Characterisation of the genetic diversity of citrus viroid VII using amplicon sequencing.

Viroids occur in plants as swarms of sequence variants clustered around a dominant variant, leading to adoption of the term 'quasispecies' to describe the viroid population in an individual host. The composition of the quasispecies can potentially change according to the age of the infection, the position of the leaf or branch in the canopy, and the host species. The primary aim of this study was to investigate the quasispecies concept for citrus viroid VII (CVd-VII), a recently discovered member of the family Pospiviroidae.

Genetic Analysis of the Emerging Citrus Yellow Vein Clearing Virus Reveals a Divergent Virus Population in American Isolates.

is a previously reported citrus virus from Asia with widespread distribution in China. In 2022, the California Department of Food and Agriculture conducted a multipest citrus survey targeting multiple citrus pathogens including citrus yellow vein clearing virus (CYVCV). In March 2022, a lemon tree with symptoms of vein clearing, chlorosis, and mottling in a private garden in the city of Tulare, California, tested positive for CYVCV, which triggered an intensive survey in the surrounding areas.

Unraveling the occasional occurrence of berry astringency in table grape cv. Scarlet Royal: a physiological and transcriptomic analysis.

Scarlet Royal, a mid-season ripening table grape, is one of the popular red grape varieties in California. However, its berries develop an undesirable astringent taste under certain conditions. Among the various factors contributing to the degradation of berry attributes, the levels and compositions of polyphenols play a fundamental role in defining berry quality and sensory characteristics.

Automating Citrus Budwood Processing for Downstream Pathogen Detection Through Instrument Engineering.

Graft-transmissible, phloem-limited pathogens of citrus such as viruses, viroids, and bacteria are responsible for devastating epidemics and serious economic losses worldwide. For example, the citrus tristeza virus killed over 100 million citrus trees globally, while "Candidatus Liberibacter asiaticus" has cost Florida $9 billion. The use of pathogen-tested citrus budwood for tree propagation is key for the management of such pathogens.

Transcriptome Analysis of Citrus Dwarfing Viroid Induced Dwarfing Phenotype of Sweet Orange on Trifoliate Orange Rootstock.

Dwarfed citrus trees for high-density plantings or mechanized production systems will be key for future sustainable citrus production. Citrus trees consist of two different species of scion and rootstock. Therefore, any observed phenotype results from gene expression in both species.

An In Silico Detection of a Citrus Viroid from Raw High-Throughput Sequencing Data.

E-probe Diagnostic for Nucleic Acid Analysis (EDNA) is a user-friendly bioinformatic tool that has been adapted for the detection and identification of citrus exocortis viroid (CEVd). Here, we describe the procedures for RNA extraction from citrus tissues, library and sequencing preparation, and the utilization of EDNA Mi-Finder online platform on raw high-throughput sequencing (HTS) data.

QuantiGene Plex Assay: A Method for High-Throughput Multiplex Citrus Viroid Detection and Identification.

The QuantiGene Plex assay is a molecular non-polymerase chain reaction (PCR)-based multiplex method adapted for citrus viroid detection and identification. Here, we describe the procedures to utilize the QuantiGene Plex assay as a high-throughput screening tool for viroids in purified or crude RNA extracts from citrus tissues.

SYBR Green RT-qPCR for the Universal Detection of Citrus Viroids.

Quantitative polymerase chain reaction (qPCR) and reverse transcription (RT)-qPCR have now become the gold standard for molecular diagnostics because of its sensitivity, specificity, and reproducibility. In addition, qPCR diagnostics are flexible because they can be scaled for high- or low-throughput applications. Here we describe an optimized assay and workflow for the universal detection of eight citrus viroid species and their variants by RT-qPCR.

Real-Time Detection of Viroids Using Singleplex and Multiplex Quantitative Polymerase Chain Reaction.

Multiplex quantitative polymerase chain reaction (multiplex qPCR) enables the amplification of more than one target in a single reaction using different reporter dyes with distinct fluorescent spectra. The number of reporter fluorophores is typically restricted to three or four, depending upon the capability of the real-time PCR platform and software used. Each target is amplified by a different set of primers and a uniquely labeled probe that distinguishes each PCR amplicon.

Detection of Viroids Using RT-qPCR.

Viroids are the smallest known infectious pathogens. They are nonprotein-encoding, single-stranded, circular, naked RNA molecules that can cause several diseases in economically important crops. With the advent of thermal cyclers incorporating fluorescent detection, reverse transcription coupled to the quantitative polymerase chain reaction (RT-qPCR) has transformed the way the viroids are detected.

High-Throughput RNA Extraction from Citrus Tissues for the Detection of Viroids.

High-throughput nucleic acid extraction is critical for the implementation of modern viroid detection assays. Successful large-scale nursery, field surveys, and other regulatory, quarantine, or research diagnostic programs are increasingly dependent on high-throughput tissue pulverization and nucleic acid extraction protocols. Magnetic bead-based approaches using semi-automated robotic equipment allow high-throughput extraction and purification of high-quality uniform total nucleic acids for each individual sample.

Isolation and Transfection of Citrus Protoplasts with Citrus Exocortis Viroid.

Viroids are RNA-based infectious agents that are single-stranded, covalently closed circular, non-coding, and naked. Unlike RNA viruses, which at least encode proteins for replication, encapsidation, and movement, lack of protein-coding capacity of viroids makes them completely reliant on host for replication and movement. The high genetic diversity in viroids is believed to be due to the absence of proof-reading activity of the host RNA polymerases, the large population size, and the rapid rate of replication.

Study and Detection of Citrus Viroids in Woody Hosts.

Biological indexing is based upon the ability of certain plants, referred to as indicator plants or indicators, to produce specific symptoms when inoculated with a pathogen using mechanical means or grafting. In the case of citrus viroids, clonal indicators are grafted on to vigorous rootstocks such as rough lemon (Citrus × granulata Raf.).

Development of a one-step RT-qPCR detection assay for the newly described citrus viroid VII.

An apscaviroid, tentatively named citrus viroid VII (CVd-VII), was recently discovered in citrus in Australia. A diagnostic assay using real-time reverse transcription polymerase chain reaction was developed and validated to detect the viroid in citrus plants. The assay showed a high level of sensitivity, reliably detecting 2000 plasmid copies per reaction, while down to 20 plasmid copies per reaction were occasionally detected.

Complete Nucleotide Sequence, Genome Organization, and Comparative Genomic Analyses of Citrus Yellow-Vein Associated Virus (CYVaV).

Citrus yellow-vein disease (CYVD) was first reported in California in 1957. We now report that CYVD is associated with a virus-like agent, provisionally named citrus yellow-vein associated virus (CYVaV). The CYVaV RNA genome has 2,692 nucleotides and codes for two discernable open reading frames (ORFs).

Next-Generation Sequencing Identification and Characterization of MicroRNAs in Dwarfed Citrus Trees Infected With Citrus Dwarfing Viroid in High-Density Plantings.

Citrus dwarfing viroid (CDVd) induces stunting on sweet orange trees [ (L.) Osbeck], propagated on trifoliate orange rootstock [ (L.), syn.

ICTV Virus Taxonomy Profile: .

Members of the family have single-stranded circular RNA genomes that adopt a rod-like or a quasi-rod-like conformation. These genomes contain a central conserved region that is involved in replication in the nucleus through an asymmetric RNA-RNA rolling-circle mechanism. Members of the family lack the hammerhead ribozymes that are typical of viroids classified in the family .

Linking metabolic phenotypes to pathogenic traits among "Candidatus Liberibacter asiaticus" and its hosts.

Candidatus Liberibacter asiaticus (CLas) has been associated with Huanglongbing, a lethal vector-borne disease affecting citrus crops worldwide. While comparative genomics has provided preliminary insights into the metabolic capabilities of this uncultured microorganism, a comprehensive functional characterization is currently lacking. Here, we reconstructed and manually curated genome-scale metabolic models for the six CLas strains A4, FL17, gxpsy, Ishi-1, psy62, and YCPsy, in addition to a model of the closest related culturable microorganism, L.

Genome-wide analyses of Liberibacter species provides insights into evolution, phylogenetic relationships, and virulence factors.

'Candidatus Liberibacter' species are insect-transmitted, phloem-limited α-Proteobacteria in the order of Rhizobiales. The citrus industry is facing significant challenges due to huanglongbing, associated with infection from 'Candidatus Liberibacter asiaticus' (Las). In order to gain greater insight into 'Ca.

An Pipeline for Screening and Selection of Citrus-Associated Microbiota with Potential Anti-" Liberibacter asiaticus" Properties.

Huanglongbing (HLB) is a destructive citrus disease that is lethal to all commercial citrus plants, making it the most serious citrus disease and one of the most serious plant diseases. Because of the severity of HLB and the paucity of effective control measures, we structured this study to encompass the entirety of the citrus microbiome and the chemistries associated with that microbial community. We describe the spatial niche diversity of bacteria and fungi associated with citrus roots, stems, and leaves using traditional microbial culturing integrated with culture-independent methods.

Full genome characterization of 12 citrus tatter leaf virus isolates for the development of a detection assay.

Citrus tatter leaf virus (CTLV) threatens citrus production worldwide because it induces bud-union crease on the commercially important Citrange (Poncirus trifoliata × Citrus sinensis) rootstocks. However, little is known about its genomic diversity and how such diversity may influence virus detection. In this study, full-length genome sequences of 12 CTLV isolates from different geographical areas, intercepted and maintained for the past 60 years at the Citrus Clonal Protection Program (CCPP), University of California, Riverside, were characterized using next generation sequencing.