CRISPR/Cas editing of a CPC gene in Arabidopsis thaliana

Q3 Agricultural and Biological Sciences Ecological genetics Pub Date : 2024-05-14 DOI:10.17816/ecogen624373

E. A. Khusnutdinov, Maria A. Panfilova, M. Terekhov, E. Mikhaylova

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引用次数: 1

Abstract

BACKGROUND: Identification of target genes responsible for visible phenotypic effect may contribute to the development of transgene-free bioengineering strategies and application of crop varieties with edited genome. CAPRICE (CPC) is a single-repeat R3 MYB transcription factor, involved in anthocyanin biosynthesis and trichome formation. It is assumed that CPC controls the expression of Dihydroflavonol-4-reductase (DFR), a key gene of anthocyanin biosynthesis. AIM: The aim of the study was to determine whether knockout of the CPC gene using CRISPR/Cas9 results in visible anthocyanin accumulation. MATERIALS AND METHODS: Three guide RNAs were designed to excise a MYB domain from the CPC gene of Arabidopsis thaliana. Anthocyanin content and expression of CPC and DFR genes were studied in edited plants. RESULTS: The expected 662 bp deletion was detected in 2,7% of glufosinate-resistant plants, however none of the mutations were homozygous. Four edited lines were studied in four generations. An upregulation of the DFR gene was observed in edited lines, however CPC gene expression, anthocyanin content and trichome development were not significantly different from those in control plants. Moreover, in A. thaliana pigmentation did not directly depend on DFR or CPC gene expression. CONCLUSIONS: Our results suggest that CPC gene is involved in regulation of DFR gene expression and anthocyanin biosynthesis pathway, however in case of mutations plants might utilize other transcription factors to maintain homeostasis. Therefore, CPC gene is not a suitable target for CRISPR/Cas studies in Arabidopsis.

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拟南芥中 CPC 基因的 CRISPR/Cas 编辑

背景：鉴定导致可见表型效应的靶基因可能有助于开发无转基因生物工程策略和应用经基因组编辑的作物品种。CAPRICE（CPC）是一个单重复 R3 MYB 转录因子，参与花青素的生物合成和毛状体的形成。据推测，CPC 控制着花青素生物合成的关键基因--二氢黄酮醇-4 还原酶（DFR）的表达。目的：本研究旨在确定使用 CRISPR/Cas9 敲除 CPC 基因是否会导致可见的花青素积累。材料与方法：设计了三种引导 RNA 来切除拟南芥 CPC 基因的 MYB 结构域。研究了编辑植株的花青素含量以及 CPC 和 DFR 基因的表达。结果：在 2.7% 的抗草铵膦植株中检测到了预期的 662 bp 缺失，但没有一个突变是同源的。对四个编辑品系进行了四代研究。在编辑品系中观察到 DFR 基因上调，但 CPC 基因表达、花青素含量和毛状体发育与对照植株无显著差异。此外，拟南芥的色素沉着并不直接依赖于 DFR 或 CPC 基因的表达。结论：我们的研究结果表明，CPC 基因参与了 DFR 基因表达和花青素生物合成途径的调控，但在基因突变的情况下，植物可能会利用其他转录因子来维持体内平衡。因此，CPC 基因不是拟南芥中 CRISPR/Cas 研究的合适靶标。

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Ecological genetics Environmental Science-Ecology

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0.90

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0.00%

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期刊介绍： The journal Ecological genetics is an international journal which accepts for consideration original manuscripts that reflect the results of field and experimental studies, and fundamental research of broad conceptual and/or comparative context corresponding to the profile of the Journal. Once a year, the editorial Board reviews and, if necessary, corrects the rules for authors and the journal rubrics.

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