Annual Viral Expression in a Sea Slug Population: Life Cycle Control and Symbiotic Chloroplast Maintenance.

The Biological bulletin Pub Date : 1999-08-01 DOI:10.2307/1542990

S K Pierce, T K Maugel, M E Rumpho, J J Hanten, W L Mondy

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引用次数: 44

Abstract

In a few well-known cases, animal population dynamics are regulated by cyclical infections of protists, bacteria, or viruses. In most of these cases, the pathogen persists in the environment, where it continues to infect some percentage of successive generations of the host organism. This persistent re-infection causes a long-lived decline, in either population size or cycle, to a level that depends upon pathogen density and infection level (1-4). We have discovered, on the basis of 9 years of observation, an annual viral expression in Elysia chlorotica, an ascoglossan sea slug, that coincides with the yearly, synchronized death of all the adults in the population. This coincidence of viral expression and mass death is ubiquitous, and it occurs in the laboratory as well as in the field. Our evidence also suggests that the viruses do not re-infect subsequent generations from an external pathogen pool, but are endogenous to the slug. We are led, finally, to the hypothesis that the viruses may be involved in the maintenance of symbiotic chloroplasts within the molluscan cells.

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海蛞蝓种群的年病毒表达:生命周期控制和共生叶绿体维持。

在一些众所周知的情况下，动物种群动态是由原生生物、细菌或病毒的周期性感染调节的。在大多数情况下，病原体在环境中持续存在，在那里它继续感染一定比例的连续几代宿主生物。这种持续的再感染导致种群规模或周期的长期下降，下降到取决于病原体密度和感染水平的水平(1-4)。在9年的观察基础上，我们发现，在绿Elysia chlorotica，一种ascoglossan海蛞蝓中，每年都有一种病毒表达，与该种群中所有成年动物每年同步死亡的时间相吻合。这种病毒表达和大规模死亡的巧合是普遍存在的，它发生在实验室和现场。我们的证据还表明，这些病毒不会从外部病原体池中重新感染后代，而是内源性的鼻涕虫。最后，我们得出了一个假设，即病毒可能参与了软体动物细胞内共生叶绿体的维持。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Biological bulletin

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