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Determination of the virus diversity associated with Grapevine leafroll diseaseMolenaar, Nicholas 04 1900 (has links)
Thesis (MSc)--Stellenbosch University, 2015. / ENGLISH ABSTRACT: Vitis vinifera is the woody crop most susceptible to intracellular pathogens. Currently 70 pathogens
infect grapevine, of which 63 are of viral origin. Grapevine leafroll-associated virus 3 (GLRaV-3)
is the type species of the genus Ampelovirus, family Closteroviridae. It is considered to be the
primary causative agent of Grapevine leafroll disease (GLD) globally; however, the etiology of
GLD is not completely understood. Here we report on the viral populations present in GLD
symptomatic grapevines across the Western Cape province, South Africa. A widespread survey was
performed to screen 315 grapevines for 11 grapevine-infecting viruses using RT-PCR. Additionally,
GLRaV-3 variant groups were distinguished with high-resolution melt (HRM) curve analysis used
in conjunction with real-time RT-PCR. Members of the family Closteroviridae were detected with
the highest frequency, particularly GLRaV-3 that was detected in 87% of tested plants. Nextgeneration
sequencing (NGS) is capable of detecting known and novel viruses without prior
knowledge of viral sequences and when used in a metagenomic approach is able to detected viral
populations within diseased vines. A total of 17 grapevine samples were subjected to NGS using
either an Illumina MiSeq or HiSeq 2500 instrument to determine the virome within GLD vines.
Collectively, more than 190 million reads were generated through NGS. Read datasets were
trimmed and filtered for quality and subjected to both read-mapping and de novo assembly. Contigs
assembled de novo were analyzed with BLAST (Basic Local Alignment Search Tool) against the
NCBI (National Centre for Biotechnology Information) database and it was determined that
GLRaV-3 was the best-represented virus, comprising 97.5% of the assembled contigs. Grapevine
virus F (GVF) was detected for the first time in South African vineyards through de novo
assemblies and the complete genome sequence validated through direct Sanger sequencing. The
complete genome of GVF isolate V5 spans 7 539 nucleotides and shares 89.11% nucleotide identity
to existing GVF genomes. The data generated through this study will assist in further understanding
the etiology of GLD, support the current hypothesis of GLRaV-3 as the primary contributor to GLD,
aid in understanding virus associations in diseased vines and potentially develop systems in which
to control disease spread and symptom severity. / AFRIKAANSE OPSOMMING: Vitis vinifera is die houtagtige oes wat die mees vatbaarste is vir intrasellulêre patogene. Tans word
wingerde deur 70 patogene geïnfekteer, waarvan 63 van virale oorsprong is. Grapevine leafrollassociated
virus 3 (GLRaV-3) is die tipe spesie van die genus Ampelovirus, familie Closteroviridae.
Dit word globaal beskou as die primêre oorsaak van Wingerd krulblaar-siekte (GLD), alhoewel die
etiologie van GLD nie heeltemal begryp word nie. In hierdie verslag word die virale populasies
teenwoordig in GLD simptomatiese wingerde oor die Wes-Kaap provinsie in Suid-Afrika
gerapporteer. ‘n Wydverspreide opname was uitgevoer om 315 wingerde met 11 wingerdinfekterende
virusse te ondersoek, deur gebruik te maak van tru-transkripsie polimerase ketting
reaksie (PKR). Verder is variantgroepe van GLRaV-3 onderskei met hoë-resolusie smeltingskurweanalise,
tesame met die gebruik van in-tyd tru-transkripsie PKR. Die hoogste frekwensie was van
die lede van die familie Closteroviridae, veral GLRaV-3 wat in 87% van die ondersoekte plante
gevind is. Nuwe-generasie volgorderbepaling (NGS) beskik oor die vermoë om bekende en nuwe
virusse te herken in virale populasies in geaffekteerde wingerde sonder vorige kennis van virale
volgorderbepalings en wanneer dit in ‘n metagenomiese benadering gebruik word kan die virale
bevolkings binne siek wingerde ontdek. ‘n Totaal van 17 wingerd-steekproewe was blootgestel aan
NGS deur die gebruik van of ‘n Illumina MiSeq of ‘n HiSeq 2500 instrument om die virome te
bepaal van GLD wingerde. In totaal is meer 190 miljoen lesings gegenereer deur NGS. Hierdie data
lesings was verwerk en gefilter vir kwaliteit om onderwerp te word vir beide kartering en de novo
samestellings. Contigs verkry deur de novo samestellings was geanaliseer met BLAST (Basic
Local Alignment Search Tool) teenoor die NCBI (National Centre for Biotechnology Information)
databasis en dit was vasgestel dat GLRaV-3 was die mees-verteenwoordigende virus, bestaande uit
97.5% van die saamgestelde contigs. Grapevine virus F (GVF) was vir die eerste keer in Suid-
Afrikaanse wingerde waargeneem deur de novo samestellings en die volledige genoom volgordger
is geverifieer deur middel van direkte Sanger volgorderbepaling. Die volledige genoom van GVF
isoleer V5 spanwydte van 7539 nukleotiedes en deel 89.11% nukleotied identiteite van bestaande
GVF genome. Die gegenereerde data van hierdie studie sal bykomende begrip van die etiologie
van GLD bystaan, die huidige hipotese van GLRaV-3 as die primêre bydraer tot GLD ondersteun,
verhoogde begrip van virus-assosiasies in wingerdsiektes verseker en potensiële sisteme ontwikkel
om siektes en simptome te beheer.
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Anomalous PCR results to Grapevine leafroll associated closterovirus type 3 in South AfricaKotze, Aletta Christina 27 June 2008 (has links)
Grapevine leafroll-associated virus type 3 (GLRaV-3) is the major causative agent of grapevine leafroll disease. The disease has a major negative impact on grape production for wineries, and can cause up to 62.8% loss in production. Despite the negative impact of GLRaV-3 on the grapevine industry worldwide, knowledge on the variability of the virus, which is essential for developing effective control measure of the virus in vineyards, is surprisingly scarce. To test this, six primers sets used in a one tube, one step polymerase chain reaction (PCR) protocol, together with ELISA were used to detect GLRaV-3 virus in 135 plant samples collected from a single vineyard. As expected the more sensitive PCR detected more infected samples than ELISA. However, some samples yielded positive results with the ELISA, but negative results using PCR. This might suggest that strain variants exist. Amongst PCR results of the different primer sets, anomalous results occurred, as often a plant will yield an amplicon with one primer set, but not with another primer set. Using the entire set of 7 PCR results per sample, each plant was assigned a PCR ‘fingerprint’. This yielded 24 different fingerprints in the vineyard. Mapping the spatial distribution of given fingerprints supported the possibility that strain variants exist. However, sequencing areas incorporating the primer binding sites showed no nucleotide sequence differences, indicating that the anomalous PCR results were not due to variants, but rather to protocol error. The PCR protocol used initially was adapted to obtain more optimal detection of virus. Different extraction methods and PCR protocols were tested. It was found that using the two step RT-PCR and using a less dilute plant macerate in ELISA extraction buffer (1:5), yielded amplicon of the expected size from all known infected plant samples. The protocol was further optimized with regards the RT step and subsequent PCR. Since the modified protocol did detect all known infected plant samples it can be concluded that in the 135 plant samples tested no significant sequence variation in strains at the primer binding sites occurred and that the anomalous PCR results initially obtained were due to a sub-optimal extraction method. / Dissertation (MSc (Microbiology))--University of Pretoria, 2008. / Microbiology and Plant Pathology / unrestricted
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Rapid Detection of Grapevine Leafroll-associated virus Type 3 using the reverse transcription loop-mediated amplification methodWalsh, Helen Ann January 2013 (has links)
Grapevine Leafroll disease (GLD), one of the most destructive diseases of
grapevines, has been found in every country where grapevines are grown.
Grapevine Leafroll associated virus type 3 (GLRaV-3), one of several viruses
associated with GLD globally, is the most prevalent virus in South African grapevines
and therefore control of GLRaV-3 takes high priority in any strategy aimed at control
of GLD. GLD can be controlled through the use of an integrated strategy which
includes using certified plant material, controlling insect vectors through use of
systemic insecticides and the removal of infected vines by roguing. Infected
individuals are identified each autumn, using either symptom display (in red cultivars,
where infected individuals display interveinal reddening and downward rolling of
leaves) or ELISA (in symptomless white cultivars). ELISA is laborious, time
consuming and relatively insensitivity compared to molecular techniques and a
simpler, more rapid and more sensitive means of indentifying GLRaV-3 infected
vines is required.
A simple RNA extraction procedure combined with a single-tube reverse
transcriptase loop-mediated amplification (RT-LAMP) has been developed which
allows for the rapid, simple detection of GLRaV-3. Using RT-LAMP, a viral target can
be amplified in 2 hours under isothermal conditions. This GLRaV-3 specific RTLAMP
uses hydroxy napthol blue (HNB), a colourimetric indicator that changes from
violet to sky blue only where a positive RT-LAMP reaction has occurred, making
results quick and easy to interpret. The sensitivity of this technique was compared to
ELISA and nested PCR by pooling samples at varying ratios of healthy to infected
plants. Using nested PCR and RT-LAMP 1 infected sample could be detected
amongst 50 healthy individuals while ELISA could only detect 1 amongst 30 infected
making RT-LAMP more sensitive than ELISA. Further RT-LAMP could be performed
in 2 hours compared to nested PCR and ELISA’s 8 and 48 hours respectively. Based
on these results, RT-LAMP is viable alternative for ELISA for the detection of
GLRaV-3 in the field.
RT-LAMP was also tested for its ability to detect GLRaV-3 in grapevine rootstocks
where, due to low viral titres and erratic distribution, it is notoriously difficult to detect. The rootstocks which were used for testing of GLRaV-3 had been tested in a
previous study and it was found that only 28% of samples tested positive after 33
months (post inoculation). Using RT-LAMP, 78% of samples tested positive for
GLRaV-3. Although further testing must be done, RT-LAMP may also be a viable
alternative for testing grapevine rootstocks for GLRaV-3 infection. / Dissertation (MSc)--University of Pretoria, 2013. / gm2014 / Microbiology and Plant Pathology / unrestricted
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Grapevine Viruses and Associated Vectors in Virginia: Survey, Vector Management, and Development of Efficient Grapevine Virus Testing MethodsJones, Taylor J. 07 July 2016 (has links)
In order to aid the booming wine industry in the state of Virginia, U.S.A., we developed a series of studies to provide a deeper understanding of the viruses and vectors for management of virus diseases and development of better tools for grapevine virus diagnostics. A statewide survey for 14 different grapevine viruses between 2009 and 2014 was conducted: 721 samples were collected from 116 vineyards in the period. Among the 12 viruses identified, Grapevine leafroll associated virus-3 (GLRaV-3), Grapevine rupestris stem-pitting associated virus (GRSPaV), and Grapevine red blotch-associated virus (GRBaV) were most commonly present. A new real-time PCR method for the detection of the V2 gene of GRBaV was developed. The resulting method takes less time for more accurate diagnostics than conventional PCR. Evaluation of insecticide effectiveness on GLRaV-3 vectors (mealybugs) and the spread of GLRaV-3 were examined: Four trials conducted from 2012 to 2014 revealed that despite successful control of mealybugs, GLRaV-3 is spread at a very rapid rate. A new sampling technique for efficient nucleic acid storage and testing was developed: the nitrocellulose membrane-based method allows simpler extraction of nucleic acid and provides a storage medium that can hold viable RNA/DNA at room temperature for up to 18 months. An investigation of multiple virus-infected vines and the impact of these co-infections on grapevine fruit chemistry was conducted. GLRaV-3, GRBaV, GRSPaV, and co-infections of the 3 all negatively impacted Brix, pH, titratable acidity, and anthocyanin levels. / Ph. D.
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Documentation of grapevine leafroll-associated viruses in wine grape varieties and native grape species in Virginia, and examination of the movement of grapevine leafroll disease to develop management strategiesJones, Taylor J. 21 December 2012 (has links)
Grapevine leafroll-associated virus-2 (GLRaV-2), GLRaV-3, and grapevine fleck virus (GFkV) are widespread in grapes around the world. These viruses can cause significant crop loss and affect wine quality by reducing sugar accumulation and compromising skin color. Mealybugs are vectors of grapevine leafroll-associated viruses (GLRaVs). A statewide survey of commercial and wild grapevines in Virginia was conducted during 2009 through 2011. Also, vector management options were tested in two field studies. GLRaV-2, GLRaV-3, and GFkV were detected in 8%, 25%, and 1%, respectively, of over 1,200 vine samples (41 wine grape varieties) from 77 locations, and 64% of vineyards were positive for at least one of the tested viruses. All 100 wild grapevines tested were free of these three viruses, indicating that they are not alternative hosts. The majority of infected vines from commercial vineyards were planted prior to the 1990\'s; however, some new plantings were also found to be positive, indicating movement of the viruses among vineyards and also potential infection prior to planting. The high frequency of virus-infected vines emphasizes the importance of clean plant materials, as well as management of vector insects. The insecticide trials resulted in promising vector control with dinotefuran and spirotetramat; however, acetamiprid and pryrethroid resulted in an increase in mealybug population. This study is the first to examine multiple grape viruses in VA. It will aid in developing better strategies aimed at controlling mealybugs to restrict the movement of viral diseases. / Master of Science in Life Sciences
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