Title
Overexpression of AtGRDP2, a novel glycine-rich domain protein, accelerates plant growth and improves stress tolerance
11627/367911627/3679
Author
Ortega Amaro, María Azucena
Rodríguez Hernández, Aída Araceli
Rodríguez y Domínguez Kessler, Margarita
Hernández Lucero, Eloísa
Rosales Mendoza, Sergio
Ibáñez Salazar, Alejandro
Delgado-Sánchez, Pablo
Jiménez Bremont, Juan Francisco
Abstract
"Proteins with glycine-rich signatures have been reported in a wide variety of organisms including plants, mammalians, fungi, and bacteria. Plant glycine-rich protein genes exhibit developmental and tissue-specific expression patterns. Herein, we present the characterization of the AtGRDP2 gene using Arabidopsis null and knockdown mutants and, Arabidopsis and lettuce over-expression lines. AtGRDP2 encodes a short glycine-rich domain protein, containing a DUF1399 domain and a putative RNA recognition motif (RRM). AtGRDP2 transcript is mainly expressed in Arabidopsis floral organs, and its deregulation in Arabidopsis Atgrdp2 mutants and 35S::AtGRDP2 over-expression lines produces alterations in development. The 35S::AtGRDP2 over-expression lines grow faster than the WT, while the Atgrdp2 mutants have a delay in growth and development. The over-expression lines accumulate higher levels of indole-3-acetic acid and, have alterations in the expression pattern of ARF6, ARF8, and miR167 regulators of floral development and auxin signaling. Under salt stress conditions, 35S::AtGRDP2 over-expression lines displayed higher tolerance and increased expression of stress marker genes. Likewise, transgenic lettuce plants over-expressing the AtGRDP2 gene manifest increased growth rate and early flowering time. Our data reveal an important role for AtGRDP2 in Arabidopsis development and stress response, and suggest a connection between AtGRDP2 and auxin signaling."
Publication date
2015-01Publication type
articleDOI
https://doi.org/10.3389/fpls.2014.00782Knowledge area
CIENCIAS DE LA VIDACollections
Publisher
Frontiers Media S.A.Keywords
Glycine-rich domain proteinArabidopsis thaliana
Lactuca sativa
Development
Indole-3-acetic acid
Salt stress