White Spot Syndrome Virus and the Caribbean Spiny Lobster, <i>Panulirus argus</i>: Susceptibility and Behavioral Immunity

Ross, Erica P.; Behringer, Donald C.; Bojko, Jamie

doi:10.1101/411769

Cited by 2 publications

(2 citation statements)

References 67 publications

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“…These species are closely related, which would suggest that RNAi may work in O. mosambicus , however our trend correlates in vivo exogenous RNAi and dsRNA binding of the serum, not in vitro RNAi. The lack of dsRNA binding proteins in the O. mosambicus serum may prevent in vivo exogenous RNAi from functioning, however in a cell culture system where dsRNA transport is not a limiting factor, RNAi is applicable [ 50 ]. This may also be the case in S. lalandii , where an identical gel response was observed ( Figure 4 A).…”

Section: Discussionmentioning

confidence: 99%

Double-Stranded RNA Binding Proteins in Serum Contribute to Systemic RNAi Across Phyla—Towards Finding the Missing Link in Achelata

Banks

Wang

Fitzgibbon

et al. 2020

IJMS

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RNA interference (RNAi) has become a widely utilized method for studying gene function, yet despite this many of the mechanisms surrounding RNAi remain elusive. The core RNAi machinery is relatively well understood, however many of the systemic mechanisms, particularly double-stranded RNA (dsRNA) transport, are not. Here, we demonstrate that dsRNA binding proteins in the serum contribute to systemic RNAi and may be the limiting factor in RNAi capacity for species such as spiny lobsters, where gene silencing is not functional. Incubating sera from a variety of species across phyla with dsRNA led to a gel mobility shift in species in which systemic RNAi has been observed, with this response being absent in species in which systemic RNAi has never been observed. Proteomic analysis suggested lipoproteins may be responsible for this phenomenon and may transport dsRNA to spread the RNAi signal systemically. Following this, we identified the same gel shift in the slipper lobster Thenus australiensis and subsequently silenced the insulin androgenic gland hormone, marking the first time RNAi has been performed in any lobster species. These results pave the way for inducing RNAi in spiny lobsters and for a better understanding of the mechanisms of systemic RNAi in Crustacea, as well as across phyla.

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Section: Discussionmentioning

confidence: 99%

Double-Stranded RNA Binding Proteins in Serum Contribute to Systemic RNAi Across Phyla—Towards Finding the Missing Link in Achelata

Banks

Wang

Fitzgibbon

et al. 2020

IJMS

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“…The exo-siRNA pathway is antiviral in nature and represents a major pathogen defence mechanism in invertebrates, and if this has been hindered in spiny lobster species, they should be highly susceptible to viral infection. Interestingly however, only a single virus has ever been isolated from any spiny lobster which suggests a powerful antiviral immune system [58,59]. The contradiction of powerful antiviral mechanisms and a lack of an RNAi response indicates that other mechanism to deal with viruses must exist within spiny lobsters.…”

Section: Discussionmentioning

confidence: 99%

Double Stranded RNA Binding Proteins in the Serum Contribute to Systemic RNAi across Phyla – Towards Finding the Missing Link in Achelata

Banks¹,

Wang²,

Fitzgibbon³

et al. 2020

Preprint

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RNA interference (RNAi) has become a widely utilised method to study gene function, yet despite this, many of the mechanisms surrounding RNAi remain elusive. The core RNAi machinery is relatively well understood, however many of the systemic mechanisms, particularly double stranded RNA (dsRNA) transport, are not. Here, we demonstrate that dsRNA binding proteins in the serum contribute to systemic RNAi, and may be the limiting factor in RNAi capacity for species such as spiny lobsters where gene silencing is not functional. Incubating serum from a variety of species across phyla with dsRNA led to a gel mobility shift in species where systemic RNAi has been observed, with this response being absent in species where systemic RNAi has never been observed. Proteomic analysis suggested lipoproteins may be responsible for this phenomenon, and may transport dsRNA to spread the RNAi signal systemically. Following this, we identified the same gel shift in the slipper lobster Thenus australiensis and subsequently silenced the insulin androgenic gland hormone, marking the first time RNAi has been performed in any lobster species. These results pave the way for inducing RNAi in spiny lobsters, and better understanding the mechanisms of systemic RNAi in Crustacea, as well as across phyla.

show abstract

White Spot Syndrome Virus and the Caribbean Spiny Lobster, Panulirus argus: Susceptibility and Behavioral Immunity

Cited by 2 publications

References 67 publications

Double-Stranded RNA Binding Proteins in Serum Contribute to Systemic RNAi Across Phyla—Towards Finding the Missing Link in Achelata

Double-Stranded RNA Binding Proteins in Serum Contribute to Systemic RNAi Across Phyla—Towards Finding the Missing Link in Achelata

Double Stranded RNA Binding Proteins in the Serum Contribute to Systemic RNAi across Phyla – Towards Finding the Missing Link in Achelata

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