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在. 中利用滚环扩增(RCA)介导的全基因组 ihpRNAi 突变文库构建

Rolling Circle Amplification (RCA)-Mediated Genome-Wide ihpRNAi Mutant Library Construction in .

机构信息

Oil Crops Research Institute of the Chinese Academy of Agricultural Sciences, Key Laboratory of Biology and Genetic Improvement of Oil Crops, Ministry of Agriculture, Wuhan 430062, China.

出版信息

Int J Mol Sci. 2020 Sep 30;21(19):7243. doi: 10.3390/ijms21197243.

DOI:10.3390/ijms21197243
PMID:33008068
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7582411/
Abstract

With the successful completion of genomic sequencing for , identification of novel genes, determination of functions performed by genes, and exploring the molecular mechanisms underlying important agronomic traits were challenged. Mutagenesis-based functional genomics techniques including chemical, physical, and insertional mutagenesis have been used successfully in the functional characterization of genes. However, these techniques had their disadvantages and inherent limitations for allopolyploid , which contained a large number of homologous and redundant genes. Long intron-spliced hairpin RNA (ihpRNA) constructs which contained inverted repeats of the target gene separated by an intron, had been shown to be very effective in triggering RNAi in plants. In the present study, the genome-wide long ihpRNA library of was constructed with the rolling circle amplification (RCA)-mediated technology. Using the phytoene desaturase () gene as a target control, it was shown that the RCA-mediated long ihpRNA construct was significantly effective in triggering gene silence in . Subsequently, the resultant long ihpRNA library was transformed into to produce corresponding RNAi mutants. Among the obtained transgenic ihpRNA population of , five ihpRNA lines with observable mutant phenotypes were acquired including alterations in the floral model and the stamen development. The target genes could be quickly identified using specific primers. These results showed that the RCA-mediated ihpRNA construction method was effective for the genome-wide long ihpRNA library of therefore providing a platform for study of functional genomics in allopolyploid .

摘要

随着基因组测序的成功完成,鉴定新基因、确定基因的功能以及探索重要农艺性状的分子机制都面临着挑战。基于诱变的功能基因组学技术,包括化学、物理和插入诱变,已成功应用于基因的功能表征。然而,这些技术对于含有大量同源和冗余基因的异源多倍体来说存在缺点和固有局限性。长内含子剪接发夹 RNA(ihpRNA)构建体,其中包含目标基因的反向重复序列,由内含子分隔,已被证明在植物中非常有效地触发 RNAi。在本研究中,使用滚环扩增(RCA)介导的技术构建了 的全基因组长 ihpRNA 文库。使用类胡萝卜素脱饱和酶()基因作为靶标对照,表明 RCA 介导的长 ihpRNA 构建体在触发中的基因沉默非常有效。随后,将所得的长 ihpRNA 文库转化为 以产生相应的 RNAi 突变体。在所获得的转基因 ihpRNA 群体中,获得了五个具有可观察到的突变表型的 ihpRNA 系,包括花型和雄蕊发育的改变。可以使用特异性引物快速鉴定靶基因。这些结果表明,RCA 介导的 ihpRNA 构建方法对于 全基因组长 ihpRNA 文库是有效的,因此为异源多倍体的功能基因组学研究提供了一个平台。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/36ab/7582411/ab471de9a6c2/ijms-21-07243-g006.jpg
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