Department of Plant Biotechnology and Kumho Life Science Laboratory, College of Agriculture and Life Sciences, Chonnam National University, Gwangju 500-757, Republic of Korea.
Phytochemistry. 2013 Oct;94:28-35. doi: 10.1016/j.phytochem.2013.05.019. Epub 2013 Jun 18.
Despite the increase in understanding of RNA chaperone activity of zinc finger-containing glycine-rich RNA-binding proteins (RZs) during the cold adaptation process, the structural features relevant to the RNA chaperone activity of RZs still largely remain to be established. To investigate the structural determinants important for the RNA chaperone activity of RZs, domain-swapping and deletion analyses was carried out to assess the contribution of the N-terminal zinc finger RNA-recognition motif (RRM) domain and the C-terminal glycine-rich region of wheat (Triticum avestivum) and rice (Oryza sativa) RZs to RNA chaperone activity. Although the amino acid sequence similarity among wheat TaRZ2, wheat TaRZ3, and rice OsRZ1 was high, only TaRZ2 had RNA chaperone activity as evidenced by complementation ability in cold-sensitive Escherichia coli mutant cell under cold stress and in vivo and in vitro nucleic acid-melting activity. Domain-swapping and deletion analysis demonstrated that the overall folding of RZs governed by the N-terminal RRM domain and the C-terminal glycine-rich region, as well as the size of the disordered C-terminal glycine-rich region, are crucial for the RNA chaperone activity of RZs. Collectively, these results indicate that a specific modular arrangement of RRM domain and the disordered C-terminal region determines the RNA chaperone activity of RZs in cells.
尽管人们对锌指含甘氨酸丰富的 RNA 结合蛋白(RZ)在冷适应过程中的 RNA 伴侣活性有了更多的了解,但与 RZ 的 RNA 伴侣活性相关的结构特征在很大程度上仍有待确定。为了研究与 RZ 的 RNA 伴侣活性相关的结构决定因素,进行了结构域交换和缺失分析,以评估小麦(Triticum avestivum)和水稻(Oryza sativa)RZ 的 N 端锌指 RNA 识别基序(RRM)结构域和 C 端甘氨酸丰富区对 RNA 伴侣活性的贡献。尽管小麦 TaRZ2、小麦 TaRZ3 和水稻 OsRZ1 之间的氨基酸序列相似性很高,但只有 TaRZ2 具有 RNA 伴侣活性,这表现在冷敏感大肠杆菌突变细胞在冷胁迫下以及体内和体外核酸解链活性的互补能力。结构域交换和缺失分析表明,由 N 端 RRM 结构域和 C 端甘氨酸丰富区控制的 RZ 的整体折叠,以及无序 C 端甘氨酸丰富区的大小,对 RZ 的 RNA 伴侣活性至关重要。总之,这些结果表明,RRM 结构域和无序 C 端区域的特定模块化排列决定了细胞中 RZ 的 RNA 伴侣活性。
