Molecular and Biological Characterization of Three Citrus Tristeza Virus Candidate Cross-protection Sources
Molecular and Biological Characterization of Three Citrus Tristeza Virus Candidate Cross-protection Sources

Author: Jacoba Wilhelmina Lubbe

Publisher:

Published: 2015

Total Pages: 444

ISBN-13:

DOWNLOAD EBOOK

Citrus tristeza virus (CTV) is a RNA plant virus that infects the phloem cells of members of the family Rutaceae. CTV has a very important impact on the citrus industry worldwide and in South Africa especially so on grapefruit. CTV isolates can cause differing levels of severity of Tristeza disease, which can lead to quick decline as well as stem pitting and seedling yellows. Mild strain cross-protection is commonly used in South Africa to control the negative effects of the virus. This control mechanism is based on the super-infection exclusion principle where the presence of one specific genotype of CTV prevents the secondary infection of strains of the same genotype. This necessitates the characterization of CTV sources occurring within given citrus producing areas to know which genotypes to protect against, as well as the thorough characterization of potential cross-protection sources to ensure the specific genotypes that need to be protected against are present and to ensure that there are no strains within the source that would cause severe symptoms. The aim of this study was to characterize several sources of CTV which could potentially be used for cross-protection and at the same time to use and evaluate several methods for this. By doing next generation sequencing on an overlapping amplicon template of the 3’ half of the genome it was found that the three Grape Fruit Mild Strain 12 sub isolates, GFMS 12-7, 12-8 and 12-9 mostly exists of a T68 genotype previously identified as CT-ZA3. Using immuno-captured virus particles as template, followed by the production of cDNA through the use of degenerate primers and random amplification of the DNA as well as a p33 gene amplicon for next generation sequencing, it was found that the New Venture 41/2 candidate mild source is a mixed source containing at least the VT, RB, B165 and HA16-5 genotypes. The B390/3 candidate mild source was characterized through biological indexing and was found to only produce mild symptoms on the hosts used in the trial. The virus population was also characterized through Sanger and Illumina sequencing of the p33 gene as well as using genotype specific RT-PCRs. The source is dominated by a Taiwan-Pum/SP/T1–like isolate which belongs to the RB genotype. Additionally a comprehensive phylogenetic analysis was performed on 45 published complete genomes of CTV where it was shown that 9 genotypes exist, namely VT, T36, RB, T30, B165, T68, HA16-5, T3 and A18. The best method for genotyping, as found to produce the phylograms most similar to the complete genome phylograms, was found to be by doing a Bayesian analysis on a concatenated dataset of three segments of the genome, namely ORF 1b, ORF 2 and ORF 5.

Characterization and Management of Citrus Tristeza Virus in Hawai'i
Characterization and Management of Citrus Tristeza Virus in Hawai'i

Author: Michael J. Melzer

Publisher:

Published: 2009

Total Pages: 408

ISBN-13: 9781109405774

DOWNLOAD EBOOK

Diseases associated with Citrus tristeza virus (CTV) are a major bottleneck for Hawai'i's citrus growers. To increase citrus production, the incidence, distribution, and genetic diversity of Hawaiian CTV must first be characterized. From this data, control strategies can then be employed to manage this virus. In this study, a comprehensive survey of CTV was conducted and it was found that approximately three-quarters of Hawai'i's citrus trees were infected by CTV, and that no locations where citrus is currently grown are free of the virus. Genotyping using molecular markers and sequencing of coat protein and p23 genes of CTV revealed that the genetic diversity of Hawai'i's CTV population is also very high. Many trees appeared to be infected with multiple and/or recombinant virus strains, as well as previously unreported strains. To further characterize potentially novel strains of the virus, a dsRNA cloning strategy based on random (r)PCR and degenerate oligonucleotide primer (DOP)-PCR was developed that required sub-nanogram amounts of dsRNA template to construct cDNA libraries. Two new strains of CTV were completely sequenced using this strategy, one of which appeared to have arisen through modular recombination between two distantly-related strains of the virus. Given the robustness of Hawaii's CTV population, the development of CTV-resistant citrus via transgene silencing appears to be the most effective management option. Transgenes designed to counter this genetic diversity, as well as the three suppressors of gene silencing encoded in the CTV genome, were introduced into the Mexican lime (Citrus aurantifolia (Christm.) Swingle] genome. These transgenic plants are currently under evaluation for their ability to resist CTV infection.

Citrus Tristeza Virus
Citrus Tristeza Virus

Author: Caroline Mary Herron

Publisher:

Published: 2003

Total Pages: 0

ISBN-13:

DOWNLOAD EBOOK

Citrus tristeza virus (CTV), an economically important graft-transmissible pathogen of citrus, causes major global declines in citrus production. In the commercial citrus of the Lower Rio Grande Valley of Texas (LRGV), where red grapefruit on tristeza-decline sensitive sour orange rootstocks predominate, incidence of CTV is low. The efficient CTV vector, the brown citrus aphid (BrCA, Toxoptera citricida Kirkaldy) is now established in Mexico and Florida, thus information is needed on the severity of CTV, CTV aphid transmission and the performance of transformed citrus towards CTV before T. citricida arrives in Texas so that appropriate management strategies can be selected. Biological indexing and molecular typing were performed on fifteen Texas CTV isolates. The majority of the CTV isolates tested contained the most severe CTV types known. In Florida, T. citricida were fed on crude CTV preparations in vitro and could transmit CTV to virus-free receptor plants with two CTV isolates, whereas a more highly purified CTV preparation from one CTV isolate was not transmitted by T. citricida. There were no differences in the majority of treatments in infectivity neutralizations using three CTV-derived antibodies (p25, p27 and p20). CTV p20 antibodies significantly enhanced the occurrence of CTV transmission in one test. The CTV genome of isolate H33 was sequenced using 'shot gun' methods. The H33 major component and H33 minor components were phylogenetically compared to the six other full-length CTV sequences. An untranslatable CTV coat protein gene was genetically transformed into the genome of the Texas commercial Rio Red grapefruit variety, and fifty-two independent transgenic lines were produced. CTV challenge responses by the transgenic lines were variable. Individual plants could be identified which had low virus titers by ELISA detection, a temporal decrease in virus titer, or a delay in virus titer accumulation. Comparing all wild types to all transgenic lines over every assessment revealed significant decreases in virus titer in the transgenic lines compared to that of the wild type. An RNA entity with similarities to marafiviruses was identified in a CTV infected plant. The entity appears non-graft transmissible to citrus, and non-mechanically transmissible to a range of herbaceous species.

The Genus Citrus
The Genus Citrus

Author: Manuel Talon

Publisher: Woodhead Publishing

Published: 2020-01-21

Total Pages: 540

ISBN-13: 012812217X

DOWNLOAD EBOOK

The Genus Citrus presents the enormous amount of new knowledge that has been generated in recent years on nearly all topics related to citrus. Beginning with an overview of the fundamental principles and understanding of citrus biology and behavior, the book provides a comprehensive view from Citrus evolution to current market importance. Reporting on new insights supported by the elucidation of the citrus genome sequence, it presents groundbreaking theories and fills in previous knowledge gaps. Because citrus is among the most difficult plants to improve through traditional breeding, citrus researchers, institutions and industries must quickly learn to adapt to new developments, knowledge and technologies to address the biological constraints of a unique fruit-tree such as citrus. Despite the challenges of working with citrus, tremendous progress has been made, mostly through advances in molecular biology and genomics. This book is valuable for all those involved with researching and advancing, producing, processing, and delivering citrus products. Includes the most current research on citrus genomic information Provides the first detailed description of citrus origin, a new proposal for citrus taxonomy, and a redefinition of the genus Citrus Details citrus challenges including climate change, global disease impacts, and plant improvement strategies

Viroids and Satellites
Viroids and Satellites

Author: Ahmed Hadidi

Publisher: Academic Press

Published: 2017-07-18

Total Pages: 754

ISBN-13: 0128017023

DOWNLOAD EBOOK

Viroids and Satellites describes plant diseases and their causal agents while also addressing the economic impact of these diseases. The book discusses various strategies for state-of-the-art methods for the detection and control of pathogens in their infected hosts and provides pivotal information from the discovery of viroids through the analysis of their molecular and biological properties, to viroid pathogenesis, host interactions, and RNA silencing pathways. Students, researchers and regulators will find this to be a comprehensive resource on the topics presented. Provides coverage of the basic biological properties of disease, along with applied knowledge Features economic impacts, transmission, geographical distribution, epidemiology, detection, and control within each chapter Organizes viroid diseases by viroid taxonomy and viroid species