[Biotechnological aspects in "loco" larvae].

N C Inestrosa, R Labarca, A Perelman, E O Campos, R Araneda, M González, E Brandan, J P Sánchez, R González-Plaza
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Abstract

The biology of planktotrophic larvae of Concholepas concholepas is the main bottleneck towards developing biotechnologies to rear this muricid. Data concerning planktonic larvae development, diets and environmental signals triggering larval settlement and recruitment is scarce. We have begun the study of the molecular and cell biology of embryos, larvae and recruits having as a final goal, the development of appropriate biotechnologies to rear this gastropod. First, an inverse ratio between BuChE and AChE enzyme activities was established. This ratio may be a precise developmental marker for this species. Second, for the first time a phosphoinositide related regulatory pathway is reported in a muricid, opening a new approach to the biotechnological management of larvae. Third, the relation between sulfate in sea water and larval motility was studied. Concentrations below 125 microM sulfate decreases larval motility. The sulfate is incorporated in proteoglycans which participate in different developmental phenomena. Lastly, a genomic Concholepas concholepas DNA sequence, similar to that of a human growth hormone probe was detected. This is very interesting since growth factors are key molecules during development, growth and are involved in food conversion rates in fish and also, in a variety of marine invertebrates.

[loco幼虫的生物技术方面]。
孔翅蝗浮游营养化幼虫的生物学特性是发展孔翅蝗生物技术的主要瓶颈。关于浮游生物幼虫发育、饮食和触发幼虫定居和招募的环境信号的数据很少。我们已经开始研究胚胎、幼虫和新生动物的分子和细胞生物学,最终目标是开发合适的生物技术来饲养这种腹足动物。首先,建立了BuChE和AChE酶活性的反比关系。这一比例可能是该物种的精确发育标志。二是首次报道了杀虫剂中与磷酸肌苷相关的调控途径,为幼虫生物技术管理开辟了新的途径。第三,研究了海水中硫酸盐与幼虫活力的关系。浓度低于125微米的硫酸盐会降低幼虫的运动能力。硫酸盐被纳入参与不同发育现象的蛋白聚糖中。最后,检测到一个类似于人类生长激素探针的基因组Concholepas Concholepas DNA序列。这很有趣,因为生长因子是发育和生长过程中的关键分子,与鱼类和各种海洋无脊椎动物的食物转化率有关。
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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