Department of Biological Science, Florida State University, 319 Stadium Dr., Tallahassee, FL, 32306-4295, USA.
J Mol Evol. 2023 Dec;91(6):935-962. doi: 10.1007/s00239-023-10148-7. Epub 2023 Dec 13.
Venoms are primarily believed to evolve under strong diversifying selection resulting from persistent coevolution between predator and prey. Recent research has challenged this hypothesis, proposing that venoms from younger venomous lineages (e.g., snakes and cone snails) are governed predominantly by diversifying selection, while venoms from older venomous lineages (e.g., centipedes, scorpions, and spiders) are under stronger purifying selection. However, most research in older lineages has tested selection at more diverse phylogenetic scales. Although these tests are important for evaluating broad macroevolutionary trends underlying venom evolution, they are less equipped to detect species-level evolutionary trends, which likely have large impacts on venom variation seen at more diverse phylogenetic scales. To test for selection among closely related species from an older venomous lineage, we generated high-throughput venom-gland transcriptomes and venom proteomes for four populations of Giant Desert Hairy Scorpions (Hadrurus), including three Hadrurus arizonensis populations and one Hadrurus spadix population. We detected significant episodic and pervasive diversifying selection across a highly abundant toxin family that likely has a major role in venom function ([Formula: see text]KTxs), providing a contrast to the stronger purifying selection identified from other studies on scorpion venoms. Conversely, we detected weak episodic diversifying and/or stronger purifying selection in four toxin families (non-disulfide bridged peptides, phospholipase A2s, scorpine-like antimicrobial peptides, and serine proteases), most of which were less abundant and likely have ancillary functional roles. Finally, although we detected several major toxin families at disproportionate transcriptomic and/or proteomic abundances, we did not identify significant sex-based variation in Hadrurus venoms.
毒液主要被认为是在捕食者和猎物之间持续的协同进化下,通过强烈的多样化选择而进化的。最近的研究对这一假说提出了挑战,提出来自较年轻毒液谱系(如蛇和圆锥蜗牛)的毒液主要受多样化选择控制,而来自较老毒液谱系(如蜈蚣、蝎子和蜘蛛)的毒液则受到更强的纯化选择。然而,大多数关于较老谱系的研究在更多样化的系统发育尺度上测试了选择。虽然这些测试对于评估毒液进化背后的广泛宏观进化趋势很重要,但它们不太适合检测物种水平的进化趋势,这些趋势可能对在更多样化的系统发育尺度上看到的毒液变异有很大影响。为了在来自较老毒液谱系的密切相关物种中测试选择,我们为四种 Giant Desert Hairy Scorpions(Hadrurus)种群(包括三个 Hadrurus arizonensis 种群和一个 Hadrurus spadix 种群)生成了高通量的毒液腺转录组和毒液蛋白质组。我们检测到在一个高度丰富的毒素家族中存在显著的间断性和普遍的多样化选择,这可能在毒液功能中起主要作用([Formula: see text]KTxs),与其他蝎子毒液研究中确定的更强的纯化选择形成对比。相反,我们在四个毒素家族(非二硫键桥接肽、磷脂酶 A2s、蝎素样抗菌肽和丝氨酸蛋白酶)中检测到较弱的间断性多样化选择和/或更强的纯化选择,其中大多数毒素家族的丰度较低,可能具有辅助功能。最后,尽管我们在转录组和/或蛋白质组水平上检测到了几个主要的毒素家族,但我们没有在 Hadrurus 毒液中发现显著的性别差异。
