Evaluation of cucumber UBL5 promoter as a tool for transgene expression and genome editing in plants.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2023-10-01 Epub Date: 2023-06-23 DOI:10.1007/s11248-023-00359-5
Kamonchanok Taway, Issariya Dachphun, Supachai Vuttipongchaikij, Anongpat Suttangkakul
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Abstract

Transgene expression and genome editing can help improve cucumber varieties to better respond to climate change. This study aimed to evaluate the applicability of the CsUBL5 promoter in transgene expression and genome editing in cucumber. The CsUBL5 promoter was cloned and analyzed to identify cis-elements that respond to abiotic signals, hormones, signal molecules, and nutrient treatments. 5' deletion constructs of the promoter were tested for their ability to drive GUS reporter expression in cucumber cotyledons, Arabidopsis seedlings, and tobacco leaves, and their response to various treatments including SA, light, drought, IAA, and GA was determined. The results showed that the CsUBL5 promoter effectively drove transgene expression in these plants, and their expressions under treatments were consistent with the predicted cis-elements, with some exceptions. Furthermore, the pCsUBL5-749 deletion construct can improve genome editing efficiency in cucumber when driving Cas9 expression. The editing efficiency of two sgRNAs targeting the ATG6 gene in cucumber was up to 4.6-fold higher using pCsUBL5-749 compared to a rice UBI promoter, although the effects of changing promoter on the editing efficiency is sgRNA specific. These findings highlight the potential utility of the CsUBL5 promoter for improving cucumber varieties through genetic engineering and genome editing. It also demonstrates the importance of modulating Cas9 expression to increase genome editing efficiency in cucumbers.

Abstract Image

黄瓜UBL5启动子作为植物转基因表达和基因组编辑工具的评估。
转基因表达和基因组编辑可以帮助黄瓜品种更好地应对气候变化。本研究旨在评估CsUBL5启动子在黄瓜转基因表达和基因组编辑中的适用性。克隆并分析了CsUBL5启动子,以鉴定对非生物信号、激素、信号分子和营养处理有反应的顺式元件。测试了启动子的5'缺失构建体在黄瓜子叶、拟南芥幼苗和烟叶中驱动GUS报告基因表达的能力,并测定了它们对SA、光照、干旱、IAA和GA等各种处理的反应。结果表明,CsUBL5启动子有效地驱动了转基因在这些植物中的表达,并且它们在处理下的表达与预测的顺式元件一致,只有一些例外。此外,pCsUBL5-749缺失构建体在驱动Cas9表达时可以提高黄瓜基因组编辑效率。与水稻UBI启动子相比,使用pCsUBL5-749,黄瓜中靶向ATG6基因的两种sgRNA的编辑效率高出4.6倍,尽管改变启动子对编辑效率的影响是sgRNA特异性的。这些发现突出了CsUBL5启动子在通过基因工程和基因组编辑改良黄瓜品种方面的潜在效用。它还证明了调节Cas9表达对提高黄瓜基因组编辑效率的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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