缢蛏响应高氨胁迫基因的表达及功能分析

Expression and Functional Analysis of Gene Responding to High Ammonia Stress in Razor Clam ().

作者信息

Hu Chenxin, Dai Wenfang, Zhu Xiaojie, Yao Hanhan, Lin Zhihua, Dong Yinghui, Lv Liyuan

机构信息

Key Laboratory of Aquatic Germplasm Resource of Zhejiang, College of Biological and Environmental Sciences, Zhejiang Wanli University, Ningbo 315100, China.

Ninghai Institute of Mariculture Breeding and Seed Industry, Zhejiang Wanli University, Ningbo 315604, China.

出版信息

Animals (Basel). 2023 May 14;13(10):1638. doi: 10.3390/ani13101638.

DOI:10.3390/ani13101638

PMID:37238069

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10215384/

Abstract

Ammonium transporter 1 (AMT1), a member of ammonia (NH/NH) transport proteins, has been found to have ammonia transport activity in plants and microorganisms. However, the functional characteristics and molecular mechanisms of AMT1 in mollusks remain unclear. The razor clam () is a suitable model species to explore the molecular mechanism of ammonia excretion because of the high concentration of ambient ammonia it is exposed to in the clam-fish-shrimp polyculture system. Here, the expression of in () in response to high ammonia (12.85 mmol/L NHCl) stress was identified by real-time quantitative PCR (qRT-PCR), Western blotting, RNA interference, and immunofluorescence analysis. Additionally, the association between the SNP_g.15211125A > T linked with and ammonia tolerance was validated by kompetitive allele-specific PCR (KASP). A significant upregulated expression of Sc-AMT1 was observed during ammonia exposure, and Sc-AMT1 was found to be localized in the flat cells of gill. Moreover, the interference with significantly upregulated the hemolymph ammonia levels, accompanied by the increased mRNA expression of Rhesus glycoprotein (Rh). Taken together, our findings imply that AMT1 may be a primary contributor to ammonia excretion in , which is the basis of their ability to inhabit benthic water with high ammonia levels.

摘要

铵转运蛋白1（AMT1）是氨（NH₃/NH₄⁺）转运蛋白家族的成员，已发现在植物和微生物中具有氨转运活性。然而，AMT1在软体动物中的功能特性和分子机制仍不清楚。缢蛏是探索氨排泄分子机制的合适模式物种，因为在虾贝鱼混养系统中，缢蛏暴露于高浓度的环境氨中。在此，通过实时定量PCR（qRT-PCR）、蛋白质免疫印迹法、RNA干扰和免疫荧光分析，鉴定了缢蛏（Sinonovacula constricta）中Sc-AMT1在高氨（12.85 mmol/L NH₄Cl）胁迫下的表达情况。此外，通过竞争性等位基因特异性PCR（KASP）验证了与Sc-AMT1相关的SNP_g.15211125A>T与氨耐受性之间的关联。在氨暴露期间观察到Sc-AMT1的表达显著上调，并且发现Sc-AMT1定位于鳃的扁平细胞中。此外，对Sc-AMT1的干扰显著上调了血淋巴氨水平，同时恒河猴糖蛋白（Rh）的mRNA表达增加。综上所述，我们的研究结果表明，AMT1可能是缢蛏氨排泄的主要贡献者，这是它们能够栖息在高氨水平底栖水中的能力基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/39d6/10215384/0549017ce5af/animals-13-01638-g001.jpg

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缢蛏响应高氨胁迫基因的表达及功能分析

Expression and Functional Analysis of Gene Responding to High Ammonia Stress in Razor Clam ().

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