School of Biological Sciences, The University of Queensland, Brisbane 4072, Australia.
Viruses. 2018 Jul 3;10(7):354. doi: 10.3390/v10070354.
Viruses vectored by insects cause severe medical and agricultural burdens. The process of virus infection of insects regulates and is regulated by a complex interplay of biomolecules including the small, non-coding microRNAs (miRNAs). Considered an anomaly upon its discovery only around 25 years ago, miRNAs as a class have challenged the molecular central dogma which essentially typifies RNAs as just intermediaries in the flow of information from DNA to protein. miRNAs are now known to be common modulators or fine-tuners of gene expression. While recent years has seen an increased emphasis on understanding the role of miRNAs in host-virus associations, existing literature on the interaction between insects and their arthropod-borne viruses (arboviruses) is largely restricted to miRNA abundance profiling. Here we analyse the commonalities and contrasts between miRNA abundance profiles with different host-arbovirus combinations and outline a suggested pipeline and criteria for functional analysis of the contribution of miRNAs to the insect vector-virus interaction. Finally, we discuss the potential use of the model organism, , in complementing research on the role of miRNAs in insect vector-virus interaction.
昆虫传播的病毒会给医学和农业带来严重负担。昆虫感染病毒的过程受到多种生物分子的复杂调节,其中包括小型非编码 microRNA(miRNA)。miRNA 大约在 25 年前被发现时曾被认为是一个异常现象,因为它挑战了分子中心法则,该法则本质上认为 RNA 只是 DNA 到蛋白质信息流的中间产物。miRNA 现在被认为是基因表达的常见调节剂或微调器。尽管近年来人们越来越重视理解 miRNA 在宿主-病毒关联中的作用,但关于昆虫与其节肢动物传播病毒(arbovirus)之间相互作用的现有文献主要局限于 miRNA 丰度分析。在这里,我们分析了不同宿主-arbovirus 组合之间 miRNA 丰度谱的异同,并概述了 miRNA 对昆虫媒介-病毒相互作用贡献的功能分析的建议流程和标准。最后,我们讨论了模型生物 的潜在用途,以补充 miRNA 在昆虫媒介-病毒相互作用中的作用研究。
