TY - JOUR
T1 - Differential characteristics of viral siRNAs between leaves and roots of wheat plants naturally infected with wheat yellow mosaic virus, a soil-borne virus
AU - Li, Linying
AU - Andika, Ida Bagus
AU - Xu, Yu
AU - Zhang, Yan
AU - Xin, Xiangqi
AU - Hu, Lifeng
AU - Sun, Zongtao
AU - Hong, Gaojie
AU - Chen, Yang
AU - Yan, Fei
AU - Yang, Jian
AU - Li, Junmin
AU - Chen, Jianping
N1 - Funding Information:
We thank Mike J. Adams (Stevenage Herts, United Kingdom), for English correction of the manuscript. This work was funded by the Special Fund for Agro-scientific Research in the Public Interest of China (201303021), China Agriculture Research System (CARS-3-1) from the Ministry of Agriculture of China, the National Natural Science Foundation of China (31501604), the Project of New Varieties of Genetically Modified Wheat of China (2011ZX08002-001), and the International Science and Technology Cooperation Program of China (2015DFA30700).
Publisher Copyright:
© 2017 Li, Andika, Xu, Zhang, Xin, Hu, Sun, Hong, Chen, Yan, Yang, Li and Chen.
PY - 2017/9/20
Y1 - 2017/9/20
N2 - RNA silencing is an important innate antiviral defense in plants. Soil-borne plant viruses naturally infect roots via soil-inhabiting vectors, but it is unclear how antiviral RNA silencing responds to virus infection in this particular tissue. In this study, viral small interfering RNA (siRNA) profiles from leaves and roots of wheat plants naturally infected with a soil-borne virus, wheat yellow mosaic virus (WYMV, genus Bymovirus), were analyzed by deep sequencing. WYMV siRNAs were much more abundant in roots than leaves, which was positively correlated with the accumulation of viral RNA. WYMV siRNAs in leaves and roots were predominantly 21- and 22-nt long and equally derived from the positive- and negative-strands of the viral genome. WYMV siRNAs from leaves and roots differed in distribution pattern along the viral genome. Interestingly, compared to siRNAs from leaves (and most other reports), those from roots obviously had a lower A/U bias at the 5'-terminal nucleotide. Moreover, the expression of Dicer-like genes upon WYMV infection were differently regulated between leaves and roots. Our data suggest that RNA silencing in roots may operate differently than in leaves against soil-borne virus invasion.
AB - RNA silencing is an important innate antiviral defense in plants. Soil-borne plant viruses naturally infect roots via soil-inhabiting vectors, but it is unclear how antiviral RNA silencing responds to virus infection in this particular tissue. In this study, viral small interfering RNA (siRNA) profiles from leaves and roots of wheat plants naturally infected with a soil-borne virus, wheat yellow mosaic virus (WYMV, genus Bymovirus), were analyzed by deep sequencing. WYMV siRNAs were much more abundant in roots than leaves, which was positively correlated with the accumulation of viral RNA. WYMV siRNAs in leaves and roots were predominantly 21- and 22-nt long and equally derived from the positive- and negative-strands of the viral genome. WYMV siRNAs from leaves and roots differed in distribution pattern along the viral genome. Interestingly, compared to siRNAs from leaves (and most other reports), those from roots obviously had a lower A/U bias at the 5'-terminal nucleotide. Moreover, the expression of Dicer-like genes upon WYMV infection were differently regulated between leaves and roots. Our data suggest that RNA silencing in roots may operate differently than in leaves against soil-borne virus invasion.
KW - Antiviral RNA silencing
KW - Deep sequencing
KW - Soil-borne plant viruses
KW - Viral small interfering RNA
KW - Wheat yellow mosaic virus
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U2 - 10.3389/fmicb.2017.01802
DO - 10.3389/fmicb.2017.01802
M3 - Article
AN - SCOPUS:85029746774
SN - 1664-302X
VL - 8
JO - Frontiers in Microbiology
JF - Frontiers in Microbiology
IS - SEP
M1 - 1802
ER -