Emily M Lewis, Olga Becker, Alexis N Symons, Cora LaCoss, A Jasmine Baclig, Avery Guzman, Charles Sanders, Leticia Gonzalez, Lisa R Warner, Karen A Lewis
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引用次数: 0
摘要
本研究从四细胞绿藻Tetrabaena socialis (T. socialis)中鉴定了LARP6 La模块,以期更好地了解LARP6结构和RNA结合活性在多细胞真核生物中的进化。结合序列比对、结构域边界筛选和结构建模,我们重组表达并分离出TsLARP6 La模块,纯度为bb0 98%,用于体外生化表征。La模块折叠稳定,对单链同聚RNA具有最小的RNA结合活性。令人惊讶的是,它对脊椎动物LARP6同源配体(胶原I型mRNA的5'UTR中发现的一个凸起的茎环)表现出低的微摩尔结合亲和力,但不结合类似大小的双链rna。这些结果表明,TsLARP6 La Module可能更倾向于结构化RNA配体。然而,相比之下,TsLARP6 La模块不表现出在脊椎动物同源物中观察到的RNA伴侣活性。因此,我们认为原生LARP6可能与动物和维管植物的LARP6蛋白具有不同的RNA配体和结合机制,从而建立了LARP6蛋白家族的第三类。
The LARP6 La module from Tetrabaena socialis reveals structural and functional differences from plant and animal LARP6 homologues.
This study identified the LARP6 La Module from Tetrabaena socialis (T. socialis), a four-celled green algae, in an effort to better understand the evolution of LARP6 structure and RNA-binding activity in multicellular eukaryotes. Using a combination of sequence alignments, domain boundary screens, and structural modelling, we recombinantly expressed and isolated the TsLARP6 La Module to > 98% purity for in vitro biochemical characterization. The La Module is stably folded and exerts minimal RNA binding activity against single-stranded homopolymeric RNAs. Surprisingly, it exhibits low micromolar binding affinity for the vertebrate LARP6 cognate ligand, a bulged-stem loop found in the 5'UTR of collagen type I mRNA, but does not bind double-stranded RNAs of similar size. These result suggests that the TsLARP6 La Module may prefer structured RNA ligands. In contrast, however, the TsLARP6 La Module does not exhibit the RNA chaperone activity that is observed in vertebrate homologs. Therefore, we conclude that protist LARP6 may have both distinct RNA ligands and binding mechanisms from the previously characterized LARP6 proteins of animals and vascular plants, thus establishing a distinct third class of the LARP6 protein family.
期刊介绍:
RNA has played a central role in all cellular processes since the beginning of life: decoding the genome, regulating gene expression, mediating molecular interactions, catalyzing chemical reactions. RNA Biology, as a leading journal in the field, provides a platform for presenting and discussing cutting-edge RNA research.
RNA Biology brings together a multidisciplinary community of scientists working in the areas of:
Transcription and splicing
Post-transcriptional regulation of gene expression
Non-coding RNAs
RNA localization
Translation and catalysis by RNA
Structural biology
Bioinformatics
RNA in disease and therapy
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