Citrus psorosis virus 24K protein inhibits the processing of miRNA precursors by interacting with components of the biogenesis machinery.

Sweet orange () is one of the most important fruit crops worldwide. Virus infections in this crop can interfere with cellular processes, causing dramatic economic losses. By performing RT-qPCR analyses, we demonstrated that citrus psorosis virus (CPsV)-infected orange plants exhibited higher levels of unprocessed microRNA (miRNA) precursors than healthy plants.

Citrus Genetic Transformation: An Overview of the Current Strategies and Insights on the New Emerging Technologies.

Citrus are among the most prevailing fruit crops produced worldwide. The implementation of effective and reliable breeding programs is essential for coping with the increasing demands of satisfactory yield and quality of the fruit as well as to deal with the negative impact of fast-spreading diseases. Conventional methods are time-consuming and of difficult application because of inherent factors of citrus biology, such as their prolonged juvenile period and a complex reproductive stage, sometimes presenting infertility, self-incompatibility, parthenocarpy, or polyembryony.

Identification of a microRNA encoded by Anticarsia gemmatalis multiple nucleopolyhedrovirus.

MicroRNAs are regulatory RNAs that are scarcely described in Baculoviruses. In this work we predicted a microRNA in silico, denominated agmnpv-miR-4, encoded in the genome of Anticarsia gemmatalis Nucleopolyhedrovirus (AgMNPV), which is homologous to the already validated bmnpv-miR-4 from Bombyx mori Nucleopolyhedrovirus (BmNPV). Considering information known for bmnpv-miR-4 such as seed sequence, coding location in the genome and putative target binding, we searched for the coding sequence of agmnpv-miR-4 in AgMNPV genome.

Up-regulation of microRNA targets correlates with symptom severity in Citrus sinensis plants infected with two different isolates of citrus psorosis virus.

MAIN CONCLUSION: miRNA targets from Citrus sinensis are predicted and validated using degradome data. They show an up-regulation upon infection with CPsV, with a positive correlation between target expression and symptom severity. Sweet orange (Citrus sinensis) may suffer from disease symptoms induced by virus infections, thus resulting in drastic economic losses.

ICTV Virus Taxonomy Profile: Ophioviridae.

The Ophioviridae is a family of filamentous plant viruses, with single-stranded negative, and possibly ambisense, RNA genomes of 11.3-12.5 kb divided into 3-4 segments, each encapsidated separately.

Identification and characterization of two RNA silencing suppressors encoded by ophioviruses.

Citrus psorosis virus and Mirafiori lettuce big-vein virus are two members of the genus Ophiovirus, family Ophioviridae. So far, how these viruses can interfere in the antiviral RNA silencing pathway is not known. In this study, using a local GFP silencing assay on Nicotiana benthamiana, the 24K-25K and the movement protein (MP) of both viruses were identified as RNA silencing suppressor proteins.

Citrus psorosis virus 24K protein interacts with citrus miRNA precursors, affects their processing and subsequent miRNA accumulation and target expression.

Sweet orange (Citrus sinensis), one of the most important fruit crops worldwide, may suffer from disease symptoms induced by virus infections, thus resulting in dramatic economic losses. Here, we show that the infection of sweet orange plants with two isolates of Citrus psorosis virus (CPsV) expressing different symptomatology alters the accumulation of a set of endogenous microRNAs (miRNAs). Within these miRNAs, miR156, miR167 and miR171 were the most down-regulated, with almost a three-fold reduction in infected samples.

Citrus psorosis and Mirafiori lettuce big-vein ophiovirus coat proteins localize to the cytoplasm and self interact in vivo.

Citrus psorosis (CPsV) and Mirafiori lettuce big-vein virus (MiLBVV) belong to the family Ophioviridae, plant viruses with filamentous nucleocapsids and segmented genomes of negative polarity, causing the worldwide distributed citrus psorosis and lettuce big-vein diseases, respectively. To gain insight into the replication cycle of these viruses, the subcellular localization of the viral coat proteins (CP) was studied. Immunoblot analysis of fractionated extracts derived from natural and experimental infected hosts indicated that the CP of CPsV occurs in the soluble cytoplasmic fraction.

Resistance to Citrus psorosis virus in transgenic sweet orange plants is triggered by coat protein-RNA silencing.

The lack of naturally occurring resistance to Citrus psorosis virus (CPsV) has demanded exploitation of a transgenic approach for the development of CPsV-resistant sweet orange plants. Transgenic sweet orange plants producing intron-hairpin RNA transcripts (ihpRNA) corresponding to viral cp, 54K or 24K genes were generated and analyzed at the molecular and phenotypic levels. Two independent CPsV challenge assays demonstrated that expression of ihpRNA derived from the cp gene (ihpCP) provided a high level of virus resistance, while those derived from 54K and 24K genes (ihp54K and ihp24K) provided partial or no resistance.

Differential resistance to Citrus psorosis virus in transgenic Nicotiana benthamiana plants expressing hairpin RNA derived from the coat protein and 54K protein genes.

Citrus psorosis virus (CPsV), genus Ophiovirus, family Ophioviridae, is the causal agent of a serious disease affecting citrus trees in many countries. The viral genome consists of three ssRNAs of negative polarity. Post-transcriptional gene silencing (PTGS), a mechanism of plant defence against viruses, can be induced by transgenic expression of virus-derived sequences encoding hairpin RNAs.

Genetic transformation of sweet orange with the coat protein gene of Citrus psorosis virus and evaluation of resistance against the virus.

Citrus psorosis is a serious viral disease affecting citrus trees in many countries. Its causal agent is Citrus psorosis virus (CPsV), the type member of genus Ophiovirus. CPsV infects most important citrus varieties, including oranges, mandarins and grapefruits, as well as hybrids and citrus relatives used as rootstocks.

Detection of Citrus psorosis virus in the northwestern citrus production area of Argentina by using an improved TAS-ELISA.

Citrus Psorosis in Argentina is a serious disease. Citrus is produced in two regions located in the northeast (NE) and northwest (NW) area of the country. These two areas have different climates and soil types, and therefore different citrus species and varieties are cultivated.