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Virus-induced gene silencing in the perennial woody Paeonia ostii.


ABSTRACT: Tree peony is a perennial deciduous shrub with great ornamental and medicinal value. A limitation of its current functional genomic research is the lack of effective molecular genetic tools. Here, the first application of a Tobacco rattle virus (TRV)-based virus-induced gene silencing (VIGS) in the tree peony species Paeonia ostii is presented. Two different approaches, leaf syringe-infiltration and seedling vacuum-infiltration, were utilized for Agrobacterium-mediated inoculation. The vacuum-infiltration was shown to result in a more complete Agrobacterium penetration than syringe-infiltration, and thereby determined as an appropriate inoculation method. The silencing of reporter gene PoPDS encoding phytoene desaturase was achieved in TRV-PoPDS-infected triennial tree peony plantlets, with a typical photobleaching phenotype shown in uppermost newly-sprouted leaves. The endogenous PoPDS transcripts were remarkably down-regulated in VIGS photobleached leaves. Moreover, the green fluorescent protein (GFP) fluorescence was detected in leaves and roots of plants inoculated with TRV-GFP, suggesting the capability of TRV to silence genes in various tissues. Taken together, the data demonstrated that the TRV-based VIGS technique could be adapted for high-throughput functional characterization of genes in tree peony.

SUBMITTER: Xie L 

PROVIDER: S-EPMC6545099 | biostudies-literature | 2019

REPOSITORIES: biostudies-literature

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Virus-induced gene silencing in the perennial woody <i>Paeonia ostii</i>.

Xie Lihang L   Zhang Qingyu Q   Sun Daoyang D   Yang Weizong W   Hu Jiayuan J   Niu Lixin L   Zhang Yanlong Y  

PeerJ 20190529


Tree peony is a perennial deciduous shrub with great ornamental and medicinal value. A limitation of its current functional genomic research is the lack of effective molecular genetic tools. Here, the first application of a <i>Tobacco rattle virus</i> (TRV)-based virus-induced gene silencing (VIGS) in the tree peony species <i>Paeonia ostii</i> is presented. Two different approaches, leaf syringe-infiltration and seedling vacuum-infiltration, were utilized for <i>Agrobacterium</i>-mediated inocu  ...[more]

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