海绵动物古基因组学揭示了碳酸酐酶在骨骼形成中的古老作用。

Sponge paleogenomics reveals an ancient role for carbonic anhydrase in skeletogenesis.

作者信息

Jackson Daniel J, Macis Luciana, Reitner Joachim, Degnan Bernard M, Wörheide Gert

机构信息

Geoscience Centre Göttingen, Department of Geobiology, Goldschmidtstrasse 3, D-37077 Göttingen, Germany.

出版信息

Science. 2007 Jun 29;316(5833):1893-5. doi: 10.1126/science.1141560. Epub 2007 May 31.

DOI:10.1126/science.1141560

PMID:17540861

Abstract

Sponges (phylum Porifera) were prolific reef-building organisms during the Paleozoic and Mesozoic approximately 542 to 65 million years ago. These ancient animals inherited components of the first multicellular skeletogenic toolkit from the last common ancestor of the Metazoa. Using a paleogenomics approach, including gene- and protein-expression techniques and phylogenetic reconstruction, we show that a molecular component of this toolkit was the precursor to the alpha-carbonic anhydrases (alpha-CAs), a gene family used by extant animals in a variety of fundamental physiological processes. We used the coralline demosponge Astrosclera willeyana, a "living fossil" that has survived from the Mesozoic, to provide insight into the evolution of the ability to biocalcify, and show that the alpha-CA family expanded from a single ancestral gene through several independent gene-duplication events in sponges and eumetazoans.

摘要

海绵动物（多孔动物门）在大约5.42亿至6500万年前的古生代和中生代是大量造礁生物。这些古老动物从后生动物的最后一个共同祖先那里继承了首个多细胞骨骼生成工具包的组成部分。通过采用古基因组学方法，包括基因和蛋白质表达技术以及系统发育重建，我们发现这个工具包的一个分子成分是α - 碳酸酐酶（α - CAs）的前体，α - CAs是现存动物在各种基本生理过程中使用的一个基因家族。我们利用中生代存活至今的“活化石”——珊瑚海绵Astrosclera willeyana，来深入了解生物钙化能力的进化，并表明α - CA家族通过海绵动物和真后生动物中的几次独立基因复制事件从单个祖先基因扩展而来。

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海绵动物古基因组学揭示了碳酸酐酶在骨骼形成中的古老作用。

Sponge paleogenomics reveals an ancient role for carbonic anhydrase in skeletogenesis.

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