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A putative 6‐transmembrane nitrate transporter OsNRT1.1b plays a key role in rice under low nitrogen

OsNRT1.1a is a low‐affinity nitrate (NO(3) (−)) transporter gene. In this study, another mRNA splicing product, OsNRT1.1b, putatively encoding a protein with six transmembrane domains, was identified based on the rice genomic database and bioinformatics analysis. OsNRT1.1a/OsNRT1.1b expression in Xe...

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Detalles Bibliográficos
Autores principales: Fan, Xiaorong, Feng, Huimin, Tan, Yawen, Xu, Yanling, Miao, Qisong, Xu, Guohua
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2015
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5054920/
https://www.ncbi.nlm.nih.gov/pubmed/26220694
http://dx.doi.org/10.1111/jipb.12382
Descripción
Sumario:OsNRT1.1a is a low‐affinity nitrate (NO(3) (−)) transporter gene. In this study, another mRNA splicing product, OsNRT1.1b, putatively encoding a protein with six transmembrane domains, was identified based on the rice genomic database and bioinformatics analysis. OsNRT1.1a/OsNRT1.1b expression in Xenopus oocytes showed OsNRT1.1a‐expressing oocytes accumulated (15)N levels to about half as compared to OsNRT1.1b‐expressing oocytes. The electrophysiological recording of OsNRT1.1b‐expressing oocytes treated with 0.25 mM NO(3) (−) confirmed (15)N accumulation data. More functional assays were performed to examine the function of OsNRT1.1b in rice. The expression of both OsNRT1.1a and OsNRT1.1b was abundant in roots and downregulated by nitrogen (N) deficiency. The shoot biomass of transgenic rice plants with OsNRT1.1a or OsNRT1.1b overexpression increased under various N supplies under hydroponic conditions compared to wild‐type (WT). The OsNRT1.1a overexpression lines showed increased plant N accumulation compared to the WT in 1.25 mM NH(4)NO(3) and 2.5 mM NO(3) (–) or NH(4) (+) treatments, but not in 0.125 mM NH(4)NO(3). However, OsNRT1.1b overexpression lines increased total N accumulation in all N treatments, including 0.125 mM NH(4)NO(3), suggesting that under low N condition, OsNRT1.1b would accumulate more N in plants and improve rice growth, but also that OsNRT1.1a had no such function in rice plants.