Characterization of the main steps in first shell formation in Mytilus galloprovincialis: possible role of tyrosinase

A. Miglioli, R. Dumollard, T. Balbi, L. Besnardeau, L. Canesi
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引用次数: 19

Abstract

Bivalve biomineralization is a highly complex and organized process, involving several molecular components identified in adults and larval stages. However, information is still scarce on the ontogeny of the organic matrix before calcification occurs. In this work, first shell formation was investigated in the mussel Mytilus galloprovincialis. The time course of organic matrix and CaCO3 deposition were followed at close times post fertilization (24, 26, 29, 32, 48 h) by calcofluor and calcein staining, respectively. Both components showed an exponential trend in growth, with a delay between organic matrix and CaCO3 deposition. mRNA levels of genes involved in matrix deposition (chitin synthase; tyrosinase- TYR) and calcification (carbonic anhydrase; extrapallial protein) were quantified by qPCR at 24 and 48 hours post fertilization (hpf) with respect to eggs. All transcripts were upregulated across early development, with TYR showing highest mRNA levels from 24 hpf. TYR transcripts were closely associated with matrix deposition as shown by in situ hybridization. The involvement of tyrosinase activity was supported by data obtained with the enzyme inhibitor N-phenylthiourea. Our results underline the pivotal role of shell matrix in driving first CaCO3 deposition and the importance of tyrosinase in the formation of the first shell in M. galloprovincialis.
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紫贻贝第一壳形成主要步骤的表征:酪氨酸酶的可能作用
双壳类生物矿化是一个高度复杂和有组织的过程,涉及成虫和幼虫阶段确定的几种分子成分。然而,在钙化发生之前,关于有机基质的个体发生的信息仍然很少。本文研究了贻贝(Mytilus galloprovincialis)的第一壳形成过程。在施肥后24、26、29、32、48 h,分别用钙荧光和钙黄蛋白染色法观察有机基质和CaCO3沉积的时间过程。两组分均呈指数增长趋势,有机基质与CaCO3沉积之间存在一定的延迟。基质沉积(几丁质合酶)相关基因mRNA水平;酪氨酸酶(TYR)和钙化(碳酸酐酶);在受精后24和48小时(hpf)用qPCR方法定量测定卵的外表皮蛋白(apallial protein)。所有转录本在发育早期均上调,其中TYR的mRNA水平在24 hpf时最高。原位杂交表明,TYR转录本与基质沉积密切相关。用酶抑制剂n -苯硫脲获得的数据支持了酪氨酸酶活性的参与。我们的研究结果强调了壳基质在驱动第一个CaCO3沉积中的关键作用,以及酪氨酸酶在蘑菇第一个壳形成中的重要性。
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