UAP56 相互作用的输出因子 UIEF1 和 UIEF2 在 mRNA 输出中发挥作用。

The UAP56-Interacting Export Factors UIEF1 and UIEF2 Function in mRNA Export.

机构信息

Department of Cell Biology & Plant Biochemistry, Biochemistry Centre, University of Regensburg, D-93053 Regensburg, Germany.

Department of Biochemistry III, Biochemistry Centre, University of Regensburg, D-93053 Regensburg, Germany.

出版信息

Plant Physiol. 2019 Apr;179(4):1525-1536. doi: 10.1104/pp.18.01476. Epub 2019 Jan 30.

DOI:10.1104/pp.18.01476

PMID:30700540

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6446781/

Abstract

In eukaryotes, the regulated transport of mRNAs from the nucleus to the cytosol through nuclear pore complexes represents an important step in the expression of protein-coding genes. In plants, the mechanism of nucleocytosolic mRNA transport and the factors involved are poorly understood. The Arabidopsis () genome encodes two likely orthologs of UAP56-interacting factor, which acts as mRNA export factor in mammalian cells. In yeast and plant cells, both proteins interact directly with the mRNA export-related RNA helicase UAP56 and the interaction was mediated by an N-terminal UAP56-binding motif. Accordingly, the two proteins were termed UAP56-INTERACTING EXPORT FACTOR1 and 2 (UIEF1/2). Despite lacking a known RNA-binding motif, recombinant UIEF1 interacted with RNA, and the C-terminal part of UIEF1 mainly contributed to the RNA interaction. Mutation of , , or both in the double-mutant caused modest growth defects. A cross between the and (defective in the four ALY1-4 mRNA export factors) mutants produced the sextuple mutant , which displayed more severe growth impairment than the plants. Developmental defects including delayed bolting and reduced seed set were observed in the but not the plants. Analysis of the cellular distribution of polyadenylated mRNAs revealed more pronounced nuclear mRNA accumulation in than in and cells. In conclusion, the results indicate that UIEF1 and UIEF2 act as mRNA export factors in plants and that they cooperate with ALY1-ALY4 to mediate efficient nucleocytosolic mRNA transport.

摘要

在真核生物中，mRNA 通过核孔复合物从细胞核向细胞质的调控运输是蛋白质编码基因表达的重要步骤。在植物中，核质 mRNA 运输的机制和涉及的因素还知之甚少。拟南芥（）基因组编码两个可能的 UAP56 相互作用因子的同源物，它们在哺乳动物细胞中作为 mRNA 输出因子发挥作用。在酵母和植物细胞中，这两种蛋白质都直接与 mRNA 输出相关的 RNA 解旋酶 UAP56 相互作用，这种相互作用是由一个 N 端 UAP56 结合基序介导的。因此，这两种蛋白质被称为 UAP56 相互作用的出口因子 1 和 2（UIEF1/2）。尽管缺乏已知的 RNA 结合基序，但重组 UIEF1 与 RNA 相互作用，并且 UIEF1 的 C 端部分主要有助于 RNA 相互作用。在双突变体中突变、或两者都会导致生长缺陷。在（四个 ALY1-4 mRNA 输出因子缺陷）突变体之间进行杂交，产生了六重突变体，其生长缺陷比更为严重。在但不是植物中观察到发育缺陷，包括开花延迟和种子产量减少。多聚腺苷酸化 mRNA 的细胞分布分析显示，与和细胞相比，在中核内 mRNA 积累更为明显。总之，结果表明 UIEF1 和 UIEF2 在植物中作为 mRNA 输出因子发挥作用，并且它们与 ALY1-ALY4 合作介导有效的核质 mRNA 运输。

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