Abstract
Generalised reviews of RNA interference (RNAi) in invertebrates, and for use in aquaculture, have taken for granted that RNAi pathways operate in molluscs, but inspection of such reviews show little specific evidence of such activity in molluscs. This review was to understand what specific research had been conducted on RNAi in molluscs, particularly with regard to aquaculture. There were questions of whether RNAi in molluscs functions similarly to the paradigm established for most eukaryotes or, alternatively, was it more similar to the ecdozoa and how RNAi may relate to disease control in aquaculture? RNAi in molluscs appears to have been only investigated in about 14 species, mostly as a gene silencing phenomenon. We can infer that microRNAs including let-7 are functional in molluscs. The genes/proteins involved in the actual RNAi pathways have only been rudimentarily investigated, so how homologous the genes and proteins are to other metazoa is unknown. Furthermore, how many different genes for each activity in the RNAi pathway are also unknown? The cephalopods have been greatly overlooked with only a single RNAi gene-silencing study found. The long dsRNA-linked interferon pathways seem to be present in molluscs, unlike some other invertebrates and could be used to reduce disease states in aquaculture. In particular, interferon regulatory factor genes have been found in molluscs of aquacultural importance such as Crassostrea, Mytilus, Pinctada and Haliotis. Two possible aquaculture scenarios are discussed, zoonotic norovirus and ostreid herpesvirus 1 to illustrate the possibilities. The entire field of RNAi in molluscs looks ripe for scientific exploitation and practical application.
Highlights
RNA interference (RNAi) has proved to be a very powerful tool in biomedicine for the investigation of gene function by gene silencing and for the control of virus by lowering mortality in various animals.Despite many papers and review articles [1] describing the pathway in invertebrates [2] and aquaculture [3,4], when the articles are examined in detail, the invertebrates examined include insects [5], crustaceans [4] and nematodes [6]
This review was to delimit exactly what information was available on RNAi in molluscs and where RNAi might be applied in novel situations like aquaculture
This component probably works through the genes homologous to the interferon pathway in vertebrates but all components may not be functional in all invertebrates
Summary
RNA interference (RNAi) has proved to be a very powerful tool in biomedicine for the investigation of gene function by gene silencing and for the control of virus by lowering mortality in various animals. The RNAi pathway was first discovered in plants as a gene silencing phenomena It was later revealed in nematodes where the term RNA interference was coined [7]. It can be described as a series of proteins which cleave dsRNA in a sequence-specific manner and have the effect of down regulating or silencing genes. There appears to be a non-sequence specific component triggered by long dsRNA that confers a protective effect against pathogens This component probably works through the genes homologous to the interferon pathway in vertebrates but all components may not be functional in all invertebrates (see later). Within the existing knowledge of RNAi in molluscs, is it possible to use this information for practical outcomes, in bivalve or abalone aquaculture
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