Ludovic Bassié

Titular d'Universitat

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Ludovic Bassié

Categoria: Titular d'Universitat

Àrea de coneixement: Biotecnologia

Adreça: ETSEA, Edifici Principal A, despatx 2.03.3

Telèfon: +34 973 702543

Fax: +34 973 702690

E-mail: ludovic.bassie@pvcf.udl.cat

Formació Acadèmica

· Llicenciat en Biologia, Universitat de Nice Sophia-Antipolis, França, 1997
· Doctorat en Biotecnologia Vegetal, Universitat de Barcelona, 2004

Experiència Professional

· 1998 - 2001. Investigador col·laborador, John Innes Centre (Regne Unit)
· 2002 - 2004. Investigador col·laborador, Fraunhufer Institute (Alemanya)
· 2004 - 2007. Investigador postdoctoral, Juan de la Cierva, UdL 
· 2007 - 2011. Professor Lector, UdL
· 2011 - actualitat, Titular Universitat, UdL

Recerca

· Enginyeria de rutes metabòliques a cereals

Docència

· BIOTECNOLOGIA VEGETAL Grau en Biotecnologia
· TÈCNIQUES DE LABORATORI DE BIOTECNOLOGIA DE PLANTES Grau en Biotecnologia
· BIOTECNOLOGIA AGRÀRIA Grau en Enginyeria Agrària i Alimentària

                                                                
        
                                                               

Publicacions Recents

Castaño C, Bassie L, Oliach D, Gómez M, Medina V, Liu B, Colinas C. 2015. Cryphonectria hypovirus 1 (CHV-1) survey reveals low occurrence and diversity of subtypes in NE Spain. Forest Pathology 45:51-59

 Zorrilla-López U, Masip G, Arjó G, Bai C, Banakar R, Bassie L, Berman J, Farre G, Miralpeix B, Pérez-Massot E, Sabalza M, Sanahuja G, Vamvaka E, Twyman R, Christou P, Zhu C, Capell T. 2013. Engineering metabolic pathways in plants by multigene transformation. The International Journal of Developmental Biolology 57: 565-576.

Sanahuja G, Farre G, Bassie L, Zhu C, Christou P, Capell T. 2013. Ascorbic acid synthesis and metabolism in maize are subject to complex and genotype-dependent feedback regulation during endosperm development. Biotechnology Journal 8: 122-1230

 Berman J, Zhu C, Perez-Massot E, Arjo G, Zorrilla-Lopez U, Masip G, Banakar R, Sanahuja G, Farre G, Miralpeix B, Bai C, Vamvaka E, Sabalza M, Twyman RT, Bassie L, Capell T, Christou P. 2013. Can the world afford to ignore biotechnology solutions that address food insecurity? Plant Molecular Biology 83: 5-19

 Zhu C, Sanahuja G, Yuan D, Farré G, Arjó G, Berman J, Zorrilla-López U, Banakar R, Bai C, Pérez-Massot E, Bassie L, Capell T, Christou P. 2013. Biofortification of plants with altered antioxidant content and composition: genetic engineering strategies. Plant Biotechnology Journal 11: 129-141

 Pérez-Massot E, Banakar R, Gómez-Galera S, Zorrilla-López U, Sanahuja G, Arjó G, Miralpeix B, Vamvaka E, Farre G, Rivera SM, Dashevskaya S, Berman J, Sabalza M, Yuan D, Bai C, Bassie L, Twyman RM, Capell T, Christou P, Zhu C. 2013. The contribution of transgenic plants to better health through improved nutrition: opportunities and constraints. Genes And Nutrition 8: 29-41

Yuan D., Bassie L., Sabalza M., Miralpeix B., Dashevskaya S., Farre G., Rivera S., Banakar R., Bai C., Sanahuja G., Arjo G., Avilla E., Zorrilla-Lopez U., Ugidos-Damboriena N., Lopez A., Almacellas D., Zhu C., Capell T., Hahne G., Twyman R., Christou P. 2011. The potential impact of plant biotechnology on the Millennium Development Goals. Plant Cell Reports 30(3):249-65

Peremarti A., Twyman R., Gomez-Galera S., Naqvi S., Farre G., Sabalza M., Miralpeix B., Dashevskaya S., Yuan D., Ramessar K., Christou P., Zhu C., Bassie L., Capell T. 2010. Promoter diversity in multigene transformation. Plant Molecular Biology 73:363-378

Peremarti A., Bassie L., Yuan D., Pelacho A., Christou P., Capell T. 2010. Transcriptional regulation of the rice arginine decarboxylase (Adc1) and S-adenosylmethionine decarboxylase (Samdc) genes by methyl jasmonate. Plant Physiology 48:553-559

Peremarti A., Bassie L., Zhu C., Christou P., Capell T. 2010. Molecular characterization of the Arginine decarboxylase gene in rice. Transgenic Research 19:785-797

Naqvi S., Zhu C., Farre G., Ramessar K., Bassie L., Breitenbachb J., Perez Conesa D., Ros G., Sandmann G., Capell T., Christou P. 2009. Transgenic multivitamin corn through biofortification of endosperm with three vitamins representing three distinct metabolic pathways. Proceedings of the National Academy of Sciences of the United States of America 106;7762-7767

Bassie L., Zhu C., Romagosa I., Christou P., Capell T. 2008. Transgenic wheat plants expressing an oat arginine decarboxylase cDNA exhibit increases in polyamine content in vegetative tissue and seeds. Molecular Breeding 22:39-50

Capell T., ZhuC., Bassie L., Peremarti A., Naqvi S., Ramessar R., Gomez G., Christou P. 2007. Background, Current Status and Future Prospects of Transgenic Crop Plant Development. Contributions to Science 3(4):531-538

Capell T, Bassie L. 2005. Progress in the modulation of the polyamine biosynthetic pathway in transgenic rice. Journal of Biological Sciences 5: 379-390.

Capell T., Bassie L., Christou P. 2004. Modulation of the polyamine biosynthetic pathway in transgenic rice confers tolerance to drought stress. PNAS of USA 101: 9909-9914.

Capell T., Claparols I., DelDuca S., Bassie L., Miro B., Rodriguez-Montesinos J., Christou P., Serafini-Fracassini D. 2004. Producing transglutaminases by molecular farming in plants. Amino Acids 26: 419-423.

Claparols I., Bassie L., Miro B., Del Duca S., Rodriguez-Montesinos J., Christou P., Serafini-Fracassini D., Capell T. 2004. Transgenic rice as a vehicle for the production of the industrial enzyme transglutaminase. Transgenic Research 13: 195-199.

Trung-Nghia P., Bassie L., Safwat G., Lepri O., Thu-Hang P., Rocha P., Christou P., Capell T. 2003. Reduction in the endogenous arginine decarboxylase transcript levels in rice leads to depletion of the putrescine and spermidine pools with no concomitant changes in the expression of downstream genes in the polyamine biosynthetic pathway. Planta 218: 125-134.

Thu-Hang P., Sawfat G., Bassie L., Trung-Ngia P., Christou P., Capell T. 2002. Expression of a heterologous S-adenosylmethyonine decarboxylase cDNA in plants demonstrates that changes in SAMDC activity determine levels of the higher polyamines spermidine and spermine. Plant Physiology 129: 1744-1754.

Lepri O., Bassie L., Thu-Hang P., Christou P., Capell T. 2002. Endogenous enzyme activities and polyamine levels in diverse rice cultivars depend on genetic background and are not affected by the presence of hygromycin phosphotransferase selectable marker. Theoretical and Applied Genetics 105: 594-603.

Lepri O., Bassie L., Safwat G., Thu-Hang P., Trung-Nghia P., Holtta E., Christou P., Capell T. 2001. Over-expression of the human ornithine decarboxylase cDNA in transgenic rice plants alters the polyamine pools in a tissue-specific manner. Molecular Genetics and Genomics 266: 303-312.

Sivamani E., Bassie L., Christou P., Capellm T. 2001. Development of a novel gene transfer system for Cajanus cajan and expression of a monocot arginine decarboxylase cDNA in transformed cell lines. Plant Physiology and Biochemistry 39: 575-582.

Capell T., Bassie L., Topsom L., Hitchin E., Christou P. 2000. Simultaneous reduction of the activity of two related enzymes, involved in early steps of the polyamine biosynthetic pathway, by a single antisense cDNA in transgenic rice. Molecular Genetics and Genomics 264: 470-476.

Bassie L., Noury M., Wisnieski J.P., Topsom L., Christou P., Capell T. 2000. Transgenic cell lines as a useful tool to study the biochemistry of down-regulation of an endogenous rice gene using a heterologous diamine oxidase cDNA. Plant Physiology and Biochemistry 38: 729-737.

Capell T., Lepri O., Bassie L., Trung-Nghia P., Thu-Hang P., Safwat G., Christou P. 2000. Elucidation of the relative contribution of the two alternative pathways for polyamine biogenesis in plants suggests a key role for the putrescine pool in controlling flux to the higher polyamines. Rice Genetics Newsletter 17: 156-157.

Noury M., Bassie L., Lepri O., Kureck I., Christou P., Capell T. 2000. A transgenic rice cell lineage expressing the oat arginine decarboxylase(adc) cDNA constitutively accumulates putrescine in callus and seeds but not in vegetative tissues. Plant Molecular Biology 43: 537-544.

Bassie L., Noury M., Lepri O., Lahaye T., Christou P., Capell T. (2000). Promoter strength influences polyamine metabolism and morphogenetic capacity in transgenic rice tissues expressing the oat adc cDNA constitutively. Transgenic Research 9: 33-42.

Capell T., Lepri O., Hang P., Bassie L., Nogueira N., El-Hussieny G., Newman J., Christou P. (1999). Modulation of Polyamine biosynthesis in rice by constitutive expression of oat adc cDNA. Rice Genetics Newsletter 16: 140-143



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