hilliou F

Subjects

Real-Time Polymerase Chain Reaction methods, Internet, Real-Time Polymerase Chain Reaction statistics & numerical data, Software statistics & numerical data

Abstract

SATQPCR is a web tool providing statistical analysis of real-time quantitative PCR data including all MIQE rules (gene efficiency, selection of reference genes and normalization with them). Our application is a quick tool that provides to the biologist, graphs as well as statistical tables summarizing their results with the chosen methods (t-test or ANOVA with Tukey test). The application is available at http://satqpcr.sophia.inra.fr with a demo dataset. Source code can be found at https://framagit.org/. SUPPLEMENTARY INFORMATION: Tutorials at http://satqpcr.sophia.inra.fr/cgi/help.cgi., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

31. Transcriptomic analysis of Spodoptera frugiperda Sf9 cells resistant to Bacillus thuringiensis Cry1Ca toxin reveals that extracellular Ca 2+ , Mg 2+ and production of cAMP are involved in toxicity.

Author

Castella C, Pauron D, Hilliou F, Trang VT, Zucchini-Pascal N, Gallet A, and Barbero P

Abstract

Bacillus thuringiensis (Bt) produces pore forming toxins that have been used for pest control in agriculture for many years. However, their molecular and cellular mode of action is still unclear. While a first model - referred to as the pore forming model - is the most widely accepted scenario, a second model proposed that toxins could trigger an Mg 2+ -dependent intracellular signalling pathway leading to cell death. Although Cry1Ca has been shown to form ionic pores in the plasma membrane leading to cell swelling and death, we investigated the existence of other cellular or molecular events involved in Cry1Ca toxicity. The Sf9 insect cell line, derived from Spodoptera frugiperda , is highly and specifically sensitive to Cry1Ca. Through a selection program we developed various levels of laboratory-evolved Cry1Ca-resistant Sf9 cell lines. Using a specific S. frugiperda microarray we performed a comparative transcriptomic analysis between sensitive and resistant cells and revealed genes differentially expressed in resistant cells and related to cation-dependent signalling pathways. Ion chelators protected sensitive cells from Cry1Ca toxicity suggesting the necessity of both Ca 2+ and/or Mg 2+ for toxin action. Selected cells were highly resistant to Cry1Ca while toxin binding onto their plasma membrane was not affected. This suggested a resistance mechanism different from the classical 'loss of toxin binding'. We observed a correlation between Cry1Ca cytotoxicity and the increase of intracellular cAMP levels. Indeed, Sf9 sensitive cells produced high levels of cAMP upon toxin stimulation, while Sf9 resistant cells were unable to increase their intracellular cAMP. Together, these results provide new information about the mechanism of Cry1Ca toxicity and clues to potential resistance factors yet to discover., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2019. Published by The Company of Biologists Ltd.)

Published

2019

32. Genomic adaptation to polyphagy and insecticides in a major East Asian noctuid pest.

Author

Cheng T, Wu J, Wu Y, Chilukuri RV, Huang L, Yamamoto K, Feng L, Li W, Chen Z, Guo H, Liu J, Li S, Wang X, Peng L, Liu D, Guo Y, Fu B, Li Z, Liu C, Chen Y, Tomar A, Hilliou F, Montagné N, Jacquin-Joly E, d'Alençon E, Seth RK, Bhatnagar RK, Jouraku A, Shiotsuki T, Kadono-Okuda K, Promboon A, Smagghe G, Arunkumar KP, Kishino H, Goldsmith MR, Feng Q, Xia Q, and Mita K

Subjects

Adaptation, Biological, Animals, Chromosome Mapping, Diet, Gene Expression Profiling, Larva genetics, Larva growth & development, Larva physiology, Spodoptera growth & development, Spodoptera physiology, Whole Genome Sequencing, Genome, Insect, Herbivory, Inactivation, Metabolic, Insecticides metabolism, Spodoptera genetics

Abstract

The tobacco cutworm, Spodoptera litura, is among the most widespread and destructive agricultural pests, feeding on over 100 crops throughout tropical and subtropical Asia. By genome sequencing, physical mapping and transcriptome analysis, we found that the gene families encoding receptors for bitter or toxic substances and detoxification enzymes, such as cytochrome P450, carboxylesterase and glutathione-S-transferase, were massively expanded in this polyphagous species, enabling its extraordinary ability to detect and detoxify many plant secondary compounds. Larval exposure to insecticidal toxins induced expression of detoxification genes, and knockdown of representative genes using short interfering RNA (siRNA) reduced larval survival, consistent with their contribution to the insect's natural pesticide tolerance. A population genetics study indicated that this species expanded throughout southeast Asia by migrating along a South India-South China-Japan axis, adapting to wide-ranging ecological conditions with diverse host plants and insecticides, surviving and adapting with the aid of its expanded detoxification systems. The findings of this study will enable the development of new pest management strategies for the control of major agricultural pests such as S. litura.

Published

2017

33. Two genomes of highly polyphagous lepidopteran pests (Spodoptera frugiperda, Noctuidae) with different host-plant ranges.

Author

Gouin A, Bretaudeau A, Nam K, Gimenez S, Aury JM, Duvic B, Hilliou F, Durand N, Montagné N, Darboux I, Kuwar S, Chertemps T, Siaussat D, Bretschneider A, Moné Y, Ahn SJ, Hänniger S, Grenet AG, Neunemann D, Maumus F, Luyten I, Labadie K, Xu W, Koutroumpa F, Escoubas JM, Llopis A, Maïbèche-Coisne M, Salasc F, Tomar A, Anderson AR, Khan SA, Dumas P, Orsucci M, Guy J, Belser C, Alberti A, Noel B, Couloux A, Mercier J, Nidelet S, Dubois E, Liu NY, Boulogne I, Mirabeau O, Le Goff G, Gordon K, Oakeshott J, Consoli FL, Volkoff AN, Fescemyer HW, Marden JH, Luthe DS, Herrero S, Heckel DG, Wincker P, Kergoat GJ, Amselem J, Quesneville H, Groot AT, Jacquin-Joly E, Nègre N, Lemaitre C, Legeai F, d'Alençon E, and Fournier P

Subjects

Animals, Crops, Agricultural, Larva genetics, Species Specificity, Adaptation, Physiological genetics, Genome, Insect, Herbivory, Spodoptera genetics

Abstract

Emergence of polyphagous herbivorous insects entails significant adaptation to recognize, detoxify and digest a variety of host-plants. Despite of its biological and practical importance - since insects eat 20% of crops - no exhaustive analysis of gene repertoires required for adaptations in generalist insect herbivores has previously been performed. The noctuid moth Spodoptera frugiperda ranks as one of the world's worst agricultural pests. This insect is polyphagous while the majority of other lepidopteran herbivores are specialist. It consists of two morphologically indistinguishable strains ("C" and "R") that have different host plant ranges. To describe the evolutionary mechanisms that both enable the emergence of polyphagous herbivory and lead to the shift in the host preference, we analyzed whole genome sequences from laboratory and natural populations of both strains. We observed huge expansions of genes associated with chemosensation and detoxification compared with specialist Lepidoptera. These expansions are largely due to tandem duplication, a possible adaptation mechanism enabling polyphagy. Individuals from natural C and R populations show significant genomic differentiation. We found signatures of positive selection in genes involved in chemoreception, detoxification and digestion, and copy number variation in the two latter gene families, suggesting an adaptive role for structural variation.

Published

2017

34. Extreme genome diversity in the hyper-prevalent parasitic eukaryote Blastocystis.

Author

Gentekaki E, Curtis BA, Stairs CW, Klimeš V, Eliáš M, Salas-Leiva DE, Herman EK, Eme L, Arias MC, Henrissat B, Hilliou F, Klute MJ, Suga H, Malik SB, Pightling AW, Kolisko M, Rachubinski RA, Schlacht A, Soanes DM, Tsaousis AD, Archibald JM, Ball SG, Dacks JB, Clark CG, van der Giezen M, and Roger AJ

Subjects

Blastocystis metabolism, Carbohydrate Metabolism, Codon, Terminator, Gastrointestinal Microbiome, Humans, Introns, Species Specificity, Blastocystis genetics, Genome, Protozoan

Abstract

Blastocystis is the most prevalent eukaryotic microbe colonizing the human gut, infecting approximately 1 billion individuals worldwide. Although Blastocystis has been linked to intestinal disorders, its pathogenicity remains controversial because most carriers are asymptomatic. Here, the genome sequence of Blastocystis subtype (ST) 1 is presented and compared to previously published sequences for ST4 and ST7. Despite a conserved core of genes, there is unexpected diversity between these STs in terms of their genome sizes, guanine-cytosine (GC) content, intron numbers, and gene content. ST1 has 6,544 protein-coding genes, which is several hundred more than reported for ST4 and ST7. The percentage of proteins unique to each ST ranges from 6.2% to 20.5%, greatly exceeding the differences observed within parasite genera. Orthologous proteins also display extreme divergence in amino acid sequence identity between STs (i.e., 59%-61% median identity), on par with observations of the most distantly related species pairs of parasite genera. The STs also display substantial variation in gene family distributions and sizes, especially for protein kinase and protease gene families, which could reflect differences in virulence. It remains to be seen to what extent these inter-ST differences persist at the intra-ST level. A full 26% of genes in ST1 have stop codons that are created on the mRNA level by a novel polyadenylation mechanism found only in Blastocystis. Reconstructions of pathways and organellar systems revealed that ST1 has a relatively complete membrane-trafficking system and a near-complete meiotic toolkit, possibly indicating a sexual cycle. Unlike some intestinal protistan parasites, Blastocystis ST1 has near-complete de novo pyrimidine, purine, and thiamine biosynthesis pathways and is unique amongst studied stramenopiles in being able to metabolize α-glucans rather than β-glucans. It lacks all genes encoding heme-containing cytochrome P450 proteins. Predictions of the mitochondrion-related organelle (MRO) proteome reveal an expanded repertoire of functions, including lipid, cofactor, and vitamin biosynthesis, as well as proteins that may be involved in regulating mitochondrial morphology and MRO/endoplasmic reticulum (ER) interactions. In sharp contrast, genes for peroxisome-associated functions are absent, suggesting Blastocystis STs lack this organelle. Overall, this study provides an important window into the biology of Blastocystis, showcasing significant differences between STs that can guide future experimental investigations into differences in their virulence and clarifying the roles of these organisms in gut health and disease.

Published

2017

35. Resistance evolution in Drosophila: the case of CYP6G1.

Author

Le Goff G and Hilliou F

Subjects

Animals, Cytochrome P-450 Enzyme System metabolism, Drosophila Proteins metabolism, Drosophila melanogaster enzymology, Cytochrome P-450 Enzyme System genetics, Drosophila Proteins genetics, Drosophila melanogaster drug effects, Drosophila melanogaster genetics, Evolution, Molecular, Insecticide Resistance genetics, Insecticides pharmacology

Abstract

The massive use of DDT as an insecticide between 1940 and 1970 has resulted in the emergence of a resistant population of insects. One of the main metabolic mechanisms developed by resistant insects involves detoxification enzymes such as cytochrome P450s. These enzymes can metabolise the insecticide to render it less toxic and facilitate its elimination from the organism. The P450 Cyp6g1 was identified as the major factor responsible for DDT resistance in Drosophila melanogaster field populations. In this article, we review the data available for this gene since it was associated with resistance in 2002. The knowledge gained on Cyp6g1 allows a better understanding of the evolution of insecticide resistance mechanisms and highlights the major role of transposable elements in evolutionary processes. © 2016 Society of Chemical Industry., (© 2016 Society of Chemical Industry.)

Published

2017

36. Proteomic Analysis of Pig (Sus scrofa) Olfactory Soluble Proteome Reveals O-Linked-N-Acetylglucosaminylation of Secreted Odorant-Binding Proteins.

Author

Nagnan-Le Meillour P, Vercoutter-Edouart AS, Hilliou F, Le Danvic C, and Lévy F

Abstract

The diversity of olfactory binding proteins (OBPs) is a key point to understand their role in molecular olfaction. Since only few different sequences were characterized in each mammalian species, they have been considered as passive carriers of odors and pheromones. We have explored the soluble proteome of pig nasal mucus, taking benefit of the powerful tools of proteomics. Combining two-dimensional electrophoresis, mass spectrometry, and western-blot with specific antibodies, our analyses revealed for the first time that the pig nasal mucus is mainly composed of secreted OBP isoforms, some of them being potentially modified by O-GlcNAcylation. An ortholog gene of the glycosyltransferase responsible of the O-GlcNAc linking on extracellular proteins in Drosophila and Mouse (EOGT) was amplified from tissues of pigs of different ages and sex. The sequence was used in a phylogenetic analysis, which evidenced conservation of EOGT in insect and mammalian models studied in molecular olfaction. Extracellular O-GlcNAcylation of secreted OBPs could finely modulate their binding specificities to odors and pheromones. This constitutes a new mechanism for extracellular signaling by OBPs, suggesting that they act as the first step of odor discrimination.

Published

2014

37. From dusk till dawn: the Arabidopsis thaliana sugar starving responsive network.

Author

Arias MC, Pelletier S, Hilliou F, Wattebled F, Renou JP, and D'Hulst C

Abstract

Plant growth and development are tightly controlled by photosynthetic carbon availability. The understanding of mechanisms governing carbon partitioning in plants will be a valuable tool in order to satisfy the rising global demand for food and biofuel. The goal of this study was to determine if sugar starvation responses were transcriptionally coordinated in Arabidopsis thaliana. A set of sugar-starvation responsive (SSR) genes was selected to perform a co-expression network analysis. Posteriorly, a guided-gene approach was used to identify the SSR-network from public data and to discover candidate regulators of this network. In order to validate the SSR network, a global transcriptome analysis was realized on three A. thaliana starch-deficient mutants. The starch-deficient phenotype in leaves induces sugar starvation syndrome at the end of the night due to the absence of photosynthesis. Promoter sequences of genes belonging to the SSR-network were analyzed in silico reveling over-represented motifs implicated in light, abscisic acid, and sugar responses. A small cluster of protein encoding genes belonging to different metabolic pathways, including three regulatory proteins, a protein kinase, a transcription factor, and a blue light receptor, were identified as the cornerstones of the SSR co-expression network. In summary, a large transcriptionally coordinated SSR network was identified and was validated with transcriptional data from three starch-deficient mutant lines. Candidate master regulators of this network were point out.

Published

2014

38. Establishment and analysis of a reference transcriptome for Spodoptera frugiperda.

Author

Legeai F, Gimenez S, Duvic B, Escoubas JM, Gosselin Grenet AS, Blanc F, Cousserans F, Séninet I, Bretaudeau A, Mutuel D, Girard PA, Monsempes C, Magdelenat G, Hilliou F, Feyereisen R, Ogliastro M, Volkoff AN, Jacquin-Joly E, d'Alençon E, Nègre N, and Fournier P

Subjects

Animals, Genes, Insect, Immunity, Innate genetics, Insect Proteins genetics, Insect Proteins metabolism, Molecular Sequence Annotation, Reference Standards, Smell genetics, Spodoptera metabolism, Gene Expression Profiling standards, Spodoptera genetics, Transcriptome

Abstract

Background: Spodoptera frugiperda (Noctuidae) is a major agricultural pest throughout the American continent. The highly polyphagous larvae are frequently devastating crops of importance such as corn, sorghum, cotton and grass. In addition, the Sf9 cell line, widely used in biochemistry for in vitro protein production, is derived from S. frugiperda tissues. Many research groups are using S. frugiperda as a model organism to investigate questions such as plant adaptation, pest behavior or resistance to pesticides., Results: In this study, we constructed a reference transcriptome assembly (Sf_TR2012b) of RNA sequences obtained from more than 35 S. frugiperda developmental time-points and tissue samples. We assessed the quality of this reference transcriptome by annotating a ubiquitous gene family--ribosomal proteins--as well as gene families that have a more constrained spatio-temporal expression and are involved in development, immunity and olfaction. We also provide a time-course of expression that we used to characterize the transcriptional regulation of the gene families studied., Conclusion: We conclude that the Sf_TR2012b transcriptome is a valid reference transcriptome. While its reliability decreases for the detection and annotation of genes under strong transcriptional constraint we still recover a fair percentage of tissue-specific transcripts. That allowed us to explore the spatial and temporal expression of genes and to observe that some olfactory receptors are expressed in antennae and palps but also in other non related tissues such as fat bodies. Similarly, we observed an interesting interplay of gene families involved in immunity between fat bodies and antennae.

Published

2014

39. Genome of the red alga Porphyridium purpureum.

Author

Bhattacharya D, Price DC, Chan CX, Qiu H, Rose N, Ball S, Weber AP, Arias MC, Henrissat B, Coutinho PM, Krishnan A, Zäuner S, Morath S, Hilliou F, Egizi A, Perrineau MM, and Yoon HS

Subjects

Algal Proteins genetics, Carbohydrate Metabolism genetics, Cytochrome P-450 Enzyme System metabolism, Gene Ontology, Gene Transfer, Horizontal, Glycolipids biosynthesis, Light-Harvesting Protein Complexes metabolism, Meiosis genetics, Membrane Transport Proteins metabolism, Molecular Weight, Phylogeny, Porphyridium cytology, Porphyridium enzymology, Reproduction genetics, Sphingolipids metabolism, Starch biosynthesis, Genome genetics, Porphyridium genetics

Abstract

The limited knowledge we have about red algal genomes comes from the highly specialized extremophiles, Cyanidiophyceae. Here, we describe the first genome sequence from a mesophilic, unicellular red alga, Porphyridium purpureum. The 8,355 predicted genes in P. purpureum, hundreds of which are likely to be implicated in a history of horizontal gene transfer, reside in a genome of 19.7 Mbp with 235 spliceosomal introns. Analysis of light-harvesting complex proteins reveals a nuclear-encoded phycobiliprotein in the alga. We uncover a complex set of carbohydrate-active enzymes, identify the genes required for the methylerythritol phosphate pathway of isoprenoid biosynthesis, and find evidence of sexual reproduction. Analysis of the compact, function-rich genome of P. purpureum suggests that ancestral lineages of red algae acted as mediators of horizontal gene transfer between prokaryotes and photosynthetic eukaryotes, thereby significantly enriching genomes across the tree of photosynthetic life.

Published

2013

40. Phylogenomics of the benzoxazinoid biosynthetic pathway of Poaceae: gene duplications and origin of the Bx cluster.

Author

Dutartre L, Hilliou F, and Feyereisen R

Subjects

Arabidopsis enzymology, Arabidopsis genetics, Arabidopsis metabolism, Cytochrome P-450 Enzyme System genetics, Phylogeny, Poaceae enzymology, Tryptophan Synthase genetics, Zea mays genetics, Benzoxazines metabolism, Biosynthetic Pathways, Genes, Plant, Poaceae genetics, Poaceae metabolism

Abstract

Background: The benzoxazinoids 2,4-dihydroxy-1,4-benzoxazin-3-one (DIBOA) and 2,4-dihydroxy-7- methoxy-1,4-benzoxazin-3-one (DIMBOA), are key defense compounds present in major agricultural crops such as maize and wheat. Their biosynthesis involves nine enzymes thought to form a linear pathway leading to the storage of DI(M)BOA as glucoside conjugates. Seven of the genes (Bx1-Bx6 and Bx8) form a cluster at the tip of the short arm of maize chromosome 4 that includes four P450 genes (Bx2-5) belonging to the same CYP71C subfamily. The origin of this cluster is unknown., Results: We show that the pathway appeared following several duplications of the TSA gene (α-subunit of tryptophan synthase) and of a Bx2-like ancestral CYP71C gene and the recruitment of Bx8 before the radiation of Poaceae. The origins of Bx6 and Bx7 remain unclear. We demonstrate that the Bx2-like CYP71C ancestor was not committed to the benzoxazinoid pathway and that after duplications the Bx2-Bx5 genes were under positive selection on a few sites and underwent functional divergence, leading to the current specific biochemical properties of the enzymes. The absence of synteny between available Poaceae genomes involving the Bx gene regions is in contrast with the conserved synteny in the TSA gene region., Conclusions: These results demonstrate that rearrangements following duplications of an IGL/TSA gene and of a CYP71C gene probably resulted in the clustering of the new copies (Bx1 and Bx2) at the tip of a chromosome in an ancestor of grasses. Clustering favored cosegregation and tip chromosomal location favored gene rearrangements that allowed the further recruitment of genes to the pathway. These events, a founding event and elongation events, may have been the key to the subsequent evolution of the benzoxazinoid biosynthetic cluster.

Published

2012

41. Lepidopteran transcriptome analysis following infection by phylogenetically unrelated polydnaviruses highlights differential and common responses.

Author

Provost B, Jouan V, Hilliou F, Delobel P, Bernardo P, Ravallec M, Cousserans F, Wajnberg E, Darboux I, Fournier P, Strand MR, and Volkoff AN

Subjects

Animals, Collagen genetics, Collagen metabolism, Gene Expression Profiling, Genome, Viral, Insect Proteins immunology, Insect Proteins metabolism, Oligonucleotide Array Sequence Analysis, Polydnaviridae metabolism, RNA, Messenger analysis, Reverse Transcriptase Polymerase Chain Reaction, Spodoptera immunology, Spodoptera metabolism, Symbiosis genetics, Symbiosis immunology, Viral Proteins chemistry, Viral Proteins genetics, Wasps genetics, Wasps immunology, Wasps metabolism, Fat Body metabolism, Gene Expression immunology, Hemocytes metabolism, Insect Proteins genetics, Polydnaviridae genetics, Spodoptera genetics

Abstract

The Polydnaviridae is a family of double-stranded DNA viruses that are symbionts of parasitoid wasps. The family is currently divided into two genera, the Ichnovirus (IV) and Bracovirus (BV), which are associated with wasps in the families Ichneumonidae and Braconidae, respectively. IVs and BVs have similar immunosuppressive and developmental effects on parasitized hosts but their encapsidated genomes largely encode different genes. To assess whether IV and BV infection has similar or disparate effects on the transcriptome of shared hosts, we characterized the effects of Hyposoter didymator Ichnovirus (HdIV) and Microplitis demolitor Bracovirus (MdBV) on the fat body and hemocyte transcriptome of Spodoptera frugiperda (Lepidoptera: Noctuidae). Our results indicated that HdIV and MdBV infection alters the abundance of a relatively low proportion of S. frugiperda transcripts at 24 h post-infection. A majority of the transcripts affected by infection also differed between MdBV and HdIV. However, we did identify some host transcripts that were similarly affected by both viruses. A majority of these genes were transcribed in the fat body and most belonged to functional classes with roles in immunity, detoxification, or cell structure. Particularly prominent in this suite of transcripts were genes encoding for predicted motor-related and collagen IV-like proteins. Overall, our data suggest that the broadly similar effects that HdIV and MdBV have on host growth and immunity are not due to these viruses inducing profound changes in host gene expression. Given though that IVs and BVs encode few shared genes, the host transcripts that are similarly affected by HdIV and MdBV could indicate convergence by each virus to target a few processes at the level of transcription that are important for successful parasitism of hosts by H. didymator and M. demolitor., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

42. Effects of hormone agonists on Sf9 cells, proliferation and cell cycle arrest.

Author

Giraudo M, Califano J, Hilliou F, Tran T, Taquet N, Feyereisen R, and Le Goff G

Subjects

Animals, Cell Cycle genetics, Cell Cycle Checkpoints drug effects, Cell Line, Cell Proliferation drug effects, Flow Cytometry, Gene Expression Regulation drug effects, Genes, Insect genetics, Hydrazines toxicity, Insecticides toxicity, Juvenile Hormones toxicity, Methoprene toxicity, Oligonucleotide Array Sequence Analysis, RNA, Messenger genetics, RNA, Messenger metabolism, Receptors, Cytoplasmic and Nuclear metabolism, Reverse Transcriptase Polymerase Chain Reaction, Signal Transduction drug effects, Signal Transduction genetics, Spodoptera genetics, Cell Cycle drug effects, Juvenile Hormones agonists, Spodoptera cytology, Spodoptera drug effects

Abstract

Methoxyfenozide and methoprene are two insecticides that mimic the action of the main hormones involved in the control of insect growth and development, 20-hydroxyecdysone and juvenile hormone. We investigated their effect on the Spodoptera frugiperda Sf9 cell line. Methoxyfenozide was more toxic than methoprene in cell viability tests and more potent in the inhibition of cellular proliferation. Cell growth arrest occurred in the G2/M phase after a methoprene treatment and more modestly in G1 after methoxyfenozide treatment. Microarray experiments and real-time quantitative PCR to follow the expression of nuclear receptors ultraspiracle and ecdysone receptor were performed to understand the molecular action of these hormone agonists. Twenty-six genes were differentially expressed after methoxyfenozide treatment and 55 genes after methoprene treatment with no gene in common between the two treatments. Our results suggest two different signalling pathways in Sf9 cells.

Published

2011

43. Molecular cloning and characterization of a vacuolar class III peroxidase involved in the metabolism of anticancer alkaloids in Catharanthus roseus.

Author

Costa MM, Hilliou F, Duarte P, Pereira LG, Almeida I, Leech M, Memelink J, Barceló AR, and Sottomayor M

Subjects

Amino Acid Sequence, Antineoplastic Agents, Phytogenic pharmacology, Base Sequence, Catharanthus genetics, Cloning, Molecular, Gene Expression Regulation, Plant, Models, Molecular, Molecular Sequence Data, Phylogeny, Plant Leaves growth & development, Plant Leaves metabolism, Alkaloids metabolism, Alkaloids pharmacology, Antineoplastic Agents, Phytogenic metabolism, Catharanthus enzymology, Peroxidases genetics, Peroxidases metabolism, Vacuoles enzymology

Abstract

Catharanthus roseus produces low levels of two dimeric terpenoid indole alkaloids, vinblastine and vincristine, which are widely used in cancer chemotherapy. The dimerization reaction leading to alpha-3',4'-anhydrovinblastine is a key regulatory step for the production of the anticancer alkaloids in planta and has potential application in the industrial production of two semisynthetic derivatives also used as anticancer drugs. In this work, we report the cloning, characterization, and subcellular localization of an enzyme with anhydrovinblastine synthase activity identified as the major class III peroxidase present in C. roseus leaves and named CrPrx1. The deduced amino acid sequence corresponds to a polypeptide of 363 amino acids including an N-terminal signal peptide showing the secretory nature of CrPrx1. CrPrx1 has a two-intron structure and is present as a single gene copy. Phylogenetic analysis indicates that CrPrx1 belongs to an evolutionary branch of vacuolar class III peroxidases whose members seem to have been recruited for different functions during evolution. Expression of a green fluorescent protein-CrPrx1 fusion confirmed the vacuolar localization of this peroxidase, the exact subcellular localization of the alkaloid monomeric precursors and dimeric products. Expression data further supports the role of CrPrx1 in alpha-3',4'-anhydrovinblastine biosynthesis, indicating the potential of CrPrx1 as a target to increase alkaloid levels in the plant.

Published

2008

44. Xenobiotic response in Drosophila melanogaster: sex dependence of P450 and GST gene induction.

Author

Le Goff G, Hilliou F, Siegfried BD, Boundy S, Wajnberg E, Sofer L, Audant P, ffrench-Constant RH, and Feyereisen R

Subjects

Animals, Atrazine, Drosophila melanogaster enzymology, Drosophila melanogaster genetics, Female, Male, Phenobarbital, Sex Factors, Transcriptional Activation, Cytochrome P-450 Enzyme System drug effects, Drosophila melanogaster drug effects, Gene Expression Regulation drug effects, Glutathione Transferase drug effects, Xenobiotics pharmacology

Abstract

The effect of xenobiotics (phenobarbital and atrazine) on the expression of Drosophila melanogaster CYP genes encoding cytochromes P450, a gene family generally associated with detoxification, was analyzed by DNA microarray hybridization and verified by real-time RT-PCR in adults of both sexes. Only a small subset of the 86 CYP genes was significantly induced by the xenobiotics. Eleven CYP genes and three glutathione S-transferases (GST) genes were significantly induced by phenobarbital, seven CYP and one GST gene were induced by atrazine. Cyp6d5, Cyp6w1, Cyp12d1 and the ecdysone-inducible Cyp6a2 were induced by both chemicals. The constitutive expression of several of the inducible genes (Cyp6a2, Cyp6a8, Cyp6d5, Cyp12d1) was higher in males than in females, and the induced level similar in both sexes. Thus, the level of induction was consistently higher in females than in males. The female-specific and hormonally regulated yolk protein genes were significantly induced by phenobarbital in males and repressed by atrazine in females. Our results suggest that the numerous CYP genes of Drosophila respond selectively to xenobiotics, providing the fly with an adaptive response to chemically adverse environments. The xenobiotic inducibility of some CYP genes previously associated with insecticide resistance in laboratory-selected strains (Cyp6a2, Cyp6a8, Cyp12d1) suggests that deregulation of P450 gene expression may be a facile way to achieve resistance. Our study also suggests that xenobiotic-induced changes in P450 levels can affect insect fitness by interfering with hormonally regulated networks.

Published

2006

45. SPODOBASE: an EST database for the lepidopteran crop pest Spodoptera.

Author

Nègre V, Hôtelier T, Volkoff AN, Gimenez S, Cousserans F, Mita K, Sabau X, Rocher J, López-Ferber M, d'Alençon E, Audant P, Sabourault C, Bidegainberry V, Hilliou F, and Fournier P

Subjects

Animals, Cluster Analysis, Contig Mapping, DNA, Complementary metabolism, Gene Library, Molecular Sequence Data, Sequence Alignment, Sequence Analysis, DNA, Software, Tissue Distribution, Computational Biology methods, Databases, Genetic, Expressed Sequence Tags, Spodoptera genetics

Abstract

Background: The Lepidoptera Spodoptera frugiperda is a pest which causes widespread economic damage on a variety of crop plants. It is also well known through its famous Sf9 cell line which is used for numerous heterologous protein productions. Species of the Spodoptera genus are used as model for pesticide resistance and to study virus host interactions. A genomic approach is now a critical step for further new developments in biology and pathology of these insects, and the results of ESTs sequencing efforts need to be structured into databases providing an integrated set of tools and informations., Description: The ESTs from five independent cDNA libraries, prepared from three different S. frugiperda tissues (hemocytes, midgut and fat body) and from the Sf9 cell line, are deposited in the database. These tissues were chosen because of their importance in biological processes such as immune response, development and plant/insect interaction. So far, the SPODOBASE contains 29,325 ESTs, which are cleaned and clustered into non-redundant sets (2294 clusters and 6103 singletons). The SPODOBASE is constructed in such a way that other ESTs from S. frugiperda or other species may be added. User can retrieve information using text searches, pre-formatted queries, query assistant or blast searches. Annotation is provided against NCBI, UNIPROT or Bombyx mori ESTs databases, and with GO-Slim vocabulary., Conclusion: The SPODOBASE database provides integrated access to expressed sequence tags (EST) from the lepidopteran insect Spodoptera frugiperda. It is a publicly available structured database with insect pest sequences which will allow identification of a number of genes and comprehensive cloning of gene families of interest for scientific community. SPODOBASE is available from URL: http://bioweb.ensam.inra.fr/spodobase.

Published

2006

46. T-DNA activation tagging as a tool to isolate regulators of a metabolic pathway from a genetically non-tractable plant species.

Author

van der Fits L, Hilliou F, and Memelink J

Subjects

Aromatic-L-Amino-Acid Decarboxylases genetics, Blotting, Northern, Blotting, Southern, Catharanthus classification, Cells, Cultured, DNA, Single-Stranded, Genes, Dominant, Mutation, Plasmids metabolism, Catharanthus genetics, DNA, Bacterial, Genes, Plant, Plants genetics

Abstract

T-DNA activation tagging is a method used to generate dominant mutations in plants or plant cells by the insertion of a T-DNA which carries constitutive enhancer elements that can cause transcriptional activation of flanking plant genes. We applied this approach to the species Catharanthus roseus (L.) G. Don (Madagascar periwinkle), in an attempt to isolate regulators of genes that are involved in the biosynthesis of secondary metabolites of the terpenoid indole alkaloid (TIA) class. Several TIAs have pharmaceutically interesting activities, including the anti-tumour agents vincristine and vinblastine. The use of suspension-cultured cells enabled us to screen in a relatively easy way hundreds of thousands of T-DNA-tagged cells for resistance to a toxic substrate of one of the TIA biosynthetic enzymes: tryptophan decarboxylase. This screening yielded several interesting tagged cell lines. Further characterisation of one of the tagged cell lines led to the isolation of Orca3, a gene encoding an AP2/ERF-domain transcription factor that acts as a master regulator of primary and secondary metabolism. The T-DNA activation tagging results described in detail in this paper illustrate the usefulness of this approach to isolate regulators of a complex metabolic pathway from a genetically non-tractable plant species.

Published

2001

47. Forskolin induces the reorganization of extracellular matrix fibronectin and cytoarchitecture in 3T3-F442A adipocytes: its effect on fibronectin gene expression.

Author

Antras-Ferry J, Hilliou F, Lasnier F, and Pairault J

Subjects

3T3 Cells, Actins chemistry, Actins genetics, Adipose Tissue chemistry, Adipose Tissue ultrastructure, Animals, Fibronectins chemistry, Mice, RNA, Messenger analysis, Adipose Tissue drug effects, Colforsin pharmacology, Fibronectins genetics, Gene Expression Regulation drug effects

Abstract

We studied the effect of forskolin on fibronectin and actin gene expression in 3T3-F442A adipogenic cell line. The structural organizations of extracellular matrix fibronectin and actin cytoskeleton were investigated in parallel. Immunofluorescence experiments showed that preadipocytes treated for 48 h with 10 microM forskolin exhibited an intensified network of both actin and fibronectin when compared to control. A similar picture was obtained with adipocytes given long-term exposure to forskolin. As determined by Western analysis, fibronectin protein levels were increased by 50-75% over control, both in preadipocytes and adipocytes. A parallel increase of fibronectin mRNA content was observed in forskolin-treated cells. In contrast, forskolin treatment of preadipocytes and adipocytes did not elicit any change in the steady-state level of either actin mRNA or protein. Nuclear run-on experiments showed that forskolin increased the fibronectin gene transcription rate but left that of the actin gene in adipocytes unchanged. These findings suggest the reorganization of the actin network in forskolin-treated adipocytes to be a consequence of fibronectin-enhanced biosynthesis and reorganization.

Published

1994

48. Growth and differentiation of 3T3-F442A preadipocytes in three-dimensional gels of native collagen.

Author

Hilliou F, Pairault J, Dominice J, and Redziniak G

Subjects

Animals, Cell Differentiation, Cell Division, Cell Line, Collagen, Gels, Adipose Tissue cytology, Culture Techniques methods

Abstract

Three-dimensional gels of native type I collagen have been used as a substrate for growth and differentiation in 3T3 adipocyte precursors. Such hydrated lattices can support a sustained cell growth leading to several 10-fold increases in cell number within 2 weeks. During this period, the cells condense the hydrated collagen lattice to a tissue-like structure one-fourth of the area of the initial gel. From Days 10 to 12, the cells progressively exhibit morphological characteristics of adipocytes and accumulate lipid droplets as evidenced by Oil Red O staining. Lipoprotein lipase activity appears very early; between Days 8 and 22 it sharply increases 15-fold and then remains stable at a very high level (about 30 nmol/min/10(6) cells). The emergence of glycerophosphate dehydrogenase activity is delayed; it becomes detectable at Day 15 and progressively increases up to 700 nmol/min/10(6) cells at Days 35-40. Thus, this adipose tissue equivalent appears to be a potential model for studying adipocyte function.

Published

1988

49. Decreased biosynthesis of actin and cellular fibronectin during adipose conversion of 3T3-F442A cells. Reorganization of the cytoarchitecture and extracellular matrix fibronectin.

Author

Antras J, Hilliou F, Redziniak G, and Pairault J

Subjects

Actin Cytoskeleton metabolism, Adipose Tissue metabolism, Animals, Blotting, Western, Cell Differentiation, Cell Line, Extracellular Matrix metabolism, Fluorescent Antibody Technique, Microscopy, Fluorescence, Precipitin Tests, Actins biosynthesis, Adipose Tissue cytology, Cytoskeleton metabolism, Fibronectins biosynthesis

Abstract

Differentiation of 3T3-F442A cells was accompanied by changes in cell morphology, decreased synthesis and assembly of actin and fibronectin. The network of microfilament stress fibers detected with NBD-phallacidin was altered during adipose conversion of 3T3-F442A cells. Parallel to this, the disappearance of fibrillar bundles of extracellular matrix fibronectin was observed by immunofluorescence staining. The pericellular fibronectin content, detected by immunoblotting, strongly diminished during the differentiation process. An altered rate of biosynthesis of both proteins was also measured by [35S]-methionine pulse-labeling and immunoprecipitation. A 4-5-fold decrease in cellular fibronectin synthesis was observed in adipocytes compared to control preadipocytes. Conversely, non-differentiating 3T3-C2 control cells did not reorganize either the cytoskeletal architecture or the extracellular matrix fibronectin in the resting state. These results suggest that the decreased rate of biosynthesis of cell-associated fibronectin is correlated with that of actin. Moreover, both events can essentially be ascribed to differentiation.

Published

1989