Expression Profiling Reveals the Possible Involvement of the Ubiquitin–Proteasome Pathway in Abiotic Stress Regulation in Gracilariopsis lemaneiformis

Author:

Qin Feng1,Shui Guangqiang1,Li Zheng1,Tu Mengge1,Zang Xiaonan1

Affiliation:

1. Key Laboratory of Marine Genetics and Breeding, Ministry of Education, Ocean University of China, Qingdao 266003, China

Abstract

Gracilariopsis lemaneiformis is an economically important red macroalga, the cultivation of which is affected by abiotic stresses. This research intends to study the response mechanism of various components of the ubiquitin-protease pathway to abiotic stress in G. lemaneiformis. The algae were treated with five common external stresses (high temperature, low temperature, O3, PEG, and water shortage) to study the macroscopic and microscopic manifestations of the ubiquitin–proteasome pathway. Firstly, the changes in soluble protein and ubiquitin were detected during the five treatments, and the results showed that the content of soluble protein and ubiquitin significantly increased under most stresses. The content of the soluble protein increased the most on the second day after 20% PEG treatment, which was 1.38 times higher than that of the control group, and the content of ubiquitin increased the most 30 min after water shortage treatment, which was 3.6 times higher than that of the control group. Then, 12 key genes (E1, E2, UPL1, HRD1, UFD1, Cul3, Cul4, DDB2, PIAS1, FZR1, APC8, and COP1) of the ubiquitin–proteasome pathway were studied, including an estimation of the probably regulatory elements in putative promoter regions and an analysis of transcript levels. The results showed that CAAT box, LTR, GC motif, and MBS elements were present in the putative promoter regions, which might have endowed the genes with the ability to respond to stress. The transcript analysis showed that under high temperature, low temperature, PEG, O3, and water shortage, all of the genes exhibited instant and significant up-regulation, and different genes had different response levels to different stresses. Many of them also showed the synergistic effect of transcript up-regulation under various stress treatments. In particular, E1, E2, Cul3, Cul4, UPL1, HRD1, and COP1 performed most significantly under the five stresses. Collectively, our exploration of the ubiquitin–proteasome pathway and the transcript levels of key genes suggest a significant role to cope with adversity, and potential candidate genes can be selected for transformation to obtain stress-resistant strains.

Funder

Key Program of Science and Technology Innovation Ningbo

China Agriculture Research System

Publisher

MDPI AG

Subject

Inorganic Chemistry,Organic Chemistry,Physical and Theoretical Chemistry,Computer Science Applications,Spectroscopy,Molecular Biology,General Medicine,Catalysis

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