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Identification of the essential phosphoglycerate dehydrogenase isoform EDA9 as the essential gene for embryo and male gametophyte development in Arabidopsis

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Identification of the essential phosphoglycerate dehydrogenase isoform EDA9 as the essential gene for embryo and male gametophyte development in Arabidopsis

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Toujani, W.; Muñoz Bertomeu, J.; Flores-Tornero, M.; Rosa-Tellez, S.; Anoman, AD.; Ros, R. (2013). Identification of the essential phosphoglycerate dehydrogenase isoform EDA9 as the essential gene for embryo and male gametophyte development in Arabidopsis. Plant Signaling and Behavior. 8(11):27207-27207. https://doi.org/10.4161/psb.27207

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Título: Identification of the essential phosphoglycerate dehydrogenase isoform EDA9 as the essential gene for embryo and male gametophyte development in Arabidopsis
Autor: Toujani, Walid Muñoz Bertomeu, Jesús Flores-Tornero, María Rosa-Tellez, Sara Anoman, Armand Djoro Ros, Roc
Entidad UPV: Universitat Politècnica de València. Escuela Técnica Superior de Ingeniería Agronómica y del Medio Natural - Escola Tècnica Superior d'Enginyeria Agronòmica i del Medi Natural
Fecha difusión:
Resumen:
[EN] Three different pathways of serine (Ser) biosynthesis have been described in plants: the Glycolate pathway, which is part of the Photorespiratory pathway, and 2 non-Photorespiratory pathways, the Glycerate and the ...[+]
Palabras clave: Phosphorylated pathway of serine biosynthesis , Phosphoglycerate dehydrogenase , Male gametophyte , Embryo development
Derechos de uso: Cerrado
Fuente:
Plant Signaling and Behavior. (issn: 1559-2316 )
DOI: 10.4161/psb.27207
Editorial:
Taylor & Francis
Versión del editor: http://dx.doi.org/10.4161/psb.27207
Código del Proyecto:
info:eu-repo/grantAgreement/MINECO//BFU2012-31519/ES/CARACTERIZACION FUNCIONAL DE ENZIMAS CLAVE DEL METABOLISMO PLASTIDIAL EN ARABIDOPSIS Y MAIZ COMO ESTRATEGIA PARA MEJORAR LA CALIDAD NUTRICIONAL DE LAS PLANTAS/
info:eu-repo/grantAgreement/GVA//PROMETEO09%2F2009%2F075/ES/Mejora de plantas con interés agronómico y forestal- MEPIAF/
Agradecimientos:
This work has been funded by the Spanish Government and the European Union: FEDER/ BFU2012–31519, JdlC to Muñoz-Bertomeu J, FPI fellowship to Rosa-Téllez S, AECI fellowship to Anoman AD; the Valencian Regional ...[+]
Tipo: Artículo

References

Toujani, W., Muñoz-Bertomeu, J., Flores-Tornero, M., Rosa-Téllez, S., Anoman, A. D., Alseekh, S., … Ros, R. (2013). Functional Characterization of the Plastidial 3-Phosphoglycerate Dehydrogenase Family in Arabidopsis. Plant Physiology, 163(3), 1164-1178. doi:10.1104/pp.113.226720

Kalhan, S. C., & Hanson, R. W. (2012). Resurgence of Serine: An Often Neglected but Indispensable Amino Acid. Journal of Biological Chemistry, 287(24), 19786-19791. doi:10.1074/jbc.r112.357194

Michard, E., Lima, P. T., Borges, F., Silva, A. C., Portes, M. T., Carvalho, J. E., … Feijo, J. A. (2011). Glutamate Receptor-Like Genes Form Ca2+ Channels in Pollen Tubes and Are Regulated by Pistil D-Serine. Science, 332(6028), 434-437. doi:10.1126/science.1201101 [+]
Toujani, W., Muñoz-Bertomeu, J., Flores-Tornero, M., Rosa-Téllez, S., Anoman, A. D., Alseekh, S., … Ros, R. (2013). Functional Characterization of the Plastidial 3-Phosphoglycerate Dehydrogenase Family in Arabidopsis. Plant Physiology, 163(3), 1164-1178. doi:10.1104/pp.113.226720

Kalhan, S. C., & Hanson, R. W. (2012). Resurgence of Serine: An Often Neglected but Indispensable Amino Acid. Journal of Biological Chemistry, 287(24), 19786-19791. doi:10.1074/jbc.r112.357194

Michard, E., Lima, P. T., Borges, F., Silva, A. C., Portes, M. T., Carvalho, J. E., … Feijo, J. A. (2011). Glutamate Receptor-Like Genes Form Ca2+ Channels in Pollen Tubes and Are Regulated by Pistil D-Serine. Science, 332(6028), 434-437. doi:10.1126/science.1201101

Bauwe, H., Hagemann, M., & Fernie, A. R. (2010). Photorespiration: players, partners and origin. Trends in Plant Science, 15(6), 330-336. doi:10.1016/j.tplants.2010.03.006

Douce, R., Bourguignon, J., Neuburger, M., & Rébeillé, F. (2001). The glycine decarboxylase system: a fascinating complex. Trends in Plant Science, 6(4), 167-176. doi:10.1016/s1360-1385(01)01892-1

Tolbert NE. Photorespiration. In: Davies DD, ed. The biochemistry of plants. New York: Academic Press 1980; 488-525.

Kleczkowski, L. A., & Givan, C. V. (1988). Serine Formation in Leaves by Mechanisms other than the Glycolate Pathway. Journal of Plant Physiology, 132(6), 641-652. doi:10.1016/s0176-1617(88)80223-2

Cascales-Minana, B., Munoz-Bertomeu, J., Flores-Tornero, M., Anoman, A. D., Pertusa, J., Alaiz, M., … Ros, R. (2013). The Phosphorylated Pathway of Serine Biosynthesis Is Essential Both for Male Gametophyte and Embryo Development and for Root Growth in Arabidopsis. The Plant Cell, 25(6), 2084-2101. doi:10.1105/tpc.113.112359

Ho, C.-L., Noji, M., Saito, M., & Saito, K. (1999). Regulation of Serine Biosynthesis inArabidopsis. Journal of Biological Chemistry, 274(1), 397-402. doi:10.1074/jbc.274.1.397

Ho, C.-L., Noji, M., & Saito, K. (1999). Plastidic Pathway of Serine Biosynthesis. Journal of Biological Chemistry, 274(16), 11007-11012. doi:10.1074/jbc.274.16.11007

Timm, S., Florian, A., Wittmiß, M., Jahnke, K., Hagemann, M., Fernie, A. R., & Bauwe, H. (2013). Serine Acts as a Metabolic Signal for the Transcriptional Control of Photorespiration-Related Genes in Arabidopsis. Plant Physiology, 162(1), 379-389. doi:10.1104/pp.113.215970

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