Citrus Diseases Exotic to Florida: Citrus Tristeza Virus–Stem Pitting (CTV-SP)

This document is one in a series designed to provide important information on the causal agent, symptoms, and transmission of exotic citrus diseases. This information can be used as an educational tool to raise awareness about these diseases and for scouting and identification efforts. Disseminating information about the diseases to the citrus industry may prevent their introduction and spread in Florida. This document will focus on the exotic viral disease caused by isolates of citrus tristeza virus–stem pitting (CTV-SP). Original version: Chung, Kuang-Ren, and Ronald Brlansky. 2006. “Citrus Diseases Exotic to Florida: Citrus Tristeza Virus– Stem Pitting (CTV-SP)”. EDIS 2006 (7). https://doi.org/10.32473/edis-pp149-2006.

The serial and generation intervals from SARS-CoV-2 transmission dynamics and their potential application in the epidemiology of two citrus diseases

<p>Since the start of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) causing the coronavirus disease 2019 (COVID-19) pandemic, the concepts of serial and generation intervals have been used as key epidemiological measures to understand the transmission dynamics of the disease. We carefully examined and repurposed these concepts to the understanding of the transmission chain and dynamics of two major citrus diseases: tristeza virus (caused by Citrus tristeza virus, CTV) and Huanglongbing (caused by <em>Candidatus</em> Liberibacter asiaticus). Following the fundamental definition of the concepts, the review delineates the transmission chain in the SARS-CoV-2 and that of CTV and CLas, pointing out their major similarities and differences. Then, it discusses estimation of the serial and generation intervals and their distributions for both plant diseases. Identification of infector-infectee tree pairs in a transmission chain within orchards is proposed through use of disease incidence data from intensive mapping, spatial pattern analysis, conditional probability, and simulation approaches. Like in SARS-CoV-2 dynamics, pre-symptomatic transmission in these two plant pathosystems is of epidemiological significance. Hence, estimation of the serial and generation interval can lay the foundations to understanding of early disease transmission dynamics, thus the implementation of vector control measures or eradication of infected trees. We hope this review motivates discussions on estimation and usage of these concepts to enhance understanding of the epidemiology of both of the herein examined citrus diseases.</p>

La importancia de la aplicación de micorrizas para disminuir la abscisión de naranja (Citrus sinensis L. Osbeck) en Veracruz, México / The importance of the application of mycorrhizae to reduce abscission of orange in Veracruz, Mexico

México es el cuarto productor de cítricos a nivel mundial (FAOSTAT, 2019) y el estado de Veracruz aporta el 53 % de la producción nacional (SIAP, 2019). El problema de la abscisión de frutos de naranja cobró importancia en 2017, pero ya existía este problema desde hace 15 años, lo cual ocasiona pérdidas en la producción del 20% en la zona Norte de Veracruz (Gómez et al., 2020). El ataque de patógenos: Colletotrichum spp, Botryodiplodia spp, Fusarium spp, Citrus tristeza virus (VTC), Candidatus Liberibacter asiaticus (CLas), Citrus exocortis viroid (CEVd) y Hop stunt viroid (HSVd); pueden influir, entre otros factores, en la caída de naranja. El experimento se llevó a cabo en la huerta `Grupo Los Gómez’ en el ejido de San Pablo, Papantla, Veracruz, México; en naranja ‘Valencia’ portainjerto ‘Agrio’ y en suelo tipo aluvión. El objetivo central de la investigación fue evaluar 15 insumos agroecológicos para disminuir la abscisión de naranja, 7 de estos insumos con micorrizas y el resto sin su aplicación. Los tratamientos con mejores resultados fueron: Agua de vidrio (1.25 %) + Micorriza; Optifer amino (0.5 %) + Micorriza; y EM (5 %) + Micorriza con menor porcentaje de caída de naranja con 4.97%, 5.79%, 6.10% respectivamente.

The Intriguing Conundrum of a Nonconserved Multifunctional Protein of Citrus Tristeza Virus That Interacts with a Viral Long Non-Coding RNA

Citrus tristeza virus (CTV), the largest non-segmented plant RNA virus, has several peculiar features, among which is the production of a 5′-terminal long non-coding RNA (lncRNA) termed low-molecular-weight tristeza 1 (LMT1). In this study, we found that p33, a unique viral protein that performs multiple functions in the virus infection cycle, specifically binds LMT1, both in vivo and in vitro. These results were obtained through the expression of p33 under the context of the wild type virus infection or along with a mutant CTV variant that does not produce LMT1 as well as via ectopic co-expression of p33 with LMT1 in Nicotiana benthamiana leaves followed by RNA immunoprecipitation and rapid amplification of cDNA ends assays. Further experiments in which a recombinant p33 protein and an in vitro transcribed full-length LMT1 RNA or its truncated fragments were subjected to an electrophoretic mobility shift assay demonstrated that p33 binds to at least two distinct regions within LMT1. To the best of our knowledge, this is the first report of a plant virus protein binding to a lncRNA produced by the same virus. The biological significance of the interaction between these two viral factors is discussed.