Acclimation of intertidally reproducing sea-snails protects embryos from lethal effects of transient hyperthermia

IF 1.8 3区 生物学 Q3 DEVELOPMENTAL BIOLOGY Journal of experimental zoology. Part B, Molecular and developmental evolution Pub Date : 2024-01-30 DOI:10.1002/jez.b.23240
Morgan Q. Goulding
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Abstract

Embryos of Ilyanassa obsoleta (from Massachusetts and Florida) and Phrontis vibex (from Florida) were exposed to temperatures from 33 to 37°C. In both species, very young embryos are especially sensitive to thermal stress. Brief early heat shock did not disturb spiral cleavage geometry but led to variable, typically severe defects in larval morphogenesis and tissue differentiation. In Ilyanassa but not P. vibex, early heat shock resulted in immediate slowing or arrest of interphase progression during early cleavage. This reversible arrest was correlated with improved prognosis for larval development and (in Massachusetts snails, at least) depended on parental acclimation to warm temperature (~25.5°C). Embryos from Massachusetts snails housed at lower temperature (16°C) exhibited cytokinesis failure when briefly incubated at 33°C during early cleavage, and tissue differentiation failure during incubation at 33°C begun at later stages. This preliminary study reveals a case in which stress-conditioned parents may endow embryos with protection against potentially lethal thermal stress during the most vulnerable stages of life.

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对潮间带繁殖的海螺进行驯化可保护胚胎免受瞬时高热的致命影响。
将 Ilyanassa obsoleta(产于马萨诸塞州和佛罗里达州)和 Phrontis vibex(产于佛罗里达州)的胚胎暴露在 33 至 37°C 的温度下。在这两个物种中,非常幼小的胚胎对热应力特别敏感。短暂的早期热休克不会干扰螺旋裂解的几何形状,但会导致幼体形态发生和组织分化出现各种典型的严重缺陷。在 Ilyanassa 而非 P. vibex 中,早期热休克会导致早期分裂过程中的相间进展立即减慢或停止。这种可逆的停滞与幼体发育预后的改善有关,而且(至少在马萨诸塞州的蜗牛中)取决于亲本对温暖温度(约 25.5°C)的适应。在较低温度(16°C)下饲养的马萨诸塞州蜗牛的胚胎在早期分裂过程中,在 33°C下短暂孵化会出现细胞分裂失败,而在后期阶段,在 33°C下孵化会出现组织分化失败。这项初步研究揭示了一种情况,即在胚胎最脆弱的生命阶段,应激调节亲本可能赋予胚胎保护,使其免受可能致命的热应激。
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来源期刊
CiteScore
4.80
自引率
9.10%
发文量
63
审稿时长
6-12 weeks
期刊介绍: Developmental Evolution is a branch of evolutionary biology that integrates evidence and concepts from developmental biology, phylogenetics, comparative morphology, evolutionary genetics and increasingly also genomics, systems biology as well as synthetic biology to gain an understanding of the structure and evolution of organisms. The Journal of Experimental Zoology -B: Molecular and Developmental Evolution provides a forum where these fields are invited to bring together their insights to further a synthetic understanding of evolution from the molecular through the organismic level. Contributions from all these branches of science are welcome to JEZB. We particularly encourage submissions that apply the tools of genomics, as well as systems and synthetic biology to developmental evolution. At this time the impact of these emerging fields on developmental evolution has not been explored to its fullest extent and for this reason we are eager to foster the relationship of systems and synthetic biology with devo evo.
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