Email this article Identification of cadmium-responsive microRNAs in Solanum torvum by high-throughput sequencing
- Authors: Kang X.P.1, Gao J.P.1,2, Zhao J.J.2, Yin H.X.3, Wang W.Y.4, Zhang P.2, Wang R.L.2, Xu J.2
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Affiliations:
- College of Horticulture
- Key Laboratory of Tropical Plant Resources and Sustainable Use, Xishuangbanna Tropical Botanical Garden
- Key Laboratory of Stress Physiology and Ecology in Cold and Arid Regions, Gansu Province, Department of Ecology and Agriculture Research, Cold and Arid Regions Environmental and Engineering Research Institute
- College of Life Science and Geography
- Issue: Vol 64, No 2 (2017)
- Pages: 283-300
- Section: Brief Communications
- URL: https://journal-vniispk.ru/1021-4437/article/view/179606
- DOI: https://doi.org/10.1134/S1021443717020066
- ID: 179606
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Abstract
MicroRNAs (miRNAs) play key roles in regulating Cd toxicity tolerance in plants. Solanum torvum Sw. is a typical low Cd-accumulating plant that has a high Cd tolerance. Despite its importance, no miRNA has been identified from S. torvum thus far. In this study, high-throughput sequencing of S. torvum small RNAs was used to identify miRNAs that were differentially expressed in response to Cd toxicity. At least 45 miRNA families and 165 individual members within those families were identified in both the control and Cd-treated S. torvum roots. Among these miRNAs, 45 miRNAs from 21 miRNA families were differentially expressed in the control and Cd-treated S. torvum plants. Among these 21 differentially expressed miRNA families, 6 miRNA families were upregulated in the Cd-treated roots, and 15 miRNA families were downregulated in Cd-treated roots. Bioinformatics analysis indicated that these miRNAs were involved in replication, recombination and repair, inorganic ion transport and metabolism, transcription, signal transduction mechanisms, cell cycle control, cell division, chromosome partitioning, RNA processing and modification in S. torvum roots. These results indicated that specific miRNAs are tightly regulated by Cd toxicity in the roots of S. torvum, which may play key roles in the Cd tolerance of S. torvum.
About the authors
X. P. Kang
College of Horticulture
Email: xujin@xtbg.ac.cn
China, Taigu, Shanxi, 030801
J. P. Gao
College of Horticulture; Key Laboratory of Tropical Plant Resources and Sustainable Use, Xishuangbanna Tropical Botanical Garden
Email: xujin@xtbg.ac.cn
China, Taigu, Shanxi, 030801; Menglun, Mengla, Yunnan, 666303
J. J. Zhao
Key Laboratory of Tropical Plant Resources and Sustainable Use, Xishuangbanna Tropical Botanical Garden
Email: xujin@xtbg.ac.cn
China, Menglun, Mengla, Yunnan, 666303
H. X. Yin
Key Laboratory of Stress Physiology and Ecology in Cold and Arid Regions, Gansu Province, Department of Ecology and Agriculture Research, Cold and Arid Regions Environmental and Engineering Research Institute
Email: xujin@xtbg.ac.cn
China, Lanzhou, Gansu, 730000
W. Y. Wang
College of Life Science and Geography
Email: xujin@xtbg.ac.cn
China, Xining, 810008
P. Zhang
Key Laboratory of Tropical Plant Resources and Sustainable Use, Xishuangbanna Tropical Botanical Garden
Email: xujin@xtbg.ac.cn
China, Menglun, Mengla, Yunnan, 666303
R. L. Wang
Key Laboratory of Tropical Plant Resources and Sustainable Use, Xishuangbanna Tropical Botanical Garden
Email: xujin@xtbg.ac.cn
China, Menglun, Mengla, Yunnan, 666303
J. Xu
Key Laboratory of Tropical Plant Resources and Sustainable Use, Xishuangbanna Tropical Botanical Garden
Author for correspondence.
Email: xujin@xtbg.ac.cn
China, Menglun, Mengla, Yunnan, 666303
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