鱼类氧气分泌的进化与复杂生理系统的出现。

Evolution of oxygen secretion in fishes and the emergence of a complex physiological system.

作者信息

Berenbrink Michael, Koldkjaer Pia, Kepp Oliver, Cossins Andrew R

机构信息

School of Biological Sciences, University of Liverpool, Crown Street, Liverpool L69 7ZB, UK.

出版信息

Science. 2005 Mar 18;307(5716):1752-7. doi: 10.1126/science.1107793.

DOI:10.1126/science.1107793

PMID:15774753

Abstract

We have reconstructed the events that led to the evolution of a key physiological innovation underpinning the large adaptive radiation of fishes, namely their unique ability to secrete molecular oxygen (O2). We show that O2 secretion into the swimbladder evolved some 100 million years after another O2-secreting system in the eye. We unravel the likely sequence in which the functional components of both systems evolved. These components include ocular and swimbladder countercurrent exchangers, the Bohr and Root effects, the buffering power and surface histidine content of hemoglobins, and red blood cell Na+/H+ exchange activity. Our synthesis reveals the dynamics of gains and losses of these multiple traits over time, accounting for part of the huge diversity of form and function in living fishes.

摘要

我们重构了导致鱼类大规模适应性辐射的关键生理创新进化的事件，即它们分泌分子氧（O₂）的独特能力。我们发现，向鳔中分泌O₂的现象是在眼睛中另一个O₂分泌系统出现约1亿年后进化而来的。我们梳理了这两个系统功能组件可能的进化顺序。这些组件包括眼部和鳔逆流交换器、玻尔效应和鲁特效应、血红蛋白的缓冲能力和表面组氨酸含量，以及红细胞的Na⁺/H⁺交换活性。我们的综合分析揭示了这些多个性状随时间的得失动态，这解释了现存鱼类在形态和功能上的巨大多样性的一部分。

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鱼类氧气分泌的进化与复杂生理系统的出现。

Evolution of oxygen secretion in fishes and the emergence of a complex physiological system.

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鱼类氧气分泌的进化与复杂生理系统的出现。

Evolution of oxygen secretion in fishes and the emergence of a complex physiological system.

作者信息

机构信息

出版信息

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