TY - JOUR
T1 - Hairpin RNA derived from the gene for Pns9, a viroplasm matrix protein of Rice gall dwarf virus, confers strong resistance to virus infection in transgenic rice plants
AU - Shimizu, Takumi
AU - Nakazono-Nagaoka, Eiko
AU - Akita, Fusamichi
AU - Wei, Taiyun
AU - Sasaya, Takahide
AU - Omura, Toshihiro
AU - Uehara-Ichiki, Tamaki
N1 - Funding Information:
The authors are grateful to Dr. K. Shimamoto (Nara Institute of Science and Technology, Ikoma, Japan) for kindly providing the RNAi vector pANDA. This work was supported by a grant from the Program for Promotion of Basic Research Activities for Innovative Biosciences of the Bio-Oriented Technology Research Advancement Institution (BRAIN) and by a grant from the Ministry of Agriculture, Forestry, and Fisheries of Japan (Genomic for Agricultural Innovation, GMA-0003) .
PY - 2012/2/10
Y1 - 2012/2/10
N2 - The nonstructural Pns9 protein of Rice gall dwarf virus (RGDV) accumulates in viroplasm inclusions, which are structures that appear to play an important role in viral morphogenesis and are commonly found in host cells infected by viruses in the family Reoviridae. An RNA interference construct was designed to target the gene for Pns9 of RGDV, namely Trigger_G9. The resultant transgenic plants accumulated short interfering RNAs specific for the construct. All progenies from self-fertilized transgenic plants had strong and heritable resistance to RGDV infection and did not allow the propagation of RGDV. By contrast, our transgenic plants remained susceptible to Rice dwarf virus, another phytoreovirus. There were no significant changes in the morphology of our transgenic plants compared with non-inoculated wild-type rice plants, suggesting that genes critical for the growth of rice plants were unaffected. Our results demonstrate that the resistance to RGDV of our transgenic rice plants is not due to resistance to the vector insects but to specific inhibition of RGDV replication and that the designed trigger sequence is functioning normally. Thus, our strategy to target a gene for viroplasm matrix protein should be applicable to plant viruses that belong to the family Reoviridae.
AB - The nonstructural Pns9 protein of Rice gall dwarf virus (RGDV) accumulates in viroplasm inclusions, which are structures that appear to play an important role in viral morphogenesis and are commonly found in host cells infected by viruses in the family Reoviridae. An RNA interference construct was designed to target the gene for Pns9 of RGDV, namely Trigger_G9. The resultant transgenic plants accumulated short interfering RNAs specific for the construct. All progenies from self-fertilized transgenic plants had strong and heritable resistance to RGDV infection and did not allow the propagation of RGDV. By contrast, our transgenic plants remained susceptible to Rice dwarf virus, another phytoreovirus. There were no significant changes in the morphology of our transgenic plants compared with non-inoculated wild-type rice plants, suggesting that genes critical for the growth of rice plants were unaffected. Our results demonstrate that the resistance to RGDV of our transgenic rice plants is not due to resistance to the vector insects but to specific inhibition of RGDV replication and that the designed trigger sequence is functioning normally. Thus, our strategy to target a gene for viroplasm matrix protein should be applicable to plant viruses that belong to the family Reoviridae.
KW - Phytoreovirus
KW - RNA interference
KW - Transgenic rice
KW - Viral resistance
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U2 - 10.1016/j.jbiotec.2011.12.015
DO - 10.1016/j.jbiotec.2011.12.015
M3 - Article
C2 - 22212819
AN - SCOPUS:84863398326
SN - 0168-1656
VL - 157
SP - 421
EP - 427
JO - Journal of biotechnology
JF - Journal of biotechnology
IS - 3
ER -