Gene drive that results in addiction to a temperature-sensitive version of an essential gene triggers population collapse in Drosophila

Georg Oberhofer, Tobin Ivy, B. Hay
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引用次数: 4

Abstract

One strategy for population suppression seeks to use gene drive to spread genes that confer conditional lethality or sterility, providing a way of combining population modification with suppression. Stimuli of potential interest could be introduced by humans, such as an otherwise benign virus or chemical, or occur naturally on a seasonal basis, such as a change in temperature. Cleave and Rescue (ClvR) selfish genetic elements use Cas9 and guide RNAs (gRNAs) to disrupt endogenous versions of an essential gene while also including a Rescue version of the essential gene resistant to disruption. ClvR spreads by creating loss-of-function alleles of the essential gene that select against those lacking it, resulting in populations in which the Rescue provides the only source of essential gene function. As a consequence, if function of the Rescue, a kind of Trojan horse now omnipresent in a population, is condition dependent, so too will be the survival of that population. To test this idea, we created a ClvR in Drosophila in which Rescue activity of an essential gene, dribble, requires splicing of a temperature-sensitive intein (TS-ClvRdbe). This element spreads to transgene fixation at 23 °C, but when populations now dependent on Ts-ClvRdbe are shifted to 29 °C, death and sterility result in a rapid population crash. These results show that conditional population elimination can be achieved. A similar logic, in which Rescue activity is conditional, could also be used in homing-based drive and to bring about suppression and/or killing of specific individuals in response to other stimuli.
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导致对一种关键基因的温度敏感版本上瘾的基因驱动引发了果蝇种群的崩溃
种群抑制的一种策略是寻求利用基因驱动来传播具有条件致死性或不育性的基因,从而提供一种将种群修饰与抑制相结合的方法。潜在的刺激可能是由人类引入的,例如一种原本无害的病毒或化学物质,或者是季节性的自然发生,例如温度的变化。Cleave and Rescue (ClvR)自私遗传元件使用Cas9和引导rna (gRNAs)来破坏必需基因的内源性版本,同时也包括抵抗破坏的必需基因的Rescue版本。ClvR通过产生基本基因的功能缺失等位基因来传播,这些等位基因会选择那些缺乏它的等位基因,从而导致拯救提供了基本基因功能的唯一来源。因此,如果“拯救”的功能——一种在种群中无处不在的特洛伊木马——依赖于条件,那么该种群的生存也将依赖于条件。为了验证这一想法,我们在果蝇中创建了ClvR,其中必需基因dribble的拯救活动需要拼接温度敏感的内部蛋白(TS-ClvRdbe)。这种元素在23℃时传播到转基因固定,但当现在依赖Ts-ClvRdbe的种群转移到29℃时,死亡和不育导致种群迅速崩溃。这些结果表明,有条件种群消除是可以实现的。类似的逻辑,其中的救援活动是有条件的,也可以用于基于寻的驱动,并带来抑制和/或杀害特定的个人作为对其他刺激的反应。
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