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  5. Knockdown of 60S ribosomal protein L14?2 reveals their potential regulatory roles to enhance drought

Knockdown of 60S ribosomal protein L14?2 reveals their potential regulatory roles to enhance drought

来源 :棉花研究(英文版) | 被引量 : 0次 | 上传用户:aivinator
【摘 要】
Background: Cotton is a valuable economic crop and the main significant source of natural fiber for textile industries globally. The effects of drought and salt stress pose a challenge to strong fiber and large-scale production due to the ever-changing cl
【作 者】
SHIRAKU Margaret Linyerera MAGWANGA Richard Odongo CAI Xiaoyan KIRUNGU Joy Nyangasi XU Yanchao MEHARI Teame Gereziher HOU Yuqing WANG Yuhong WANG Kunbo PENG Renhai ZHOU Zhongli LIU Fang 
【机 构】
State Key Laboratory of Cotton Biology/Institute of Cotton Research,Chinese Academy of Agricultural
【出 处】
棉花研究(英文版)
【发表日期】
2021年4期
【关键词】
Abiotic stress Cotton Ribosomal protein large Transcription factor Virus-induced 
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论文部分内容阅读
Background: Cotton is a valuable economic crop and the main significant source of natural fiber for textile industries globally. The effects of drought and salt stress pose a challenge to strong fiber and large-scale production due to the ever-changing climatic conditions. However, plants have evolved a number of survival strategies, among them is the induction of various stress-responsive genes such as the ribosomal protein large (RPL) gene. The RPL gene families encode critical proteins, which alleviate the effects of drought and salt stress in plants. In this study, comprehensive and functional analysis of the cotton RPL genes was carried out under drought and salt stresses. Results: Based on the genome-wide evaluation, 26, 8, and 5 proteins containing the RPL14B domain were identified in Gossypium hirsutum, G. raimondii, and G. arboreum, respectively. Furthermore, through bioinformatics analysis, key cis-regulatory elements related to RPL14B genes were discovered. The Myb binding sites (MBS), abscisic acid-respon-sive element (ABRE), CAAT-box, TATA box, TGACG-motif, and CGTCA-motif responsive to methyl jasmonate, as well as the TCA-motif responsive to salicylic acid, were identified. Expression analysis revealed a key gene, Gh_D01G0234 (RPL14B), with significantly higher induction levels was further evaluated through a reverse genetic approach. The knockdown of Gh_D01G0234 (RPL14B) significantly affected the performance of cotton seedlings under drought/salt stress conditions, as evidenced by a substantial reduction in various morphological and physiological traits. Moreover, the level of the antioxidant enzyme was significantly reduced in VIGS-plants, while oxidant enzyme levels increased significantly, as demonstrated by the higher malondialdehyde concentration level. Conclusion: The results revealed the potential role of the RPL14B gene in promoting the induction of antioxidant enzymes, which are key in oxidizing the various oxidants. The key pathways need to be investigated and even as we exploit these genes in the developing of more stress-resilient cotton germplasms.
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