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虹鳟(Oncorhynchus mykiss)在孵化和向 pH 敏感的、成体血红蛋白多态性转变过程中,丧失了鳃部可接触的碳酸酐酶的表达。

Developing rainbow trout (Oncorhynchus mykiss) lose branchial plasma accessible carbonic anhydrase expression with hatch and the transition to pH-sensitive, adult hemoglobin polymorphs.

机构信息

University of British Columbia, Vancouver, BC, V6T 1Z4, Canada.

出版信息

J Comp Physiol B. 2024 Aug;194(4):537-543. doi: 10.1007/s00360-024-01557-1. Epub 2024 May 2.

DOI:10.1007/s00360-024-01557-1
PMID:38698121
Abstract

Salmonids possess a unique respiratory system comprised of three major components: highly pH-sensitive hemoglobins, red blood cell (RBC) intracellular pH (pHi) protection, and a heterogeneous distribution of plasma accessible carbonic anhydrase (paCA), specifically with absence of paCA at the gills. These characteristics are thought to have evolved to enhance oxygen unloading to the tissues while protecting uptake at the gills. Our knowledge of this system is detailed in adults, but little is known about it through development. Developing rainbow trout (Oncorhynchus mykiss) express embryonic RBCs containing hemoglobins that are relatively insensitive to pH; however, availability of gill paCA and RBC pHi protection is unknown. We show that pre-hatch rainbow trout express gill paCA, which is lost in correlation with the emergence of highly pH-sensitive adult hemoglobins and RBC pHi protection. Rainbow trout therefore exhibit a switch in respiratory strategy with hatch. We conclude that gill paCA likely represents an embryonic trait in rainbow trout and is constrained in adults due to their highly pH-sensitive hemoglobins.

摘要

鲑鱼具有独特的呼吸系统,由三个主要组成部分构成:对 pH 值高度敏感的血红蛋白、红细胞(RBC)内 pH 值(pHi)保护,以及血浆可接触碳酸酐酶(paCA)的不均匀分布,特别是在鳃中不存在 paCA。这些特征被认为是为了在保护鳃吸收的同时增强向组织的氧气释放而进化而来的。我们对该系统的了解在成年鱼类中详细阐述,但在发育过程中对此知之甚少。发育中的虹鳟(Oncorhynchus mykiss)表达含有对 pH 值相对不敏感的血红蛋白的胚胎 RBC;然而,关于鳃 paCA 和 RBC pHi 保护的可用性尚不清楚。我们表明,孵化前的虹鳟表达了鳃 paCA,它随着高度 pH 值敏感的成年血红蛋白的出现和 RBC pHi 保护而丧失。因此,虹鳟在孵化时表现出呼吸策略的转变。我们得出结论,鳃 paCA 可能代表虹鳟的胚胎特征,由于其高度 pH 值敏感的血红蛋白,在成年鱼类中受到限制。

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本文引用的文献

1
A novel perspective on the evolutionary loss of plasma-accessible carbonic anhydrase at the teleost gill.一种新视角看待硬骨鱼鳃中可接触血浆的碳酸酐酶的进化性缺失。
J Exp Biol. 2023 Oct 1;226(19). doi: 10.1242/jeb.246016. Epub 2023 Oct 11.
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The role of carbonic anhydrase-mediated tissue oxygen extraction in a marine teleost acclimated to hypoxia.碳酸酐酶介导的组织氧提取在适应低氧环境的海洋硬骨鱼中的作用。
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Blood and Gill Carbonic Anhydrase in the Context of a Chondrichthyan Model of CO Excretion.
基于软骨鱼类二氧化碳排泄模型的血液和鳃碳酸酐酶
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4
A solution to Nature's haemoglobin knockout: a plasma-accessible carbonic anhydrase catalyses CO excretion in Antarctic icefish gills.解决自然界血红蛋白缺失的方法:一种可进入血浆的碳酸酐酶在南极冰鱼鳃中催化 CO 排出。
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The Divergent Genomes of Teleosts.硬骨鱼类的分歧基因组。
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6
Expression stability and selection of optimal reference genes for gene expression normalization in early life stage rainbow trout exposed to cadmium and copper.镉和铜暴露下幼龄虹鳟鱼基因表达标准化中最佳内参基因的表达稳定性及筛选
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Evidence for a plasma-accessible carbonic anhydrase in the lumen of salmon heart that may enhance oxygen delivery to the myocardium.在鲑鱼心脏腔中存在一种可被血浆接触的碳酸酐酶的证据,该酶可能增强对心肌的氧气输送。
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A unique mode of tissue oxygenation and the adaptive radiation of teleost fishes.硬骨鱼的独特组织氧合模式与适应性辐射
J Exp Biol. 2014 Apr 15;217(Pt 8):1205-14. doi: 10.1242/jeb.093526.
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Root effect hemoglobin may have evolved to enhance general tissue oxygen delivery.根效应血红蛋白可能是为了增强组织的整体氧输送而进化而来的。
Science. 2013 Jun 14;340(6138):1327-9. doi: 10.1126/science.1233692.
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