有颌和无颌脊椎动物中血红蛋白转换的趋同进化。

Convergent evolution of hemoglobin switching in jawed and jawless vertebrates.

作者信息

Rohlfing Kim, Stuhlmann Friederike, Docker Margaret F, Burmester Thorsten

机构信息

Institute of Zoology, University of Hamburg, Martin-Luther-King-Platz 3, D-20146, Hamburg, Germany.

Department of Biological Sciences, University of Manitoba, 50 Sifton Road, Winnipeg, MB, R3T 2N2, Canada.

出版信息

BMC Evol Biol. 2016 Feb 1;16:30. doi: 10.1186/s12862-016-0597-0.

DOI:10.1186/s12862-016-0597-0

PMID:26831729

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4736134/

Abstract

BACKGROUND

During development, humans and other jawed vertebrates (Gnathostomata) express distinct hemoglobin genes, resulting in different hemoglobin tetramers. Embryonic and fetal hemoglobin have higher oxygen affinities than the adult hemoglobin, sustaining the oxygen demand of the developing organism. Little is known about the expression of hemoglobins during development of jawless vertebrates (Agnatha).

RESULTS

We identified three hemoglobin switches in the life cycle of the sea lamprey. Three hemoglobin genes are specifically expressed in the embryo, four genes in the filter feeding larva (ammocoete), and nine genes correspond to the adult hemoglobin chains. During the development from the parasitic to the reproductive adult, the composition of hemoglobin changes again, with a massive increase of chain aHb1. A single hemoglobin chain is expressed constitutively in all stages. We further showed the differential expression of other globin genes: Myoglobin 1 is most highly expressed in the reproductive adult, myoglobin 2 expression peaks in the larva. Globin X1 is restricted to the embryo; globin X2 was only found in the reproductive adult. Cytoglobin is expressed at low levels throughout the life cycle.

CONCLUSION

Because the hemoglobins of jawed and jawless vertebrates evolved independently from a common globin ancestor, hemoglobin switching must also have evolved convergently in these taxa. Notably, the ontogeny of sea lamprey hemoglobins essentially recapitulates their phylogeny, with the embryonic hemoglobins emerging first, followed by the evolution of larval and adult hemoglobins.

摘要

背景

在发育过程中，人类和其他有颌脊椎动物（颚口纲）表达不同的血红蛋白基因，从而产生不同的血红蛋白四聚体。胚胎血红蛋白和胎儿血红蛋白比成人血红蛋白具有更高的氧亲和力，以维持发育中生物体的氧需求。对于无颌脊椎动物（圆口纲）发育过程中血红蛋白的表达了解甚少。

结果

我们在海七鳃鳗的生命周期中鉴定出三种血红蛋白转换。三种血红蛋白基因在胚胎中特异性表达，四种基因在滤食性幼体（沙隐虫）中表达，九种基因对应于成年血红蛋白链。从寄生性成年个体发育到生殖性成年个体的过程中，血红蛋白的组成再次发生变化，αHb1链大量增加。一条单一的血红蛋白链在所有阶段都持续表达。我们还进一步展示了其他珠蛋白基因的差异表达：肌红蛋白1在生殖性成年个体中表达最高，肌红蛋白2在幼体中的表达达到峰值。珠蛋白X1仅限于胚胎；珠蛋白X2仅在生殖性成年个体中发现。细胞色素b在整个生命周期中表达水平较低。

结论

由于有颌和无颌脊椎动物的血红蛋白是从共同的珠蛋白祖先独立进化而来的，血红蛋白转换在这些分类群中也必然是趋同进化的。值得注意的是，海七鳃鳗血红蛋白的个体发生基本上概括了它们的系统发育，胚胎血红蛋白首先出现，随后是幼体和成年血红蛋白的进化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1116/4736134/5b99d9df16e5/12862_2016_597_Fig1_HTML.jpg

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有颌和无颌脊椎动物中血红蛋白转换的趋同进化。

Convergent evolution of hemoglobin switching in jawed and jawless vertebrates.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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