Literature DB >> 20226761

A miR-21 hairpin structure-based gene knockdown vector.

Junming Yue1, Yi Sheng, Aixia Ren, Sravya Penmatsa.   

Abstract

RNA interference (RNAi) is widely used to study gene functions as a reverse genetic means from first-generation siRNA to second-generation short hairpin RNA (shRNA) or the newly developed microRNA (shRNA-miR). Here we report a gene knockdown vector system based on the mouse miR-21 hairpin structure. In this system, the pre-miRNA hairpin of the miR-21 gene was modified by replacing the 22-nucleotide mature sequence with shRNA sequences that target genes of interest, flanked by 160-bp upstream and 65-bp downstream sequences of the mouse pre-miR-21. We tested this system by knocking down the enhanced green fluorescence protein (EGFP) reporter gene using different vectors, in which shRNA-miR was driven by the polymerase II (pol II) promoter. We found that miR-21 hairpin-based shRNA-miR can be directly placed under pol II promoter, like UbC or CMV promoter to knockdown the gene of interest. To facilitate the wide application of the miR-21 hairpin-based gene knockdown system, we further knocked down the endogenous gene lamin (A/C), which showed that endogenous lamin A/C expression can be efficiently silenced using the miR-21 hairpin-based lentiviral vector. The miR-21 hairpin-based gene knockdown vector will provide a new genetic tool for gene functional studies in vitro and in vivo. Copyright 2010 Elsevier Inc. All rights reserved.

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Year:  2010        PMID: 20226761      PMCID: PMC2854175          DOI: 10.1016/j.bbrc.2010.03.047

Source DB:  PubMed          Journal:  Biochem Biophys Res Commun        ISSN: 0006-291X            Impact factor:   3.575


  9 in total

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Review 3.  Advances in microRNAs: implications for gene therapists.

Authors:  Rebecca T Marquez; Anton P McCaffrey
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Review 4.  siRNA, miRNA, and shRNA: in vivo applications.

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5.  Artificial microRNAs as siRNA shuttles: improved safety as compared to shRNAs in vitro and in vivo.

Authors:  Ryan L Boudreau; Inês Martins; Beverly L Davidson
Journal:  Mol Ther       Date:  2008-11-11       Impact factor: 11.454

6.  Second-generation shRNA libraries covering the mouse and human genomes.

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Journal:  Nat Genet       Date:  2005-10-02       Impact factor: 38.330

7.  Heritable and stable gene knockdown in rats.

Authors:  Christina Tenenhaus Dann; Alma L Alvarado; Robert E Hammer; David L Garbers
Journal:  Proc Natl Acad Sci U S A       Date:  2006-07-14       Impact factor: 11.205

8.  Prevention of interferon-stimulated gene expression using microRNA-designed hairpins.

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9.  Pol II-expressed shRNA knocks down Sod2 gene expression and causes phenotypes of the gene knockout in mice.

Authors:  Xu-Gang Xia; Hongxia Zhou; Enrique Samper; Simon Melov; Zuoshang Xu
Journal:  PLoS Genet       Date:  2006-01-27       Impact factor: 5.917
  9 in total
  27 in total

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4.  Conditional deletion of Dicer in vascular smooth muscle cells leads to the developmental delay and embryonic mortality.

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Authors:  Andrzej T Slominski; Tae-Kang Kim; Zorica Janjetovic; Robert C Tuckey; Radoslaw Bieniek; Junming Yue; Wei Li; Jianjun Chen; Minh N Nguyen; Edith K Y Tang; Duane Miller; Tai C Chen; Michael Holick
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6.  Ovarian Primary and Metastatic Tumors Suppressed by Survivin Knockout or a Novel Survivin Inhibitor.

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7.  DiGeorge syndrome critical region 8 (DGCR8) protein-mediated microRNA biogenesis is essential for vascular smooth muscle cell development in mice.

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8.  Lentiviral vector mediated-ASAP1 expression promotes epithelial to mesenchymal transition in ovarian cancer cells.

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9.  miR-203 Functions as a Tumor Suppressor by Inhibiting Epithelial to Mesenchymal Transition in Ovarian Cancer.

Authors:  Guannan Zhao; Yuqi Guo; Zixuan Chen; Yinan Wang; Chuanhe Yang; Andrew Dudas; Ziyun Du; Wen Liu; Yanan Zou; Erzsebet Szabo; Sue-Chin Lee; Michelle Sims; Weiwang Gu; Todd Tillmanns; Lawrence M Pfeffer; Gabor Tigyi; Junming Yue
Journal:  J Cancer Sci Ther       Date:  2015

10.  Silencing miR-16 Expression Promotes Angiotensin II Stimulated Vascular Smooth Muscle Cell Growth.

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