Stewart Michael J, Wang Tianfang, Koene Joris M, Storey Kenneth B, Cummins Scott F
From the Genecology Research Centre, Faculty of Science, Health, Education and Engineering, University of the Sunshine Coast, Maroochydore, Queensland 4558, Australia.
the Department of Ecological Science, Faculty of Earth and Life Sciences, Vrije Universiteit, 1081HV Amsterdam, The Netherlands, and.
J Biol Chem. 2016 Apr 8;291(15):7938-50. doi: 10.1074/jbc.M115.704395. Epub 2016 Jan 27.
Animals have evolved many ways to enhance their own reproductive success. One bizarre sexual ritual is the "love" dart shooting of helicid snails, which has courted many theories regarding its precise function. Acting as a hypodermic needle, the dart transfers an allohormone that increases paternity success. Its precise physiological mechanism of action within the recipient snail is to close off the entrance to the sperm digestion organ via a contraction of the copulatory canal, thereby delaying the digestion of most donated sperm. In this study, we used the common garden snailCornu aspersumto identify the allohormone that is responsible for this physiological change in the female system of this simultaneous hermaphrodite. The love dart allohormone (LDA) was isolated from extracts derived from mucous glands that coat the dart before it is stabbed through the partner's body wall. We isolated LDA from extracts using bioassay-guided contractility measurement of the copulatory canal. LDA is encoded within a 235-amino acid precursor protein containing multiple cleavage sites that, when cleaved, releases multiple bioactive peptides. Synthetic LDA also stimulated copulatory canal contractility. Combined with our finding that the protein amino acid sequence resembles previously described molluscan buccalin precursors, this indicates that LDA is partially conserved in helicid snails and less in other molluscan species. In summary, our study provides the full identification of an allohormone that is hypodermically injected via a love dart. More importantly, our findings have important consequences for understanding reproductive biology and the evolution of alternative reproductive strategies.
动物已经进化出多种方式来提高自身的繁殖成功率。一种奇特的求偶仪式是蜗牛的“爱情” dart射击,这引发了许多关于其确切功能的理论。dart作为皮下注射针,传递一种异激素,可提高父权成功率。其在受体蜗牛体内的确切生理作用机制是通过交配管的收缩封闭精子消化器官的入口,从而延迟对大多数捐赠精子的消化。在本研究中,我们使用普通庭园蜗牛Cornu aspersum来鉴定负责这种雌雄同体雌性系统生理变化的异激素。爱情dart异激素(LDA)是从在dart刺入伴侣体壁之前覆盖在dart上的粘液腺提取物中分离出来的。我们使用生物测定法引导的交配管收缩性测量从提取物中分离出LDA。LDA编码在一个含有多个切割位点的235个氨基酸的前体蛋白中,切割后会释放多种生物活性肽。合成的LDA也刺激了交配管的收缩性。结合我们发现该蛋白质氨基酸序列类似于先前描述的软体动物buccalin前体,这表明LDA在蜗牛中部分保守,而在其他软体动物物种中保守性较低。总之,我们的研究全面鉴定了一种通过爱情dart皮下注射的异激素。更重要的是,我们的发现对理解生殖生物学和替代生殖策略的进化具有重要意义。