in Pancrustacean Immunity: Current Status and a Look to the Future

Overview

Journal Front Immunol

Specialty Allergy & Immunology

Date 2017 Jun 27

PMID 28649249

Citations 10

Authors

Sophie A O Armitage

Joachim Kurtz

Daniela Brites

Yuemei Dong

Louis Du Pasquier

Han-Ching Wang

Affiliations

Soon will be listed here.

Abstract

The () gene is an extraordinary example of diversity: by combining alternatively spliced exons, thousands of isoforms can be produced from just one gene. So far, such diversity in this gene has only been found in insects and crustaceans, and its essential part in neural wiring has been well-characterized for . Ten years ago evidence from showed that the gene is involved in insect immune defense and work on indicated that it is a hypervariable immune receptor. These exciting findings showed that processes of somatic diversification insects have the possibility to produce unexpected immune molecule diversity, and it was hypothesized that could provide the mechanistic underpinnings of specific immune responses. Since these first publications the quest to understand the function of this gene has uncovered fascinating insights from insects and crustaceans. However, we are still far from a complete understanding of how Dscam1 functions in relation to parasites and pathogens and its full relevance for the immune system. In this Hypothesis and Theory article, we first briefly introduce and what we know so far about how it might function in immunity. By focusing on seven questions, we then share our sometimes contrasting thoughts on what the evidence tells us so far, what essential experiments remain to be done, and the future prospects, with the aim to provide a multiangled view on what this fascinating gene has to do with immune defense.

Citing Articles

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Experimental Infection Models and Their Usefulness for White Spot Syndrome Virus (WSSV) Research in Shrimp.

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The Honey Bee Gene Is a Taxonomically Restricted Antiviral Immune Gene.

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Disentangling specific and unspecific components of innate immune memory in a copepod-tapeworm system.

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