Abstract

AtGRP2 (Arabidopsis thaliana glycine-rich protein 2) is a 19-kDa RNA-binding glycine-rich protein that regulates key processes in A. thaliana. AtGRP2 is a nucleo-cytoplasmic protein with preferential expression in developing tissues, such as meristems, carpels, anthers, and embryos. AtGRP2 knockdown leads to an early flowering phenotype. In addition, AtGRP2-silenced plants exhibit a reduced number of stamens and abnormal development of embryos and seeds, suggesting its involvement in plant development. AtGRP2 expression is highly induced by cold and abiotic stresses, such as high salinity. Moreover, AtGRP2 promotes double-stranded DNA/RNA denaturation, indicating its role as an RNA chaperone during cold acclimation. AtGRP2 is composed of an N-terminal cold shock domain (CSD) followed by a C-terminal flexible region containing two CCHC-type zinc fingers interspersed with glycine-rich sequences. Despite its functional relevance in flowering time regulation and cold adaptation, the molecular mechanisms employed by AtGRP2 are largely unknown. To date, there is no structural information regarding AtGRP2 in the literature. Here, we report the 1H, 15N, and 13C backbone and side chain resonance assignments, as well as the chemical shift-derived secondary structure propensities, of the N-terminal cold shock domain of AtGRP2, encompassing residues 1-90. These data provide a framework for AtGRP2-CSD three-dimensional structure, dynamics, and RNA binding specificity investigation, which will shed light on its mechanism of action.

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