Your search keyword '"Canto T"' showing total 111 results

1. Ambient conditions of elevated temperature and CO2 levels are detrimental to the probabilities of transmission by insects of a Potato virus Y isolate and to its simulated prevalence in the environment

Author

del Toro, F.J., Choi, K.S., Rakhshandehroo, F., Aguilar, E., Tenllado, F., and Canto, T.

Published

2019

2. Movement protein of hordeivirus interacts in vitro and in vivo with coilin, a major structural protein of Cajal bodies

Author

Semashko, M. A., Rakitina, D. V., González, I., Canto, T., Kalinina, N. O., and Taliansky, M. E.

Published

2012

3. Characterisation of genetically modified cucumber mosaic virus expressing histidine-tagged 1a and 2a proteins

Author

Gal-On, A., Canto, T., and Palukaitis, P.

Published

2000

4. Hordeivirus movement protein interacts with a nucleolar protein fibrillarin: YSF-104

Author

Semashko, M., Gonzalez, I., Canto, T., and Kalinina, N.

Published

2010

5. Abstracts of presentations on plant protection issues at the fifth international Mango Symposium Abstracts of presentations on plant protection issues at the Xth international congress of Virology: September 1–6, 1996 Dan Panorama Hotel, Tel Aviv, Israel August 11-16, 1996 Binyanei haoma, Jerusalem, Israel

Author

Peña, J. E., Wysoki, M., Singh, Gajendra, Boscán de M., Nancy, Godoy, Freddy J., Obligado, A., Rossetto, C. J., Ribeiro, I. J. A., Gallo, P. B., Soares, N. B., Sabino, J. C., Martins, A. L. M., Bortoletto, N., Ploetz, R. C., Benscher, D., Vázquez, Aimé, Colls, A., Nagel, Julianne, Schaffer, B., Pinkas, Y., Maymon, M., Freeman, S., Bostros Bastawros, Mikhail, Gosbee, M. J., Johnson, G. I., Joyce, D. C., Irwin, J. A. G., Saaiman, W. C., Prusky, D., Falik, E., Kobiler, I., Fuchs, Y., Zauberman, G., Pesis, E., Ackerman, M., Roth, I., Weksler, A., Yekutiely, O., Waisblum, A., Keinan, A., Ofek, G., Reved, R., Barak, R., Bel, P., Artes, L., Visarathanonth, N., Xu, Z., Ponce de León, L., Muñoz, C., Pérez, L., Diaz de León, F., Kerbel, C., Esparza, S., Bósquez, E., Trinidad, M., Coates, L. M., Cooke, A. W., Dean, J. R., Lucia Duarte, Ana, Alberto Otto, Paulo, Malavasi, Aldo, Lizado, M. C. C., Bautista, M. L., Artes, L. A., Bacalangco, N. S., Farungsang, U., Farungsang, N., Waskar, D. P., Masalkar, S. D., Gaikwad, R. S., Damame, S. V., Bally, Ian S. E., O’Hare, Tim J., Holmes, Rowland J., Atabekov, J. G., Fauquet, Claude M., Tomori, O., Nuss, D. L., Ahlquist, P., Díez, J., Ishikawa, M., Janda, M., Price, B. D., Restrepo-Hartwig, M., Bol, J. F., van Rossum, C. M. A., Garcia, M. L., van der Vossen, E. A. G., Reusken, Chantal B. E. M., Canto, T. R., Gal-On, A., Palukaitis, P., Roossinck, M. J., Flasinski, S., Restrepo-Hartwig, Maria A., Ahlquist, Paul, Smirnyagina, Ekaterina, Lin, Na-Sheng, Nagy, Peter D., Figlerowicz, Marek, Bujarski, Jozef J., Proll, D. F., Guyatt, K. J., Davidson, A. D., Kim, Kook-Hyung, Miller, Eric, Hemenway, Cynthia, Havelda, Z., Dalmay, T., Burgyán, J., Kearney, C. M., Thomson, M., Roland, K. E., Dawson, W. O., Bao, Y., Carter, S. A., Nelson, R. S., Derrick, P. M., Shun Ding, Xin, Eskarous, J. K., Sarkar, S., El-Shamy, M., Chen, J., Sako, N., Yuichiro, W., Ohshima, K., Okada, Y., Felden, Brice, Kuznetsov, Yuri G., Malkin, Alexander J., Greenwood, Aaron, McPherson, Alexander, Ivanov, K. I., Dorokhov, Y. L., Kim, C. H., Sálanki, Katalin, Carrére, Isabelle, Jacquemond, Mireille, Tepfer, Mark, Balazs, Ervin, Sanz, A. I., Serra, M. T., García-Luque, I., Revers, F., Candresse, T., LeGall, O., Souche, S., Lot, H., Dunez, J., Cecchini, E., Milner, J., Al-Kaff, N., Covey, S., Gong, Z., Geri, C., Covey, S. N., Richert-Pöggeler, K. R., Shepherd, R. J., Casper, R., Meiri, Eti, Raccah, B., Gera, A., Singer, S., Allam, E. K., El Afifi, Soheir I., Abo El Nasr, M. A., Abd El Ghaffar, M. H., Elisabeth Johansen, I., Keller, K. E., Hampton, R. O., SÕrensen, Karina, Bishnoi, S. S., Rishi, Narayan, Gumedzoe, M. Y. D., Atissime, K., Yedibahoma, S., Wellink, Joan, Verver, Jan, Bertens, Peter, van Lent, Jan, Goldbach, Rob W., van Kammen, Ab, Lekkerkerker, Annemarie, Taylor, K. M., Spall, V. E., Lomonossoff, G. P., Yu. Morozov, S., Solovyev, A. G., Zelenina, D. A., Savenkov, E. I., Grdzelishvili, V. Z., Morozov, S. Y., Jansen, K. A. J., Wolfs, C. J. A. M., Lohuis, H., Verduin, B. J. M., Stein-Margolina, V. A., Hsu, Y. H., Chang, B. Y., Lin, N. S., Pilartz, Marcel, Jeske, Holger, Verchot, Jeanmarie, Baulcombe, David C., English, David J., Müller, E., Baulcombe, D. C., Malcuit, Isabelle, Kavanagh, Tony, Valkonen, J. P. T., Puurand, Ü., Merits, A., Rabinstein, F., Sorri, O., Saarma, M., Liao, Y. C., Vaquero-Martin, C., Monecke, M., Rohde, W., Prüfer, D., Fischer, R., Antignus, Y., Lachman, O., Pearlsman, M., Cohen, S., Qiu, W. P., Moyer, J. W., Feldhoff, A., Kikkert, M., Kormelink, R., Krczal, G., Peters, D., Szittya, György, Burgyán, József, Wvpijewski, K., Paduch-Cichal, E., Rezler, A., Skrzeczkowska, S., Augustyniak, J., Nemchinov, L., Maiss, E., Hadidi, A., Wittner, Anita, Palkovics, László, Balázs, Ervin, Crescenzi, A., Piazzolla, P., Kheyr-Pour, A., Dafalla, G. A., Lecoq, H., Gronenborn, B., Bauer, U., Laux, I., Hajimorad, M. R., Ding, X. S., Flasinski, Stanislaw, Cassidy, Pour G., Dugdale, B., Beetham, P. R., Harding, R. M., Dale, J. L., Qiu, G., Shaw, J. G., Molnár, A., Más, P., Balsalobre, J. M., Sánchez-Pina, M. A., Pallás, V., Rahontei, J., López, L., Lázara, J. J., Barón, M., Owens, R. A., Steger, G., Hu, Y., Fels, A., Hammond, R. W., Riesner, D., Schröder, A. R. W., Góra, A., Pawlowicz, J., Kierzek, A., Zagorski, W., Baumstark, T., Schiebel, W., Schiebel, R., Axmann, A., Haas, B., Sänger, H. L., Xicai, Yang, Yin, Yie, Feng, Zhu, Yule, Liu, Liangyi, Kang, Po, Tien, Poliyka, H., Staub, U., Wagner, M., Gross, H. J., Sano, Teruo, Ishiguro, Akiro, Fayos, J., Garro, R., Bellés, J. M., Conejero, V., Bonfiglioli, R. G., Webb, D. R., Symons, R. H., El-Dougdoug, K. A., Abo-Zeid, A. A., Ambrós, S., Hernandez, C., Desvignes, J. C. C., Flores, R., d’Aquilio, M., Lisa, V., Boccardo, G., Vera, A., Daròs, J. A., Henkel, J., Spieker, R., Higgins, C., Turley, R., Chamberlain, D., Bateson, M., Dale, J., d’Aquino, L., Ragozzino, A., Henderson, J., Bateson, M. F., Chaleeprom, W., Gibbs, A. J., Graichen, K., Rabenstein, F., Schliephake, E., Smith, H. G., Stevens, M., Sadowy, E., Hulanicka, D., Wegener, B., Martin, M. T., Wetzel, T., Cook, G., Kasdorf, G. G. F., Pietersen, G., Braithwaite, Kathryn S., Gambley, Cherie F., Smith, Grant R., Druka, Arnis, Villegas, Lucille, Dahal, Ganesh, Hull, Roger, Senchugova, N. A., Büchen-Osmond, C., Dallwitz, M. J., Blaine, L. D., Naik, P. S., Sonone, A. B., Kolaskar, A. S., Sgro, J. Y., Palmenberg, A. C., Leclerc, Denis, Hohn, Thomas, Moriones, E., Batlle, A., Luis, M., Alvarez, J., Bernal, J. J., Alonso, J. L., Spak, J., Kubelkova, D., Kuo, T. T., Gachechiladze, K. K., Adamia, R. S., Balardshishvili, N. S., Chanishvili, T. G., Krüger, D. H., Nagy, Tibor, Élö, Péter, Papp, Péter, Orosz, László, Licis, N., Berzins, V., Sariol-Carbelo, Carlos A., RodrCarlos, C. M., Janzen, D., Ward, Colin W., Scott, S. W., Shiel, P. J., Berger, P. H., Aleman, M. E., Beachy, R. N., Fauquet, C. M., Salm, S. N., Rybicki, E. P., Rey, M. E. C., Briddon, R. W., Harper, G., Druka, A., Phillips, S., Brunt, A. A., Hull, R., Hay, Jo, Dasgupta, Indranil, Zaifeng, Fan, Meehan, Brian M., Todd, Daniel, Bunk, Hans-Jörk, Grieco, F., Martelli, G. P., Saldarelli, P., Minafra, A., Morag, A., Mumcuoglu, M., Baybikov, T., Schlesinger, M., Zakay-Rones, Z., Shohat, B., Shohat, M., Miller, M., Shaklay, M., Kalvatchev, Z., Walder, R., Garzaro, D., Barrios, M., Karagöz, Ali, Kuru, Avni, Karim, M. R., Johnson, A. J., Takida, S., Thompson, M. C., Omer, H. M. K., Omer, O. L. M., Biyiti, L., Amvam, R. H., Lamaty, G., Bouchet, P., Xu, J., Hefferon, K. L., Abou Haidar, M. G., and Meng, A. X. X.

Published

1997

6. Abstracts of presentations on plant protection issues at the fifth international Mango Symposium Abstracts of presentations on plant protection issues at the Xth international congress of Virology: September 1-6, 1996 Dan Panorama Hotel, Tel Aviv, Israel August 11-16, 1996 Binyanei haoma, Jerusalem, Israel

Author

Peña, J., Wysoki, M., Singh, Gajendra, Boscán de M., Nancy, Godoy, Freddy, Obligado, A., Rossetto, C., Ribeiro, I., Gallo, P., Soares, N., Sabino, J., Martins, A., Bortoletto, N., Ploetz, R., Benscher, D., Vázquez, Aimé, Colls, A., Nagel, Julianne, Schaffer, B., Pinkas, Y., Maymon, M., Freeman, S., Bostros Bastawros, Mikhail, Gosbee, M., Johnson, G., Joyce, D., Irwin, J., Saaiman, W., Prusky, D., Falik, E., Kobiler, I., Fuchs, Y., Zauberman, G., Pesis, E., Ackerman, M., Roth, I., Weksler, A., Yekutiely, O., Waisblum, A., Keinan, A., Ofek, G., Reved, R., Barak, R., Bel, P., Artes, L., Visarathanonth, N., Xu, Z., Ponce de León, L., Muñoz, C., Pérez, L., Diaz de León, F., Kerbel, C., Esparza, S., Bósquez, E., Trinidad, M., Coates, L., Cooke, A., Dean, J., Lucia Duarte, Ana, Alberto Otto, Paulo, Malavasi, Aldo, Lizado, M., Bautista, M., Bacalangco, N., Farungsang, U., Farungsang, N., Waskar, D., Masalkar, S., Gaikwad, R., Damame, S., Bally, Ian, O'Hare, Tim, Holmes, Rowland, Atabekov, J., Fauquet, Claude, Tomori, O., Nuss, D., Ahlquist, P., Díez, J., Ishikawa, M., Janda, M., Price, B., Restrepo-Hartwig, M., Bol, J., van Rossum, C., Garcia, M., van der Vossen, E., Reusken, Chantal, Canto, T., Gal-On, A., Palukaitis, P., Roossinck, M., Flasinski, S., Restrepo-Hartwig, Maria, Ahlquist, Paul, Smirnyagina, Ekaterina, Lin, Na-Sheng, Nagy, Peter, Figlerowicz, Marek, Bujarski, Jozef, Proll, D., Guyatt, K., Davidson, A., Kim, Kook-Hyung, Miller, Eric, Hemenway, Cynthia, Havelda, Z., Dalmay, T., Burgyán, J., Kearney, C., Thomson, M., Roland, K., Dawson, W., Bao, Y., Carter, S., Nelson, R., Derrick, P., Shun Ding, Xin, Eskarous, J., Sarkar, S., El-Shamy, M., Chen, J., Sako, N., Yuichiro, W., Ohshima, K., Okada, Y., Felden, Brice, Kuznetsov, Yuri, Malkin, Alexander, Greenwood, Aaron, McPherson, Alexander, Ivanov, K., Dorokhov, Y., Kim, C., Sálanki, Katalin, Carrére, Isabelle, Jacquemond, Mireille, Tepfer, Mark, Balazs, Ervin, Sanz, A., Serra, M., García-Luque, I., Revers, F., Candresse, T., LeGall, O., Souche, S., Lot, H., Dunez, J., Cecchini, E., Milner, J., Al-Kaff, N., Covey, S., Gong, Z., Geri, C., Richert-Pöggeler, K., Shepherd, R., Casper, R., Meiri, Eti, Raccah, B., Gera, A., Singer, S., Allam, E., El Afifi, Soheir, Abo El Nasr, M., Abd El Ghaffar, M., Elisabeth Johansen, I., Keller, K., Hampton, R., SÕrensen, Karina, Bishnoi, S., Rishi, Narayan, Gumedzoe, M., Atissime, K., Yedibahoma, S., Wellink, Joan, Verver, Jan, Bertens, Peter, van Lent, Jan, Goldbach, Rob, van Kammen, Ab, Lekkerkerker, Annemarie, Taylor, K., Spall, V., Lomonossoff, G., Yu. Morozov, S., Solovyev, A., Zelenina, D., Savenkov, E., Grdzelishvili, V., Morozov, S., Jansen, K., Wolfs, C., Lohuis, H., Verduin, B., Stein-Margolina, V., Hsu, Y., Chang, B., Lin, N., Pilartz, Marcel, Jeske, Holger, Verchot, Jeanmarie, Baulcombe, David, English, David, Müller, E., Baulcombe, D., Malcuit, Isabelle, Kavanagh, Tony, Valkonen, J., Puurand, Ü., Merits, A., Rabinstein, F., Sorri, O., Saarma, M., Liao, Y., Vaquero-Martin, C., Monecke, M., Rohde, W., Prüfer, D., Fischer, R., Antignus, Y., Lachman, O., Pearlsman, M., Cohen, S., Qiu, W., Moyer, J., Feldhoff, A., Kikkert, M., Kormelink, R., Krczal, G., Peters, D., Szittya, György, Burgyán, József, Wvpijewski, K., Paduch-Cichal, E., Rezler, A., Skrzeczkowska, S., Augustyniak, J., Nemchinov, L., Maiss, E., Hadidi, A., Wittner, Anita, Palkovics, László, Balázs, Ervin, Crescenzi, A., Piazzolla, P., Kheyr-Pour, A., Dafalla, G., Lecoq, H., Gronenborn, B., Bauer, U., Laux, I., Hajimorad, M., Ding, X., Flasinski, Stanislaw, Cassidy, Pour, Dugdale, B., Beetham, P., Harding, R., Dale, J., Qiu, G., Shaw, J., Molnár, A., Más, P., Balsalobre, J., Sánchez-Pina, M., Pallás, V., Rahontei, J., López, L., Lázara, J., Barón, M., Owens, R., Steger, G., Hu, Y., Fels, A., Hammond, R., Riesner, D., Schröder, A., Góra, A., Pawlowicz, J., Kierzek, A., Zagorski, W., Baumstark, T., Schiebel, W., Schiebel, R., Axmann, A., Haas, B., Sänger, H., Xicai, Yang, Yin, Yie, Feng, Zhu, Yule, Liu, Liangyi, Kang, Po, Tien, Poliyka, H., Staub, U., Wagner, M., Gross, H., Sano, Teruo, Ishiguro, Akiro, Fayos, J., Garro, R., Bellés, J., Conejero, V., Bonfiglioli, R., Webb, D., Symons, R., El-Dougdoug, K., Abo-Zeid, A., Ambrós, S., Hernandez, C., Desvignes, J., Flores, R., d'Aquilio, M., Lisa, V., Boccardo, G., Vera, A., Daròs, J., Henkel, J., Spieker, R., Higgins, C., Turley, R., Chamberlain, D., Bateson, M., d'Aquino, L., Ragozzino, A., Henderson, J., Chaleeprom, W., Gibbs, A., Graichen, K., Rabenstein, F., Schliephake, E., Smith, H., Stevens, M., Sadowy, E., Hulanicka, D., Wegener, B., Martin, M., Wetzel, T., Cook, G., Kasdorf, G., Pietersen, G., Braithwaite, Kathryn, Gambley, Cherie, Smith, Grant, Druka, Arnis, Villegas, Lucille, Dahal, Ganesh, Hull, Roger, Senchugova, N., Büchen-Osmond, C., Dallwitz, M., Blaine, L., Naik, P., Sonone, A., Kolaskar, A., Sgro, J., Palmenberg, A., Leclerc, Denis, Hohn, Thomas, Moriones, E., Batlle, A., Luis, M., Alvarez, J., Bernal, J., Alonso, J., Spak, J., Kubelkova, D., Kuo, T., Gachechiladze, K., Adamia, R., Balardshishvili, N., Chanishvili, T., Krüger, D., Nagy, Tibor, Élö, Péter, Papp, Péter, Orosz, László, Licis, N., Berzins, V., Sariol-Carbelo, Carlos, RodrCarlos, C., Janzen, D., Ward, Colin, Scott, S., Shiel, P., Berger, P., Aleman, M., Beachy, R., Fauquet, C., Salm, S., Rybicki, E., Rey, M., Briddon, R., Harper, G., Druka, A., Phillips, S., Brunt, A., Hull, R., Hay, Jo, Dasgupta, Indranil, Zaifeng, Fan, Meehan, Brian, Todd, Daniel, Bunk, Hans-Jörk, Grieco, F., Martelli, G., Saldarelli, P., Minafra, A., Morag, A., Mumcuoglu, M., Baybikov, T., Schlesinger, M., Zakay-Rones, Z., Shohat, B., Shohat, M., Miller, M., Shaklay, M., Kalvatchev, Z., Walder, R., Garzaro, D., Barrios, M., Karagöz, Ali, Kuru, Avni, Karim, M., Johnson, A., Takida, S., Thompson, M., Omer, H., Omer, O., Biyiti, L., Amvam, R., Lamaty, G., Bouchet, P., Xu, J., Hefferon, K., Abou Haidar, M., and Meng, A.

Published

2018

7. Prediction of depressive relapse in remitted bipolar patients using corticotrophin-releasing hormone challenge test

Author

Vieta, E., Gasto, C., Martinez de Osaba, M. J., Nieto, E., Canto, T. J., Otero, A., and Vallejo, J.

Published

1997

8. Avaliação holística do doente com ferida: boas práticas no serviço de Cirurgia C

Author

Honório, M and Canto, T

Subjects

Enfermagem, Cuidados de enfermagem, Feridas e lesões

Abstract

Formação dada ao grupo de enfermeiros, no contexto das boas práticas na abordagem do doente com ferida N/A

Published

2016

9. The Multiplicity of Infection of a Plant Virus Varies during Colonization of Its Eukaryotic Host

Author

Gonzalez-Jara, P., primary, Fraile, A., additional, Canto, T., additional, and Garcia-Arenal, F., additional

Published

2013

10. Transmission by aphids of a naturally non-transmissible plum pox virus isolate with the aid of potato virus Y helper component

Author

Lopez-Moya, J. J., primary, Canto, T., additional, Diaz-Ruiz, J. R., additional, and Lopez-Abella, D., additional

Published

1995

11. Different Helper Component Mutations Associated with Lack of Aphid Transmissibility in Two Isolates of Potato Virus Y

Author

Canto, T., primary

Published

1995

12. Differentiation of Mediterranean plum pox virus isolates by coat protein analysis

Author

LÓPEZ-MOYA, J. J., primary, CANTO, T., additional, LÓPEZ-ABELLA, D., additional, and DÍAZ-RUÍZ, J. R., additional

Published

1994

13. P.1.39 Increased vulnerability to ethanol in prodynorphin knock out mice is associated to decrease opioid function brain

Author

Femenía Cantó, T., Sanguino, E., and Manzanares, J.

Published

2007

14. The Multiplicity of Infection of a Plant Virus Varies during Colonization of Its Eukaryotic Host

Author

González-Jara P, Fraile A, Canto T, and García-Arenal F

15. Tagging Potato leafroll virus with the jellyfish green fluorescent protein gene

Author

Nurkiyanova, K. M., Ryabov, E. V., Ulrich Commandeur, Duncan, G. H., Canto, T., Gray, S. M., Mayo, M. A., and Taliansky, M. E.

16. Abstracts of presentations on plant protection issues at the fifth international Mango Symposium Abstracts of presentations on plant protection issues at the Xth international congress of Virology: September 1-6, 1996 Dan Panorama Hotel, Tel Aviv, Israel August 11-16, 1996 Binyanei haoma, Jerusalem, Israel

Author

Peña, J., Wysoki, M., Singh, Gajendra, Boscán de M., Nancy, Godoy, Freddy, Obligado, A., Rossetto, C., Ribeiro, I., Gallo, P., Soares, N., Sabino, J., Martins, A., Bortoletto, N., Ploetz, R., Benscher, D., Vázquez, Aimé, Colls, A., Nagel, Julianne, Schaffer, B., Pinkas, Y., Maymon, M., Freeman, S., Bostros Bastawros, Mikhail, Gosbee, M., Johnson, G., Joyce, D., Irwin, J., Saaiman, W., Prusky, D., Falik, E., Kobiler, I., Fuchs, Y., Zauberman, G., Pesis, E., Ackerman, M., Roth, I., Weksler, A., Yekutiely, O., Waisblum, A., Keinan, A., Ofek, G., Reved, R., Barak, R., Bel, P., Artes, L., Visarathanonth, N., Xu, Z., Ponce de León, L., Muñoz, C., Pérez, L., Diaz de León, F., Kerbel, C., Esparza, S., Bósquez, E., Trinidad, M., Coates, L., Cooke, A., Dean, J., Lucia Duarte, Ana, Alberto Otto, Paulo, Malavasi, Aldo, Lizado, M., Bautista, M., Bacalangco, N., Farungsang, U., Farungsang, N., Waskar, D., Masalkar, S., Gaikwad, R., Damame, S., Bally, Ian, O'Hare, Tim, Holmes, Rowland, Atabekov, J., Fauquet, Claude, Tomori, O., Nuss, D., Ahlquist, P., Díez, J., Ishikawa, M., Janda, M., Price, B., Restrepo-Hartwig, M., Bol, J., van Rossum, C., Garcia, M., van der Vossen, E., Reusken, Chantal, Canto, T., Gal-On, A., Palukaitis, P., Roossinck, M., Flasinski, S., Restrepo-Hartwig, Maria, Ahlquist, Paul, Smirnyagina, Ekaterina, Lin, Na-Sheng, Nagy, Peter, Figlerowicz, Marek, Bujarski, Jozef, Proll, D., Guyatt, K., Davidson, A., Kim, Kook-Hyung, Miller, Eric, Hemenway, Cynthia, Havelda, Z., Dalmay, T., Burgyán, J., Kearney, C., Thomson, M., Roland, K., Dawson, W., Bao, Y., Carter, S., Nelson, R., Derrick, P., Shun Ding, Xin, Eskarous, J., Sarkar, S., El-Shamy, M., Chen, J., Sako, N., Yuichiro, W., Ohshima, K., Okada, Y., Felden, Brice, Kuznetsov, Yuri, Malkin, Alexander, Greenwood, Aaron, McPherson, Alexander, Ivanov, K., Dorokhov, Y., Kim, C., Sálanki, Katalin, Carrére, Isabelle, Jacquemond, Mireille, Tepfer, Mark, Balazs, Ervin, Sanz, A., Serra, M., García-Luque, I., Revers, F., Candresse, T., LeGall, O., Souche, S., Lot, H., Dunez, J., Cecchini, E., Milner, J., Al-Kaff, N., Covey, S., Gong, Z., Geri, C., Richert-Pöggeler, K., Shepherd, R., Casper, R., Meiri, Eti, Raccah, B., Gera, A., Singer, S., Allam, E., El Afifi, Soheir, Abo El Nasr, M., Abd El Ghaffar, M., Elisabeth Johansen, I., Keller, K., Hampton, R., SÕrensen, Karina, Bishnoi, S., Rishi, Narayan, Gumedzoe, M., Atissime, K., Yedibahoma, S., Wellink, Joan, Verver, Jan, Bertens, Peter, van Lent, Jan, Goldbach, Rob, van Kammen, Ab, Lekkerkerker, Annemarie, Taylor, K., Spall, V., Lomonossoff, G., Yu. Morozov, S., Solovyev, A., Zelenina, D., Savenkov, E., Grdzelishvili, V., Morozov, S., Jansen, K., Wolfs, C., Lohuis, H., Verduin, B., Stein-Margolina, V., Hsu, Y., Chang, B., Lin, N., Pilartz, Marcel, Jeske, Holger, Verchot, Jeanmarie, Baulcombe, David, English, David, Müller, E., Baulcombe, D., Malcuit, Isabelle, Kavanagh, Tony, Valkonen, J., Puurand, Ü., Merits, A., Rabinstein, F., Sorri, O., Saarma, M., Liao, Y., Vaquero-Martin, C., Monecke, M., Rohde, W., Prüfer, D., Fischer, R., Antignus, Y., Lachman, O., Pearlsman, M., Cohen, S., Qiu, W., Moyer, J., Feldhoff, A., Kikkert, M., Kormelink, R., Krczal, G., Peters, D., Szittya, György, Burgyán, József, Wvpijewski, K., Paduch-Cichal, E., Rezler, A., Skrzeczkowska, S., Augustyniak, J., Nemchinov, L., Maiss, E., Hadidi, A., Wittner, Anita, Palkovics, László, Balázs, Ervin, Crescenzi, A., Piazzolla, P., Kheyr-Pour, A., Dafalla, G., Lecoq, H., Gronenborn, B., Bauer, U., Laux, I., Hajimorad, M., Ding, X., Flasinski, Stanislaw, Cassidy, Pour, Dugdale, B., Beetham, P., Harding, R., Dale, J., Qiu, G., Shaw, J., Molnár, A., Más, P., Balsalobre, J., Sánchez-Pina, M., Pallás, V., Rahontei, J., López, L., Lázara, J., Barón, M., Owens, R., Steger, G., Hu, Y., Fels, A., Hammond, R., Riesner, D., Schröder, A., Góra, A., Pawlowicz, J., Kierzek, A., Zagorski, W., Baumstark, T., Schiebel, W., Schiebel, R., Axmann, A., Haas, B., Sänger, H., Xicai, Yang, Yin, Yie, Feng, Zhu, Yule, Liu, Liangyi, Kang, Po, Tien, Poliyka, H., Staub, U., Wagner, M., Gross, H., Sano, Teruo, Ishiguro, Akiro, Fayos, J., Garro, R., Bellés, J., Conejero, V., Bonfiglioli, R., Webb, D., Symons, R., El-Dougdoug, K., Abo-Zeid, A., Ambrós, S., Hernandez, C., Desvignes, J., Flores, R., d'Aquilio, M., Lisa, V., Boccardo, G., Vera, A., Daròs, J., Henkel, J., Spieker, R., Higgins, C., Turley, R., Chamberlain, D., Bateson, M., d'Aquino, L., Ragozzino, A., Henderson, J., Chaleeprom, W., Gibbs, A., Graichen, K., Rabenstein, F., Schliephake, E., Smith, H., Stevens, M., Sadowy, E., Hulanicka, D., Wegener, B., Martin, M., Wetzel, T., Cook, G., Kasdorf, G., Pietersen, G., Braithwaite, Kathryn, Gambley, Cherie, Smith, Grant, Druka, Arnis, Villegas, Lucille, Dahal, Ganesh, Hull, Roger, Senchugova, N., Büchen-Osmond, C., Dallwitz, M., Blaine, L., Naik, P., Sonone, A., Kolaskar, A., Sgro, J., Palmenberg, A., Leclerc, Denis, Hohn, Thomas, Moriones, E., Batlle, A., Luis, M., Alvarez, J., Bernal, J., Alonso, J., Spak, J., Kubelkova, D., Kuo, T., Gachechiladze, K., Adamia, R., Balardshishvili, N., Chanishvili, T., Krüger, D., Nagy, Tibor, Élö, Péter, Papp, Péter, Orosz, László, Licis, N., Berzins, V., Sariol-Carbelo, Carlos, RodrCarlos, C., Janzen, D., Ward, Colin, Scott, S., Shiel, P., Berger, P., Aleman, M., Beachy, R., Fauquet, C., Salm, S., Rybicki, E., Rey, M., Briddon, R., Harper, G., Druka, A., Phillips, S., Brunt, A., Hull, R., Hay, Jo, Dasgupta, Indranil, Zaifeng, Fan, Meehan, Brian, Todd, Daniel, Bunk, Hans-Jörk, Grieco, F., Martelli, G., Saldarelli, P., Minafra, A., Morag, A., Mumcuoglu, M., Baybikov, T., Schlesinger, M., Zakay-Rones, Z., Shohat, B., Shohat, M., Miller, M., Shaklay, M., Kalvatchev, Z., Walder, R., Garzaro, D., Barrios, M., Karagöz, Ali, Kuru, Avni, Karim, M., Johnson, A., Takida, S., Thompson, M., Omer, H., Omer, O., Biyiti, L., Amvam, R., Lamaty, G., Bouchet, P., Xu, J., Hefferon, K., Abou Haidar, M., Meng, A., Peña, J., Wysoki, M., Singh, Gajendra, Boscán de M., Nancy, Godoy, Freddy, Obligado, A., Rossetto, C., Ribeiro, I., Gallo, P., Soares, N., Sabino, J., Martins, A., Bortoletto, N., Ploetz, R., Benscher, D., Vázquez, Aimé, Colls, A., Nagel, Julianne, Schaffer, B., Pinkas, Y., Maymon, M., Freeman, S., Bostros Bastawros, Mikhail, Gosbee, M., Johnson, G., Joyce, D., Irwin, J., Saaiman, W., Prusky, D., Falik, E., Kobiler, I., Fuchs, Y., Zauberman, G., Pesis, E., Ackerman, M., Roth, I., Weksler, A., Yekutiely, O., Waisblum, A., Keinan, A., Ofek, G., Reved, R., Barak, R., Bel, P., Artes, L., Visarathanonth, N., Xu, Z., Ponce de León, L., Muñoz, C., Pérez, L., Diaz de León, F., Kerbel, C., Esparza, S., Bósquez, E., Trinidad, M., Coates, L., Cooke, A., Dean, J., Lucia Duarte, Ana, Alberto Otto, Paulo, Malavasi, Aldo, Lizado, M., Bautista, M., Bacalangco, N., Farungsang, U., Farungsang, N., Waskar, D., Masalkar, S., Gaikwad, R., Damame, S., Bally, Ian, O'Hare, Tim, Holmes, Rowland, Atabekov, J., Fauquet, Claude, Tomori, O., Nuss, D., Ahlquist, P., Díez, J., Ishikawa, M., Janda, M., Price, B., Restrepo-Hartwig, M., Bol, J., van Rossum, C., Garcia, M., van der Vossen, E., Reusken, Chantal, Canto, T., Gal-On, A., Palukaitis, P., Roossinck, M., Flasinski, S., Restrepo-Hartwig, Maria, Ahlquist, Paul, Smirnyagina, Ekaterina, Lin, Na-Sheng, Nagy, Peter, Figlerowicz, Marek, Bujarski, Jozef, Proll, D., Guyatt, K., Davidson, A., Kim, Kook-Hyung, Miller, Eric, Hemenway, Cynthia, Havelda, Z., Dalmay, T., Burgyán, J., Kearney, C., Thomson, M., Roland, K., Dawson, W., Bao, Y., Carter, S., Nelson, R., Derrick, P., Shun Ding, Xin, Eskarous, J., Sarkar, S., El-Shamy, M., Chen, J., Sako, N., Yuichiro, W., Ohshima, K., Okada, Y., Felden, Brice, Kuznetsov, Yuri, Malkin, Alexander, Greenwood, Aaron, McPherson, Alexander, Ivanov, K., Dorokhov, Y., Kim, C., Sálanki, Katalin, Carrére, Isabelle, Jacquemond, Mireille, Tepfer, Mark, Balazs, Ervin, Sanz, A., Serra, M., García-Luque, I., Revers, F., Candresse, T., LeGall, O., Souche, S., Lot, H., Dunez, J., Cecchini, E., Milner, J., Al-Kaff, N., Covey, S., Gong, Z., Geri, C., Richert-Pöggeler, K., Shepherd, R., Casper, R., Meiri, Eti, Raccah, B., Gera, A., Singer, S., Allam, E., El Afifi, Soheir, Abo El Nasr, M., Abd El Ghaffar, M., Elisabeth Johansen, I., Keller, K., Hampton, R., SÕrensen, Karina, Bishnoi, S., Rishi, Narayan, Gumedzoe, M., Atissime, K., Yedibahoma, S., Wellink, Joan, Verver, Jan, Bertens, Peter, van Lent, Jan, Goldbach, Rob, van Kammen, Ab, Lekkerkerker, Annemarie, Taylor, K., Spall, V., Lomonossoff, G., Yu. Morozov, S., Solovyev, A., Zelenina, D., Savenkov, E., Grdzelishvili, V., Morozov, S., Jansen, K., Wolfs, C., Lohuis, H., Verduin, B., Stein-Margolina, V., Hsu, Y., Chang, B., Lin, N., Pilartz, Marcel, Jeske, Holger, Verchot, Jeanmarie, Baulcombe, David, English, David, Müller, E., Baulcombe, D., Malcuit, Isabelle, Kavanagh, Tony, Valkonen, J., Puurand, Ü., Merits, A., Rabinstein, F., Sorri, O., Saarma, M., Liao, Y., Vaquero-Martin, C., Monecke, M., Rohde, W., Prüfer, D., Fischer, R., Antignus, Y., Lachman, O., Pearlsman, M., Cohen, S., Qiu, W., Moyer, J., Feldhoff, A., Kikkert, M., Kormelink, R., Krczal, G., Peters, D., Szittya, György, Burgyán, József, Wvpijewski, K., Paduch-Cichal, E., Rezler, A., Skrzeczkowska, S., Augustyniak, J., Nemchinov, L., Maiss, E., Hadidi, A., Wittner, Anita, Palkovics, László, Balázs, Ervin, Crescenzi, A., Piazzolla, P., Kheyr-Pour, A., Dafalla, G., Lecoq, H., Gronenborn, B., Bauer, U., Laux, I., Hajimorad, M., Ding, X., Flasinski, Stanislaw, Cassidy, Pour, Dugdale, B., Beetham, P., Harding, R., Dale, J., Qiu, G., Shaw, J., Molnár, A., Más, P., Balsalobre, J., Sánchez-Pina, M., Pallás, V., Rahontei, J., López, L., Lázara, J., Barón, M., Owens, R., Steger, G., Hu, Y., Fels, A., Hammond, R., Riesner, D., Schröder, A., Góra, A., Pawlowicz, J., Kierzek, A., Zagorski, W., Baumstark, T., Schiebel, W., Schiebel, R., Axmann, A., Haas, B., Sänger, H., Xicai, Yang, Yin, Yie, Feng, Zhu, Yule, Liu, Liangyi, Kang, Po, Tien, Poliyka, H., Staub, U., Wagner, M., Gross, H., Sano, Teruo, Ishiguro, Akiro, Fayos, J., Garro, R., Bellés, J., Conejero, V., Bonfiglioli, R., Webb, D., Symons, R., El-Dougdoug, K., Abo-Zeid, A., Ambrós, S., Hernandez, C., Desvignes, J., Flores, R., d'Aquilio, M., Lisa, V., Boccardo, G., Vera, A., Daròs, J., Henkel, J., Spieker, R., Higgins, C., Turley, R., Chamberlain, D., Bateson, M., d'Aquino, L., Ragozzino, A., Henderson, J., Chaleeprom, W., Gibbs, A., Graichen, K., Rabenstein, F., Schliephake, E., Smith, H., Stevens, M., Sadowy, E., Hulanicka, D., Wegener, B., Martin, M., Wetzel, T., Cook, G., Kasdorf, G., Pietersen, G., Braithwaite, Kathryn, Gambley, Cherie, Smith, Grant, Druka, Arnis, Villegas, Lucille, Dahal, Ganesh, Hull, Roger, Senchugova, N., Büchen-Osmond, C., Dallwitz, M., Blaine, L., Naik, P., Sonone, A., Kolaskar, A., Sgro, J., Palmenberg, A., Leclerc, Denis, Hohn, Thomas, Moriones, E., Batlle, A., Luis, M., Alvarez, J., Bernal, J., Alonso, J., Spak, J., Kubelkova, D., Kuo, T., Gachechiladze, K., Adamia, R., Balardshishvili, N., Chanishvili, T., Krüger, D., Nagy, Tibor, Élö, Péter, Papp, Péter, Orosz, László, Licis, N., Berzins, V., Sariol-Carbelo, Carlos, RodrCarlos, C., Janzen, D., Ward, Colin, Scott, S., Shiel, P., Berger, P., Aleman, M., Beachy, R., Fauquet, C., Salm, S., Rybicki, E., Rey, M., Briddon, R., Harper, G., Druka, A., Phillips, S., Brunt, A., Hull, R., Hay, Jo, Dasgupta, Indranil, Zaifeng, Fan, Meehan, Brian, Todd, Daniel, Bunk, Hans-Jörk, Grieco, F., Martelli, G., Saldarelli, P., Minafra, A., Morag, A., Mumcuoglu, M., Baybikov, T., Schlesinger, M., Zakay-Rones, Z., Shohat, B., Shohat, M., Miller, M., Shaklay, M., Kalvatchev, Z., Walder, R., Garzaro, D., Barrios, M., Karagöz, Ali, Kuru, Avni, Karim, M., Johnson, A., Takida, S., Thompson, M., Omer, H., Omer, O., Biyiti, L., Amvam, R., Lamaty, G., Bouchet, P., Xu, J., Hefferon, K., Abou Haidar, M., and Meng, A.

17. Heterologous expression of plant virus genes that suppress post-transcriptional gene silencing results in suppression of RNA interference in Drosophila cells

Author

Canto Tomas, Dawson Sheila, Reavy Brian, and MacFarlane Stuart A

Subjects

Biotechnology, TP248.13-248.65

Abstract

Abstract Background RNA interference (RNAi) in animals and post-transcriptional gene silencing (PTGS) in plants are related phenomena whose functions include the developmental regulation of gene expression and protection from transposable elements and viruses. Plant viruses respond by expressing suppressor proteins that interfere with the PTGS system. Results Here we demonstrate that both transient and constitutive expression of the Tobacco etch virus HC-Pro silencing suppressor protein, which inhibits the maintenance of PTGS in plants, prevents dsRNA-induced RNAi of a lacZ gene in cultured Drosophila cells. Northern blot analysis of the RNA present in Drosophila cells showed that HC-Pro prevented degradation of lacZ RNA during RNAi but that there was accumulation of the short (23nt) RNA species associated with RNAi. A mutant HC-Pro that does not suppress PTGS in plants also does not affect RNAi in Drosophila. Similarly, the Cucumber mosaic virus 2b protein, which inhibits the systemic spread of PTGS in plants, does not suppress RNAi in Drosophila cells. In addition, we have used the Drosophila system to demonstrate that the 16K cysteine-rich protein of Tobacco rattle virus, which previously had no known function, is a silencing suppressor protein. Conclusion These results indicate that at least part of the process of RNAi in Drosophila and PTGS in plants is conserved, and that plant virus silencing suppressor proteins may be useful tools to investigate the mechanism of RNAi.

Published

2004

18. Effect of oral contraceptive use on the erythrocytic glutathione reductase and aspartate aminotransferase activities in women with or without clinical signs of vitamin D deficiency

Author

Lopez-Castro, B. R., Canto, T., Bourges, H., Torres, N., and Tovar, A.

Published

1985

19. ICTV Virus Taxonomy Profile: Bromoviridae 2025.

Author

Thompson JR, Canto T, Carr JP, Pallás V, and Šafářová D

Subjects

RNA, Viral genetics, Virion ultrastructure, Virion genetics, Phylogeny, Genome, Viral, Plant Diseases virology, Bromoviridae genetics, Bromoviridae classification

Abstract

Bromoviridae is a family of plant viruses with tripartite, positive-sense RNA genomes of about 8 kb in total. Genomic RNAs are packaged in separate virions that may also contain sub-genomic, defective or satellite RNAs. Virions are variable in morphology (spherical or bacilliform) and may be transmitted between hosts mechanically, via pollen, or non-persistently by insect vectors. Members of the family are responsible for major disease epidemics in fruit, vegetable and fodder crops such as tomatoes, cucurbits, bananas, fruit trees, common beans and alfalfa. Since the adoption of metagenomic high-throughput sequencing methodologies, there has been a notable increase in the number of species in the genus Ilarvirus . This is a summary of the International Committee on Taxonomy of Viruses (ICTV) Report on the family Bromoviridae, which is available at ictv.global/report/bromoviridae.

Published

2025

20. Comparative analysis of RNA interference and pattern-triggered immunity induced by dsRNA reveals different efficiencies in the antiviral response to potato virus X.

Author

Necira K, Contreras L, Kamargiakis E, Kamoun MS, Canto T, and Tenllado F

Subjects

Innate Immunity Recognition, Potexvirus, RNA, Double-Stranded, Nicotiana virology, Nicotiana immunology, Nicotiana genetics, RNA Interference, Plant Immunity genetics, Plant Diseases virology, Plant Diseases immunology

Abstract

Antiviral responses induced by double-stranded RNA (dsRNA) include RNA interference (RNAi) and pattern-triggered immunity (PTI), but their relative contributions to antiviral defence are not well understood. We aimed at testing the impact of exogenous applied dsRNA on both layers of defence against potato virus X expressing GFP (PVX-GFP) in Nicotiana benthamiana. Co-inoculation of PVX-GFP with either sequence-specific (RNAi) or nonspecific dsRNA (PTI) showed that nonspecific dsRNA reduced virus accumulation in both inoculated and systemic leaves. However, nonspecific dsRNA was a poor inducer of antiviral immunity compared to a sequence-specific dsRNA capable of triggering the RNAi response, and plants became susceptible to systemic infection. Studies with a PVX mutant unable to move from cell to cell indicated that the interference with PVX-GFP triggered by nonspecific dsRNA operated at the single-cell level. Next, we performed RNA-seq analysis to examine similarities and differences in the transcriptome triggered by dsRNA alone or in combination with viruses harbouring sequences targeted or not by dsRNA. Enrichment analysis showed an over-representation of plant-pathogen signalling pathways, such as calcium, ethylene and MAPK signalling, which are typical of antimicrobial PTI. Moreover, the transcriptomic response to the virus targeted by dsRNA had a greater impact on defence than the non-targeted virus, highlighting qualitative differences between sequence-specific RNAi and nonspecific PTI responses. Together, these results further our understanding of plant antiviral defence, particularly the contribution of nonspecific dsRNA-mediated PTI. We envisage that both sequence-specific RNAi and nonspecific PTI pathways may be triggered via topical application of dsRNA, contributing cumulatively to plant protection against viruses., (© 2024 The Author(s). Molecular Plant Pathology published by British Society for Plant Pathology and John Wiley & Sons Ltd.)

Published

2024

21. Adaptive substitutions at two amino acids of HCPro modify its functional properties to separately increase the virulence of a potyviral chimera.

Author

Sun H, Ciska M, Makki M, Tenllado F, and Canto T

Subjects

Virulence genetics, Plant Diseases virology, Chimera, Plum Pox Virus pathogenicity, Plum Pox Virus genetics, Cysteine Endopeptidases metabolism, Cysteine Endopeptidases genetics, Mutation genetics, Nicotiana virology, Potyvirus pathogenicity, Potyvirus genetics, Viral Proteins metabolism, Viral Proteins genetics, Amino Acid Substitution

Abstract

We had previously reported that a plum pox virus (PPV)-based chimera that had its P1-HCPro bi-cistron replaced by a modified one from potato virus Y (PVY) increased its virulence in some Nicotiana benthamiana plants, after mechanical passages. This correlated with the natural acquisition of amino acid substitutions in several proteins, including in HCPro at either position 352 (Ile→Thr) or 454 (Leu→Arg), or of mutations in non-coding regions. Thr in position 352 is not found among natural potyviruses, while Arg in 454 is a reversion to the native PVY HCPro amino acid. We show here that both mutations separately contributed to the increased virulence observed in the passaged chimeras that acquired them, and that Thr in position 352 is no intragenic suppressor to a Leu in position 454, because their combined effects were cumulative. We demonstrate that Arg in position 454 improved HCPro autocatalytic cleavage, while Thr in position 352 increased its accumulation and the silencing suppression of a reporter in agropatch assays. We assessed infection by four cloned chimera variants expressing HCPro with none of the two substitutions, one of them or both, in wild-type versus DCL2/4-silenced transgenic plants. We found that during infection, the transgenic context of altered small RNAs affected the accumulation of the four HCPro variants differently and hence, also infection virulence., (© 2024 The Author(s). Molecular Plant Pathology published by British Society for Plant Pathology and John Wiley & Sons Ltd.)

Published

2024

22. Environmental Conditions Modulate Plant Virus Vertical Transmission and Survival of Infected Seeds.

Author

Gutiérrez-Sánchez Á, Cobos A, López-Herranz M, Canto T, and Pagán I

Subjects

Plant Diseases, Seeds, Plants, Plant Viruses, Arabidopsis

Abstract

Seed transmission is a major mode for plant virus persistence and dispersal, as it allows for virus survival within the seed in unfavorable conditions and facilitates spread when they become more favorable. To access these benefits, viruses require infected seeds to remain viable and germinate in altered environmental conditions, which may also be advantageous for the plant. However, how environmental conditions and virus infection affect seed viability, and whether these effects modulate seed transmission rate and plant fitness, is unknown. To address these questions, we utilized turnip mosaic virus, cucumber mosaic virus, and Arabidopsis thaliana as model systems. Using seeds from plants infected by these viruses, we analyzed seed germination rates, as a proxy of seed viability, and virus seed transmission rate under standard and altered temperature, CO 2 , and light intensity. With these data, we developed and parameterized a mathematical epidemiological model to explore the consequences of the observed alterations on virus prevalence and persistence. Altered conditions generally reduced overall seed viability and increased virus transmission rate compared with standard conditions, which indicated that under environmental stress, infected seeds are more viable. Hence, virus presence may be beneficial for the host. Subsequent simulations predicted that enhanced viability of infected seeds and higher virus transmission rate may increase virus prevalence and persistence in the host population under altered conditions. This work provides novel information on the influence of the environment in plant virus epidemics. [Formula: see text] Copyright © 2023 The Author(s). This is an open access article distributed under the CC BY-NC-ND 4.0 International license., Competing Interests: The author(s) declare no conflict of interest.

Published

2023

23. Transgenerational Tolerance to Salt and Osmotic Stresses Induced by Plant Virus Infection.

Author

Hernández-Walias FJ, García M, Moreno M, Giannoukos I, González N, Sanz-García E, Necira K, Canto T, and Tenllado F

Subjects

Osmotic Pressure, Nicotiana, Sodium Chloride pharmacology, Stress, Physiological genetics, Gene Expression Regulation, Plant, Plants, Genetically Modified physiology, Plant Proteins genetics, Plum Pox Virus genetics, Potexvirus genetics

Abstract

Following pathogen infection, plants have developed diverse mechanisms that direct their immune systems towards more robust induction of defense responses against recurrent environmental stresses. The induced resistances could be inherited by the progenies, rendering them more tolerant to stressful events. Although within-generational induction of tolerance to abiotic stress is a well-documented phenomenon in virus-infected plants, the transgenerational inheritance of tolerance to abiotic stresses in their progenies has not been explored. Here, we show that infection of Nicotiana benthamiana plants by Potato virus X (PVX) and by a chimeric Plum pox virus (PPV) expressing the P25 pathogenicity protein of PVX (PPV-P25), but not by PPV, conferred tolerance to both salt and osmotic stresses to the progeny, which correlated with the level of virulence of the pathogen. This transgenerational tolerance to abiotic stresses in the progeny was partially sustained even if the plants experience a virus-free generation. Moreover, progenies from a Dicer-like3 mutant mimicked the enhanced tolerance to abiotic stress observed in progenies of PVX-infected wild-type plants. This phenotype was shown irrespective of whether Dicer-like3 parents were infected, suggesting the involvement of 24-nt small interfering RNAs in the transgenerational tolerance to abiotic stress induced by virus infection. RNAseq analysis supported the upregulation of genes related to protein folding and response to stress in the progeny of PVX-infected plants. From an environmental point of view, the significance of virus-induced transgenerational tolerance to abiotic stress could be questionable, as its induction was offset by major reproductive costs arising from a detrimental effect on seed production.

Published

2022

24. Adaptation of a Potyvirus Chimera Increases Its Virulence in a Compatible Host through Changes in HCPro.

Author

Sun H, Del Toro F, Makki M, Tenllado F, and Canto T

Abstract

A viral chimera in which the P1-HCPro bi-cistron of a plum pox virus construct (PPV-GFP) was replaced by that of potato virus Y (PVY) spread slowly systemically in Nicotiana benthamiana plants and accumulated to levels that were 5-10% those of parental PPV-GFP. We tested whether consecutive mechanical passages could increase its virulence, and found that after several passages, chimera titers rose and symptoms increased. We sequenced over half the genome of passaged chimera lineages infecting two plants. The regions sequenced were 5'NCR-P1-HCPro-P3 ; Vpg/NIa ; GFP-CP , because of being potential sites for mutations/deletions leading to adaptation. We found few substitutions, all non-synonymous: two in one chimera (nt 2053 HCPro , and 5733 Vpg/NIa ), and three in the other (2359 HCPro , 5729 Vpg/NIa , 9466 CP ). HCPro substitutions 2053 A U U(Ile)→A C U(Thr), and 2359 C U G(Leu)→C G G(Arg) occurred at positions where single nucleotide polymorphisms were observed in NGS libraries of sRNA reads from agroinfiltrated plants (generation 1). Remarkably, position 2053 was the only one in the sequenced protein-encoding genome in which polymorphisms were common to the four libraries, suggesting that selective pressure existed to alter that specific nucleotide, previous to any passage. Mutations 5729 and 5733 in the Vpg by contrast did not correlate with polymorphisms in generation 1 libraries. Reverse genetics showed that substitution 2053 alone increased several-fold viral local accumulation, speed of systemic spread, and systemic titers.

Published

2022

25. Water Deficit Improves Reproductive Fitness in Nicotiana benthamiana Plants Infected by Cucumber mosaic virus .

Author

Moreno M, Ojeda B, Hernández-Walias FJ, Sanz-García E, Canto T, and Tenllado F

Abstract

Plants are concurrently exposed to biotic and abiotic stresses, including infection by viruses and drought. Combined stresses result in plant responses that are different from those observed for each individual stress. We investigated compensatory effects induced by virus infection on the fitness of hosts grown under water deficit, and the hypothesis that water deficit improves tolerance, estimated as reproductive fitness, to virus infection. Our results show that infection by Turnip mosaic virus (TuMV) or Cucumber mosaic virus (CMV) promotes drought tolerance in Arabidopsis thaliana and Nicotiana benthamiana . However, neither CMV nor TuMV had a positive impact on host reproductive fitness following withdrawal of water, as determined by measuring the number of individuals producing seeds, seed grains, and seed germination rates. Importantly, infection by CMV but not by TuMV improved the reproductive fitness of N. benthamiana plants when exposed to drought compared to watered, virus-infected plants. However, no such conditional phenotype was found in Arabidopsis plants infected with CMV. Water deficit did not affect the capacity of infected plants to transmit CMV through seeds. These findings highlight a conditional improvement in biological efficacy of N. benthamiana plants infected with CMV under water deficit, and lead to the prediction that plants can exhibit increased tolerance to specific viruses under some of the projected climate change scenarios.

Published

2022

26. In planta vs viral expression of HCPro affects its binding of nonplant 21-22 nucleotide small RNAs, but not its preference for 5'-terminal adenines, or its effects on small RNA methylation.

Author

Del Toro F, Sun H, Robinson C, Jiménez Á, Covielles E, Higuera T, Aguilar E, Tenllado F, and Canto T

Subjects

Adenine, Methylation, Plant Diseases, RNA Interference, RNA, Viral genetics, RNA, Viral metabolism, Viral Proteins metabolism, Nucleotides metabolism, Nicotiana metabolism

Abstract

Previous studies have found a correlation between the abilities of PVX vector-expressed HCPro variants to bind small RNAs (sRNAs), and to suppress silencing. Moreover, HCPro preferred to bind viral sRNAs of 21-22 nucleotides (nt) containing 5'-terminal adenines. This would require such viral sRNAs to have either different access to the suppressor than those of plant sequences, or different molecular properties. To investigate this preference further, we have used suppressor-competent or suppressor-deficient HCPro variants, expressed from either T-DNAs or potyvirus constructs. Then, the sRNAs generated in plants and associated with the purified HCPro variants were characterized. Marked differences were observed in the ratios of sRNAs of plant vs nonplant origin that bound to suppressor-competent HCPro, depending on the mode of its expression. Regardless of the means of expression, HCPro retained the same preference among the nonplant sRNAs of 21-22 nt for those with 5'-terminal adenines. Relative methylation levels of individual sRNAs were assessed, and the nonplant sRNAs were found to be significantly less methylated in the presence of the suppressor. Targeted binding of sRNAs based on size, 5'-terminal sequence and origin, together with affecting their methylation, could explain how HCPro counteracts silencing., (© 2021 The Authors. New Phytologist © 2021 New Phytologist Foundation.)

Published

2022

27. Molecular insights on potato yellow vein crinivirus infections in the highlands of Colombia.

Author

Niño Á, Del Toro FJ, Tenllado F, Canto T, and Franco-Lara L

Subjects

Colombia, Plant Leaves virology, Plant Tubers virology, Potyvirus, RNA, Viral analysis, RNA, Viral genetics, Crinivirus genetics, Crinivirus isolation & purification, Genome, Viral, Plant Diseases virology, Solanum tuberosum virology

Abstract

Potato yellow vein virus (PYVV) was detected in potatoes grown in the Central highlands, north of Bogotá (~3000 m altitude), Colombia. At this altitude viral whitefly vectors are largely absent, but infection persists because of the use of uncertified tubers. Plants with typical PYVV-induced yellowing symptoms, as well as with atypical yellowing or non-symptomatic symptoms were sampled at three separate geographical locations. PYVV presence was assessed by RT-PCR, and several plants were subjected to high-throughput sequencing (HTS) of their small RNA (sRNA) populations. Complete or almost complete sequences of four PYVV isolates were thus reconstructed, all from symptomatic plants. Three viral isolates infected plants singly, while the fourth co-infected the plant together with a potyvirus. Relative proportions of sRNAs to each of the three crinivirus genomic RNAs were found to remain comparable among the four infections. Genomic regions were identified as hotspots of sRNA formation, or as regions that poorly induced sRNAs. Furthermore, PYVV titres in the mixed versus single infections remained comparable, indicating an absence of synergistic/antagonistic effects of the potyvirus on the accumulation of PYVV. Daughter plants raised in the greenhouse from tubers of the infected, field-sampled plants displayed mild PYVV infection symptoms that disappeared with time, demonstrating the occurrence of recovery and asymptomatic infection phenotypes in this pathosystem.

Published

2021

28. Differences in Virulence among PVY Isolates of Different Geographical Origins When Infecting an Experimental Host under Two Growing Environments Are Not Determined by HCPro.

Author

Makki M, Del Toro FJ, Necira K, Tenllado F, Djilani-Khouadja F, and Canto T

Abstract

The contribution of the HCPro factors expressed by several PVY isolates of different geographical origins (one from Scotland, one from Spain, and several from Tunisia) to differences in their virulence in Nicotiana benthamiana plants was investigated under two growing conditions: standard (st; 26 °C and current ambient levels of CO 2 ), and climate change-associated (cc; 31 °C and elevated levels of CO 2 ). In all cases, relative infection symptoms and viral titers were determined. The viral HCPro cistrons were also sequenced and amino-acid features of the encoded proteins were established, as well as phylogenetic distances. Additionally, the abilities of the HCPros of several isolates to suppress silencing were assessed under either growing condition. Overall, viral titers and infection symptoms decreased under cc vs. st conditions. However, within each growing condition, relative titers and symptoms were found to be isolate-specific, with titers and symptom severities not always correlating. Crucially, isolates expressing identical HCPros displayed different symptoms. In addition, all HCPro variants tested displayed comparable silencing suppression strengths. Therefore, HCPro alone could not be the main determinant of the relative differences in pathogenicity observed among the PVY isolates tested in this host, under the environments considered.

Published

2021

29. Topical Application of Escherichia coli -Encapsulated dsRNA Induces Resistance in Nicotiana benthamiana to Potato Viruses and Involves RDR6 and Combined Activities of DCL2 and DCL4.

Author

Necira K, Makki M, Sanz-García E, Canto T, Djilani-Khouadja F, and Tenllado F

Abstract

Exogenous application of double-stranded RNAs (dsRNAs) for inducing virus resistance in plants represents an attractive alternative to transgene-based silencing approaches. However, improvement of dsRNA stability in natural conditions is required in order to provide long-term protection against the targeted virus. Here, we tested the protective effect of topical application of Escherichia coli -encapsulated dsRNA compared to naked dsRNA against single and dual infection by Potato virus X expressing the green fluorescent protein (PVX-GFP) and Potato virus Y (PVY) in Nicotiana benthamiana . We found that, in our conditions, the effectiveness of E. coli -encapsulated dsRNA in providing RNAi-mediated protection did not differ from that of naked dsRNA. dsRNA vaccination was partly effective against a dual infection by PVX-GFP and PVY, manifested by a delay in the expression of the synergistic symptoms at early times after inoculation. Using PVX-GFP as a reporter virus together with a suite of RNAi knockdown transgenic lines, we have also shown that RNA-directed RNA polymerase 6 and the combined activities of DICER-like 2 (DCL2) and DCL4 act to promote efficient resistance to virus infection conferred by topical application of dsRNA in N. benthamiana . Our results provide evidence that exogenous dsRNA molecules are processed by the RNA silencing pathways commonly used by the host in response to virus infection.

Published

2021

30. The cucumber mosaic virus 1a protein regulates interactions between the 2b protein and ARGONAUTE 1 while maintaining the silencing suppressor activity of the 2b protein.

Author

Watt LG, Crawshaw S, Rhee SJ, Murphy AM, Canto T, and Carr JP

Subjects

Cucumovirus metabolism, Plant Diseases virology, Arabidopsis virology, Arabidopsis Proteins metabolism, Argonaute Proteins metabolism, Cucumovirus pathogenicity, Methyltransferases metabolism, Viral Proteins metabolism

Abstract

The cucumber mosaic virus (CMV) 2b viral suppressor of RNA silencing (VSR) is a potent counter-defense and pathogenicity factor that inhibits antiviral silencing by titration of short double-stranded RNAs. It also disrupts microRNA-mediated regulation of host gene expression by binding ARGONAUTE 1 (AGO1). But in Arabidopsis thaliana complete inhibition of AGO1 is counterproductive to CMV since this triggers another layer of antiviral silencing mediated by AGO2, de-represses strong resistance against aphids (the insect vectors of CMV), and exacerbates symptoms. Using confocal laser scanning microscopy, bimolecular fluorescence complementation, and co-immunoprecipitation assays we found that the CMV 1a protein, a component of the viral replicase complex, regulates the 2b-AGO1 interaction. By binding 2b protein molecules and sequestering them in P-bodies, the 1a protein limits the proportion of 2b protein molecules available to bind AGO1, which ameliorates 2b-induced disease symptoms, and moderates induction of resistance to CMV and to its aphid vector. However, the 1a protein-2b protein interaction does not inhibit the ability of the 2b protein to inhibit silencing of reporter gene expression in agroinfiltration assays. The interaction between the CMV 1a and 2b proteins represents a novel regulatory system in which specific functions of a VSR are selectively modulated by another viral protein. The finding also provides a mechanism that explains how CMV, and possibly other viruses, modulates symptom induction and manipulates host-vector interactions., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

31. Overexpression of polygalacturonase-inhibiting protein (PGIP) gene from Hypericum perforatum alters expression of multiple defense-related genes and modulates recalcitrance to Agrobacterium tumefaciens in tobacco.

Author

Hou W, Singh RK, Zhao P, Martins V, Aguilar E, Canto T, Tenllado F, Franklin G, and Dias ACP

Subjects

Gene Expression, Gene Library, Gene Silencing, Hypericum genetics, Plant Proteins genetics, Plants, Genetically Modified, Nicotiana genetics, Nicotiana microbiology, Agrobacterium tumefaciens physiology, Enzyme Inhibitors metabolism, Hypericum enzymology, Plant Proteins metabolism, Nicotiana enzymology

Abstract

Hypericum perforatum L is a remarkable source of high-value secondary metabolites with increasing applications in pharmaceutical industry. However, improvement in the production of secondary metabolites through genetic engineering is a demanding task, as H. perforatum is not amenable to Agrobacterium tumefaciens-mediated transformation. In this study, we identified a Polygalacturonase-inhibiting protein (PGIP) gene from a subtractive cDNA library of A. tumefaciens-treated H. perforatum suspension cells. The role of HpPGIP in defense against A. tumefaciens was analyzed in transgenic Nicotiana tabacum overexpressing HpPGIP alone or fused at the N-terminus to Phenolic oxidative coupling protein (Hyp-1), a gene that positively modulates resistance to A. tumefaciens. Furthermore, virus-induced gene silencing was employed to knock down the expression of the PGIP homologous in N. benthamiana. Results showed that Agrobacterium-mediated expression efficiency greatly decreased in both HpPGIP and Hyp-1-PGIP transgenic plants, as assessed by GUS staining assays. However, silencing of PGIP in N. benthamiana increased the resistance to A. tumefaciens rather than susceptibility, which correlated with induction of pathogenesis-related proteins (PRs). The expression of core genes involved in several defense pathways was also analyzed in transgenic tobacco plants. Overexpression of HpPGIP led to up-regulation of key genes involved in hormone signaling, microRNA-based gene silencing, homeostasis of reactive oxygen species, and the phenylpropanoid pathway. Overexpression of Hyp-1-PGIP seemed to enhance the effect of PGIP on the expression of most genes analyzed. Moreover, HpPGIP was detected in the cytoplasm, nucleus and the plasma membrane or cell wall by confocal microscopy. Overall, our findings suggest HpPGIP modulates recalcitrance to A. tumefaciens-mediated transformation in H. perforatum., (Copyright © 2020 Elsevier GmbH. All rights reserved.)

Published

2020

32. Effects of a changing environment on the defenses of plants to viruses.

Author

Tenllado F and Canto T

Subjects

Disease Resistance, Ecosystem, Environment, Host-Pathogen Interactions, Plant Viruses genetics, Plant Diseases immunology, Plant Diseases virology, Plant Viruses physiology

Abstract

Since their appearance, plants have lived and evolved within changing environments that were determined by a host of abiotic and biotic factors. It is in this evolutionary context that both, the mechanisms of defense by plants against viruses and the viral reprogramming of plant routes were established, which combined define the outcomes of compatible infections. Current alterations in the chemistry of the atmosphere are causing changes in the global context in which plants and viruses interact that are unprecedented not in their nature but in their pace. We discuss here the potential reach of environment changes taking place now, and how the main abiotic parameters that are driving them can affect defense responses of plants to viruses in compatible infections., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

33. Virus infection induces resistance to Pseudomonas syringae and to drought in both compatible and incompatible bacteria-host interactions, which are compromised under conditions of elevated temperature and CO 2 levels.

Author

Aguilar E, Del Toro FJ, Figueira-Galán D, Hou W, Canto T, and Tenllado F

Subjects

Arabidopsis microbiology, Arabidopsis virology, Cyclopentanes metabolism, Droughts, Gene Expression Regulation, Plant physiology, Hydrogen Peroxide metabolism, Oxylipins metabolism, Salicylic Acid metabolism, Temperature, Virulence physiology, Carbon Dioxide metabolism, Host Microbial Interactions physiology, Plant Diseases microbiology, Plant Diseases virology, Pseudomonas syringae physiology, Pseudomonas syringae virology

Abstract

Plants are simultaneously exposed to a variety of biotic and abiotic stresses, such as infections by viruses and bacteria, or drought. This study aimed to improve our understanding of interactions between viral and bacterial pathogens and the environment in the incompatible host Nicotiana benthamiana and the susceptible host Arabidopsis thaliana , and the contribution of viral virulence proteins to these responses. Infection by the P otato virus X (PVX)/ P lum pox virus (PPV) pathosystem induced resistance to Pseudomonas syringae (Pst) and to drought in both compatible and incompatible bacteria-host interactions, once a threshold level of defence responses was triggered by the virulence proteins P25 of PVX and the helper component proteinase of PPV. Virus-induced resistance to Pst was compromised in salicylic acid and jasmonic acid signalling-deficient Arabidopsis but not in N. benthamiana lines. Elevated temperature and CO 2 levels, parameters associated with climate change, negatively affected resistance to Pst and to drought induced by virus infection, and this correlated with diminished H 2 O 2 production, decreased expression of defence genes and a drop in virus titres. Thus, diminished virulence should be considered as a potential factor limiting the outcome of beneficial trade-offs in the response of virus-infected plants to drought or bacterial pathogens under a climate change scenario.

Published

2020

34. Transgenic expression of Hyp-1 gene from Hypericum perforatum L. alters expression of defense-related genes and modulates recalcitrance to Agrobacterium tumefaciens.

Author

Hou W, Singh RK, Zhao P, Martins V, Aguilar E, Canto T, Tenllado F, and Dias ACP

Subjects

Catharanthus microbiology, Hypericum microbiology, Plants, Genetically Modified metabolism, Plants, Genetically Modified microbiology, Nicotiana metabolism, Nicotiana microbiology, Agrobacterium tumefaciens physiology, Catharanthus metabolism, Hypericum metabolism

Abstract

Main Conclusion: Phenolic oxidative coupling protein (Hyp-1) isolated from Hypericum perforatum L. was characterized as a defense gene involved in H. perforatum recalcitrance to Agrobacterium tumefaciens-mediated transformation Hypericum perforatum L. is a reservoir of high-value secondary metabolites of increasing interest to researchers and to the pharmaceutical industry. However, improving their production via genetic manipulation is a challenging task, as H. perforatum is recalcitrant to Agrobacterium tumefaciens-mediated transformation. Here, phenolic oxidative coupling protein (Hyp-1), a pathogenesis-related (PR) class 10 family gene, was selected from a subtractive cDNA library from A. tumefaciens-treated H. perforatum suspension cells. The role of Hyp-1 in defense against A. tumefaciens was analyzed in transgenic Nicotiana tabacum and Lactuca sativa overexpressing Hyp-1, and in Catharanthus roseus silenced for its homologous Hyp-1 gene, CrIPR. Results showed that Agrobacterium-mediated expression efficiency greatly decreased in Hyp-1 transgenic plants. However, silencing of CrIPR induced CrPR-5 expression and decreased expression efficiency of Agrobacterium. The expression of core genes involved in several defense pathways was also analyzed in Hyp-1 transgenic tobacco plants. Overexpression of Hyp-1 led to an ample down-regulation of key genes involved in auxin signaling, microRNA-based gene silencing, detoxification of reactive oxygen species, phenylpropanoid pathway and PRs. Moreover, Hyp-1 was detected in the nucleus, plasma membrane and the cytoplasm of epidermal cells by confocal microscopy. Overall, our findings suggest Hyp-1 modulates recalcitrance to A. tumefaciens-mediated transformation in H. perforatum.

Published

2019

35. Cell death triggered by the P25 protein in Potato virus X-associated synergisms results from endoplasmic reticulum stress in Nicotiana benthamiana.

Author

Aguilar E, Del Toro FJ, Brosseau C, Moffett P, Canto T, and Tenllado F

Subjects

Cell Death, Endoplasmic Reticulum Stress physiology, Microscopy, Confocal, Plant Diseases virology, Transcriptional Activation, Unfolded Protein Response physiology, Viral Proteins genetics, Viral Proteins metabolism, Potexvirus metabolism, Potexvirus pathogenicity, Nicotiana virology

Abstract

The synergistic interaction of Potato virus X (PVX) with a number of potyviruses results in systemic necrosis in Nicotiana spp. Previous investigations have indicated that the viral suppressor of RNA silencing (VSR) protein P25 of PVX triggers systemic necrosis in PVX-associated synergisms in a threshold-dependent manner. However, little is still known about the cellular processes that lead to this necrosis, and whether the VSR activity of P25 is involved in its elicitation. Here, we show that transient expression of P25 in the presence of VSRs from different viruses, including the helper component-proteinase (HC-Pro) of potyviruses, induces endoplasmic reticulum (ER) stress and the unfolded protein response (UPR), which ultimately lead to ER collapse. However, the host RNA silencing pathway was dispensable for the elicitation of cell death by P25. Confocal microscopy studies in leaf patches co-expressing P25 and HC-Pro showed dramatic alterations in ER membrane structures, which correlated with the up-regulation of bZIP60 and several ER-resident chaperones, including the ER luminal binding protein (BiP). Overexpression of BiP alleviated the cell death induced by the potexviral P25 protein when expressed together with VSRs derived from different viruses. Conversely, silencing of the UPR master regulator, bZIP60, led to an increase in cell death elicited by the P25/HC-Pro combination as well as by PVX-associated synergism. In addition to its role as a negative regulator of P25-induced cell death, UPR partially restricted PVX infection. Thus, systemic necrosis caused by PVX-associated synergistic infections is probably the effect of an unmitigated ER stress following the overaccumulation of a viral protein, P25, with ER remodelling activity., (© 2018 BSPP and John Wiley & Sons Ltd.)

Published

2019

36. Tomato geminivirus encoded RNAi suppressor protein, AC4 interacts with host AGO4 and precludes viral DNA methylation.

Author

Vinutha T, Kumar G, Garg V, Canto T, Palukaitis P, Ramesh SV, and Praveen S

Subjects

Argonaute Proteins genetics, Asparagine metabolism, Cell Nucleus metabolism, Cytosine chemistry, DNA Methylation, Geminiviridae genetics, Genome, Viral, Solanum lycopersicum metabolism, Solanum lycopersicum virology, Plant Proteins genetics, Plant Proteins metabolism, RNA Interference, Viral Proteins chemistry, Viral Proteins genetics, Argonaute Proteins metabolism, Geminiviridae metabolism, Solanum lycopersicum growth & development, Viral Proteins metabolism

Abstract

Plant RNA silencing systems are organized as a network, regulating plant developmental pathways and restraining invading viruses, by sharing cellular components with overlapping functions. Host regulatory networks operate either at the transcriptional level via RNA-directed DNA methylation, or at the post-transcriptional stage interfering with mRNA to restrict viral infection. However, viral-derived proteins, including suppressors of RNA silencing, favour virus establishment, and also affect plant developmental processes. In this investigation, we report that Tomato leaf curl New Delhi virus-derived AC4 protein suppresses RNA silencing activity and mutational analysis of AC4 showed that Asn-50 in the SKNT-51 motif, in the C-terminal region, is a critical determinant of its RNA silencing suppressor activity. AC4 showed interaction with host AGO4 but not with AGO1, aggregated around the nucleus, and influenced cytosine methylation of the viral genome. The possible molecular mechanism by which AC4 interferes in the RNA silencing network, helps virus establishment, and affects plant development is discussed., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

37. HCPro-mediated transmission by aphids of purified virions does not require its silencing suppression function and correlates with its ability to coat cell microtubules in loss-of-function mutant studies.

Author

Del Toro FJ, Mencía E, Aguilar E, Tenllado F, and Canto T

Subjects

Animals, Gene Expression Regulation, Viral, Mutation, Plant Diseases virology, Aphids virology, Gene Silencing, Microtubules, Potyvirus metabolism, Nicotiana cytology, Viral Proteins metabolism

Abstract

Native and amino acid (aa) substitution mutants of HCPro from potato virus Y (PVY) were transiently expressed in Nicotiana benthamiana leaves. Properties of those HCPro variants with regard to silencing suppression activities, mediation of viral transmission by aphids, and subcellular localization dynamics, were determined. One mutant failed to suppress silencing in agropatch assays, but could efficiently mediate the transmission by aphids of purified virions. This mutant also retained the ability to translocate to microtubules (MTs) in stressed cells. By contrast, another single aa substitution mutant displayed native-like silencing suppression activity in agropatch assays, but could not mediate transmission of PVY virions by aphids, and could not relocate to MTs. Our data show that silencing suppression by HCPro is not required in the aphid-mediated transmission of purified virions. In addition, since the same single aa alteration compromised both, viral transmission and coating of MTs, those two properties could be functionally related., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

38. Correction for del Toro et al., "Potato Virus Y HCPro Suppression of Antiviral Silencing in Nicotiana benthamiana Plants Correlates with Its Ability To Bind In Vivo to 21- and 22-Nucleotide Small RNAs of Viral Sequence".

Author

Del Toro FJ, Donaire L, Aguilar E, Chung BN, Tenllado F, and Canto T

Published

2018

39. Virulence determines beneficial trade-offs in the response of virus-infected plants to drought via induction of salicylic acid.

Author

Aguilar E, Cutrona C, Del Toro FJ, Vallarino JG, Osorio S, Pérez-Bueno ML, Barón M, Chung BN, Canto T, and Tenllado F

Subjects

Abscisic Acid metabolism, Arabidopsis virology, Mutation, Plant Growth Regulators metabolism, Plant Transpiration physiology, Plum Pox Virus pathogenicity, Potexvirus pathogenicity, Seeds physiology, Seeds virology, Stress, Physiological, Nicotiana virology, Virulence, Arabidopsis physiology, Plant Diseases virology, Plum Pox Virus physiology, Potexvirus physiology, Salicylic Acid metabolism, Nicotiana physiology

Abstract

It has been hypothesized that plants can get beneficial trade-offs from viral infections when grown under drought conditions. However, experimental support for a positive correlation between virus-induced drought tolerance and increased host fitness is scarce. We investigated whether increased virulence exhibited by the synergistic interaction involving Potato virus X (PVX) and Plum pox virus (PPV) improves tolerance to drought and host fitness in Nicotiana benthamiana and Arabidopsis thaliana. Infection by the pair PPV/PVX and by PPV expressing the virulence protein P25 of PVX conferred an enhanced drought-tolerant phenotype compared with single infections with either PPV or PVX. Decreased transpiration rates in virus-infected plants were correlated with drought tolerance in N. benthamiana but not in Arabidopsis. Metabolite and hormonal profiles of Arabidopsis plants infected with the different viruses showed a range of changes that positively correlated with a greater impact on drought tolerance. Virus infection enhanced drought tolerance in both species by increasing salicylic acid accumulation in an abscisic acid-independent manner. Viable offspring derived from Arabidopsis plants infected with PPV increased relative to non-infected plants, when exposed to drought. By contrast, the detrimental effect caused by the more virulent viruses overcame potential benefits associated with increased drought tolerance on host fitness., (© 2017 John Wiley & Sons Ltd.)

Published

2017

40. Effects of simultaneously elevated temperature and CO 2 levels on Nicotiana benthamiana and its infection by different positive-sense RNA viruses are cumulative and virus type-specific.

Author

Del Toro FJ, Rakhshandehroo F, Larruy B, Aguilar E, Tenllado F, and Canto T

Subjects

Chemical Phenomena drug effects, Chemical Phenomena radiation effects, Plant Leaves drug effects, Plant Leaves radiation effects, Plant Leaves virology, Temperature, Nicotiana virology, Carbon Dioxide, Plant Diseases virology, Plant Viruses growth & development, RNA Viruses growth & development, Nicotiana drug effects, Nicotiana radiation effects

Abstract

We have studied how simultaneously elevated temperature and CO 2 levels [climate change-related conditions (CCC) of 30°C, 970 parts-per-million (ppm) of CO 2 vs. standard conditions (SC) of 25°C, ~ 405ppm CO 2 ] affect physiochemical properties of Nicotiana benthamiana leaves, and also its infection by several positive-sense RNA viruses. In previous works we had studied effects of elevated temperature, CO 2 levels separately. Under CCC, leaves of healthy plants almost doubled their area relative to SC but contained less protein/unit-of-area, similarly to what we had found under conditions of elevated CO 2 alone. CCC also affected the sizes/numbers of different foliar cell types differently. Under CCC, infection outcomes in titers and symptoms were virus type-specific, broadly similar to those observed under elevated temperature alone. Under either condition, infections did not significantly alter the protein content of leaf discs. Therefore, effects of elevated temperature and CO 2 combined on properties of the pathosystems studied were overall cumulative., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

41. Identification of MAPKs as signal transduction components required for the cell death response during compatible infection by the synergistic pair Potato virus X-Potato virus Y.

Author

Aguilar E, Del Toro FJ, Canto T, and Tenllado F

Subjects

Nicotiana, Cell Death, Host-Pathogen Interactions, MAP Kinase Signaling System, Mitogen-Activated Protein Kinases metabolism, Plant Diseases virology, Potexvirus physiology, Potyvirus physiology

Abstract

Systemic necrosis is one of the most severe symptoms caused in compatible plant-virus interactions and shares common features with the hypersensitive response (HR). Mitogen-activated protein kinase (MAPK) cascades are associated with responses to compatible and incompatible host-virus interactions. Here, we show that virus-induced gene silencing of the Nicotiana benthamiana MAPK genes salicylic acid-induced protein kinase (SIPK) and wound-induced protein kinase (WIPK), and the MAPK kinase (MAPKK) genes MEK1 and MKK1, partially compromised the HR-like response induced by the synergistic interaction of Potato virus X with Potato virus Y (PVX-PVY). Nevertheless, ameliorated cell death induced by PVX-PVY in the MAPK(K)-silenced plants did not facilitate virus accumulation in systemically infected leaves. Dual silencing of SIPK and of the oxylipin biosynthetic gene 9-Lipoxygenase showed that the latter was epistatic to SIPK in response to PVX-PVY infection. These findings demonstrate that SIPK, WIPK, MEK1 and MKK1 function as positive regulators of PVX-PVY-induced cell death., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

42. Efficient and reproducible in vitro regeneration of Solanum lycopersicum and assessment genetic uniformity using flow cytometry and SPAR methods.

Author

Alatar AA, Faisal M, Abdel-Salam EM, Canto T, Saquib Q, Javed SB, El-Sheikh MA, and Al-Khedhairy AA

Abstract

In the present study, we develop an efficient and reproducible in vitro regeneration system for two cultivars viz. , Jamila and Tomaland of Solanum lycopersicum L., an economically important vegetable crop throughout the world. Sterilization of seeds with 2.5% (v/v) NaOCl was found to be most effective, about 97% of seeds germinated on cotton in magenta box moistened with sterile half strength (½)Murashige and Skoog (MS) medium. Regeneration efficiency of cotyledonary leaf (CL) and cotyledonary node (CN) explants derived from 08 days old aseptic seedling were assessed on MS medium supplemented with different concentrations of auxins and cytokinin. CL explants were found more responsive in comparison to CN in both the cultivars. Types of basal media were also assessed and found to have a significant effect on shoot regeneration. Highest regeneration frequency and maximum number of shoots were standardized from CL explants on MS medium supplied with 6-benzyl adenine (BA; 5.0 µM), indole-3-butyric acid (IBA; 2.5 µM) and Kinetin (Kin; 10.0 µM). In vitro regenerated microshoots were rooted on ½MS medium containing 0.5 µM indole-3-butyric acid (IBA). Regenerated plantlets with well-developed roots and shoot system were successfully acclimated to ex vitro condition. Genetic uniformity of tissue culture raised plantlets was first time evaluated using flow cytometry and single primer amplification reaction (SPAR) methods viz ., DAMD and ISSR. No significant changes in ploidy level and nuclear DNA content profile were observed between in vitro propagated plants and normal plants of both the cultivars. Similarly, the SPAR analysis also revealed monomorphic banding patterns in regenerated plantlets of S. lycopersicum verifying their genetic uniformity and clonal fidelity. This efficient regeneration system can be used as a fast and reproducible method for genetic transformation of this important vegetable crop.

Published

2017

43. Induction of cell death by tospoviral protein NSs and the motif critical for cell death does not control RNA silencing suppression activity.

Author

Singh A, Permar V, Jain RK, Goswami S, Kumar RR, Canto T, Palukaitis P, and Praveen S

Subjects

Amino Acid Motifs, Amino Acid Sequence, Hydrogen Peroxide metabolism, Molecular Sequence Data, Phylogeny, Plant Diseases genetics, Respiratory Burst, Sequence Alignment, Nicotiana metabolism, Nicotiana virology, Tospovirus chemistry, Tospovirus genetics, Viral Nonstructural Proteins genetics, Apoptosis, Gene Silencing, Plant Diseases virology, Nicotiana cytology, Nicotiana genetics, Tospovirus metabolism, Viral Nonstructural Proteins chemistry, Viral Nonstructural Proteins metabolism

Abstract

Groundnut bud necrosis virus induces necrotic symptoms in different hosts. Previous studies showed reactive oxygen species-mediated programmed cell death (PCD) resulted in necrotic symptoms. Transgenic expression of viral protein NSs mimics viral symptoms. Here, we showed a role for NSs in influencing oxidative burst in the cell, by analyzing H 2 O 2 accumulation, activities of antioxidant enzymes and expression levels of vacuolar processing enzymes, H 2 O 2 -responsive microRNA 319a.2 plus its possible target metacaspase-8. The role of NSs in PCD, was shown using two NSs mutants: one in the Trp/GH3 motif (a homologue of pro-apototic domain) (NSs S189R ) and the other in a non-Trp/GH3 motif (NSs L172R ). Tobacco rattle virus (TRV) expressing NSs S189R enhanced the PCD response, but not TRV-NSs L172R , while RNA silencing suppression activity was lost in TRV-NSs L172R , but not in TRV-NSs S189R . Therefore, we propose dual roles of NSs in RNA silencing suppression and induction of cell death, controlled by different motifs., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

44. Potato Virus Y HCPro Suppression of Antiviral Silencing in Nicotiana benthamiana Plants Correlates with Its Ability To Bind In Vivo to 21- and 22-Nucleotide Small RNAs of Viral Sequence.

Author

Del Toro FJ, Donaire L, Aguilar E, Chung BN, Tenllado F, and Canto T

Subjects

Gene Silencing, Genetic Vectors, Nucleotides, Plant Diseases virology, Potyvirus genetics, RNA, Viral chemistry, RNA, Viral genetics, RNA, Viral isolation & purification, Viral Proteins genetics, Viral Proteins isolation & purification, RNA, Viral metabolism, Nicotiana virology, Viral Proteins metabolism

Abstract

We have investigated short and small RNAs (sRNAs) that were bound to a biologically active hexahistidine-tagged Potato virus Y (PVY) HCPro suppressor of silencing, expressed from a heterologous virus vector in Nicotiana benthamiana plants, and purified under nondenaturing conditions. We found that RNAs in purified preparations were differentially enriched in 21-nucleotide (nt) and, to a much lesser extent, 22-nt sRNAs of viral sequences (viral sRNAs [vsRNAs]) compared to those found in a control plant protein background bound to nickel resin in the absence of HCPro or in a purified HCPro alanine substitution mutant (HCPro mutB) control that lacked suppressor-of-silencing activity. In both controls, sRNAs were composed almost entirely of molecules of plant sequence, indicating that the resin-bound protein background had no affinity for vsRNAs and also that HCPro mutB failed to bind to vsRNAs. Therefore, PVY HCPro suppressor activity correlated with its ability to bind to 21- and 22-nt vsRNAs. HCPro constituted at least 54% of the total protein content in purified preparations, and we were able to calculate its contribution to the 21- and the 22-nt pools of sRNAs present in the purified samples and its binding strength relative to the background. We also found that in the 21-nt vsRNAs of the HCPro preparation, 5'-terminal adenines were overrepresented relative to the controls, but this was not observed in vsRNAs of other sizes or of plant sequences. IMPORTANCE It was previously shown that HCPro can bind to long RNAs and small RNAs (sRNAs) in vitro and, in the case of Turnip mosaic virus HCPro, also in vivo in arabidopsis AGO2-deficient plants. Our data show that PVY HCPro binds in vivo to sRNAs during infection in wild-type Nicotiana benthamiana plants when expressed from a heterologous virus vector. Using a suppression-of-silencing-deficient HCPro mutant that can accumulate in this host when expressed from a virus vector, we also show that sRNA binding correlates with silencing suppression activity. We demonstrate that HCPro binds at least to sRNAs with viral sequences of 21 nucleotides (nt) and, to a much lesser extent, of 22 nt, which were are also differentially enriched in 5'-end adenines relative to the purified controls. Together, our results support the physical binding of HCPro to vsRNAs of 21 and 22 nt as a means to interfere with antiviral silencing., (Copyright © 2017 American Society for Microbiology.)

Published

2017

45. A Model to Explain Temperature Dependent Systemic Infection of Potato Plants by Potato virus Y .

Author

Choi KS, Del Toro F, Tenllado F, Canto T, and Chung BN

Abstract

The effect of temperature on the rate of systemic infection of potatoes ( Solanum tuberosum L. cv. Chu-Baek) by Potato virus Y (PVY) was studied in growth chambers. Systemic infection of PVY was observed only within the temperature range of 16°C to 32°C. Within this temperature range, the time required for a plant to become infected systemically decreased from 14 days at 20°C to 5.7 days at 28°C. The estimated lower thermal threshold was 15.6°C and the thermal constant was 65.6 degree days. A systemic infection model was constructed based on experimental data, using the infection rate (Lactin-2 model) and the infection distribution (three-parameter Weibull function) models, which accurately described the completion rate curves to systemic infection and the cumulative distributions obtained in the PVY-potato system, respectively. Therefore, this model was useful to predict the progress of systemic infections by PVY in potato plants, and to construct the epidemic models.

Published

2017

46. Erratum: The Effects of High Temperature on Infection by Potato virus Y, Potato virus A, and Potato leafroll virus .

Author

Chung BN, Canto T, Tenllado F, Choi KS, Joa JH, Ahn JJ, Kim CH, and Do KS

Abstract

[This corrects the article on p. 321 in vol. 32, PMID: 27493607.].

Published

2017

47. The Effects of High Temperature on Infection by Potato virus Y, Potato virus A, and Potato leafroll virus.

Author

Chung BN, Canto T, Tenllado F, Choi KS, Joa JH, Ahn JJ, Kim CH, and Do KS

Abstract

We examined the effects of temperature on acquisition of Potato virus Y-O (PVY-O), Potato virus A (PVA), and Potato leafroll virus (PLRV) by Myzus persicae by performing transmission tests with aphids that acquired each virus at different temperatures. Infection by PVY-O/PVA and PLRV increased with increasing plant temperature in Nicotiana benthamiana and Physalis floridana, respectively, after being transmitted by aphids that acquired them within a temperature range of 10-20°C. However, infection rates subsequently decreased. Direct qRT-PCR of RNA extracted from a single aphid showed that PLRV infection increased in the 10-20°C range, but this trend also declined shortly thereafter. We examined the effect of temperature on establishment of virus infection. The greatest number of plants became infected when N. benthamiana was held at 20°C after inoculation with PVY-O or PVA. The largest number of P. floridana plants became infected with PLRV when the plants were maintained at 25°C. PLRV levels were highest in P. floridana kept at 20-25°C. These results indicate that the optimum temperatures for proliferation of PVY-O/PVA and PLRV differed. Western blot analysis showed that accumulations of PVY-O and PVA coat proteins (CPs) were lower at 10°C or 15°C than at 20°C during early infection. However, accumulation increased over time. At 25°C or 30°C, the CPs of both viruses accumulated during early infection but disappeared as time passed. Our results suggest that symptom attenuation and reduction of PVY-O and PVA CP accumulation at higher temperatures appear to be attributable to increased RNA silencing.

Published

2016

48. Tobacco rattle virus 16K silencing suppressor binds ARGONAUTE 4 and inhibits formation of RNA silencing complexes.

Author

Fernández-Calvino L, Martínez-Priego L, Szabo EZ, Guzmán-Benito I, González I, Canto T, Lakatos L, and Llave C

Subjects

Protein Binding, RNA Viruses immunology, Nicotiana immunology, Nicotiana virology, Host-Pathogen Interactions, Plant Viruses physiology, RNA Interference, RNA Viruses physiology, RNA-Binding Proteins metabolism, Viral Proteins metabolism

Abstract

The cysteine-rich 16K protein of tobacco rattle virus (TRV), the type member of the genus Tobravirus, is known to suppress RNA silencing. However, the mechanism of action of the 16K suppressor is not well understood. In this study, we used a GFP-based sensor strategy and an Agrobacterium-mediated transient assay in Nicotiana benthamiana to show that 16K was unable to inhibit the activity of existing small interfering RNA (siRNA)- and microRNA (miRNA)-programmed RNA-induced silencing effector complexes (RISCs). In contrast, 16K efficiently interfered with de novo formation of miRNA- and siRNA-guided RISCs, thus preventing cleavage of target RNA. Interestingly, we found that transiently expressed endogenous miR399 and miR172 directed sequence-specific silencing of complementary sequences of viral origin. 16K failed to bind small RNAs, although it interacted with ARGONAUTE 4, as revealed by bimolecular fluorescence complementation and immunoprecipitation assays. Site-directed mutagenesis demonstrated that highly conserved cysteine residues within the N-terminal and central regions of the 16K protein are required for protein stability and/or RNA silencing suppression.

Published

2016

49. Transient Expression Systems in Plants: Potentialities and Constraints.

Author

Canto T

Subjects

Animals, Gene Expression Regulation, Plant, Genetic Vectors, Humans, Multiprotein Complexes, Plant Proteins chemistry, Plant Proteins genetics, Plant Viruses genetics, Plant Viruses metabolism, Plants, Genetically Modified genetics, Protein Multimerization, Protein Structure, Quaternary, Protein Subunits, Recombinant Proteins chemistry, Recombinant Proteins genetics, Structure-Activity Relationship, Time Factors, Transcription, Genetic, Gene Transfer Techniques, Plant Proteins biosynthesis, Plants, Genetically Modified metabolism, Protein Engineering methods, Recombinant Proteins biosynthesis

Abstract

Plants have been used from old to extract and isolate by different means the products of interest that they store. In recent years new techniques have emerged that allow the use of plants as factories to overexpress transiently and often efficiently, specific genes of interest, either endogenous or foreign, in their native form or modified. These techniques allow and facilitate the targeted purification of gene products for research and commercial purposes without resorting to lengthy, time-consuming and sometimes challenging plant stable transformations, while avoiding some of their associated regulatory constraints. In this chapter we describe the main strategies available for the transient expression of gene sequences and their encoded products in plants. We discuss biological issues affecting transient expression, including resistance responses elicited by the plant against sequences that it recognizes naturally as foreign, and ways to neutralize them. We also discuss the relative advantages of each expression strategy as well as their inherent drawbacks and technical limitations, and how to partially prevent or overcome them, whenever possible.

Published

2016

50. Effects of Elevated CO₂and Temperature on Pathogenicity Determinants and Virulence of Potato virus X/Potyvirus-Associated Synergism.

Author

Aguilar E, Allende L, Del Toro FJ, Chung BN, Canto T, and Tenllado F

Subjects

Virulence, Carbon Dioxide metabolism, Potexvirus pathogenicity, Temperature

Abstract

Infections of plants by multiple viruses are common in nature and may result in synergisms in pathologies. Several environmental factors influence plant-virus interactions and act on virulence and host defense responses. Mixed viral infections may be more frequent under environmental conditions associated with global warming. Here, we address how changes in the two main parameters behind global warming, carbon dioxide concentrations ([CO₂]) and temperature, may affect virulence of Potato virus X (PVX)/potyvirus-associated synergism compared with single infections in Nicotiana benthamiana. Elevated [CO₂] resulted in attenuated virulence of single infection by PVX, which correlated with a lower accumulation of virus. In contrast, virulence of PVX/potyvirus-associated synergism was maintained at elevated [CO₂]. On the other hand, elevated temperature decreased markedly both virulence and virus titers in the synergistic infection. We also show that the HR-like response elicited by transient coexpression of PVX P25 together with the potyviral helper component-proteinase protein was significantly enhanced by elevated temperature, whereas it was reduced by elevated [CO₂]. Both proteins are main pathogenicity determinants in PVX-associated synergisms. These findings indicate that, under environmental conditions associated with global warming, virulence of PVX/potyvirus-associated synergisms is expected to vary relative to single infections and, thus, may have pathological consequences in the future.

Published

2015