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The development of a diagnostic assay for nepoviruses in grapevineFrazenburg, Lolita 12 1900 (has links)
Thesis (MSc)--Stellenbosch University, 2015. / ENGLISH ABSTRACT: The nepoviruses are a group of nematode-transmitted plant viruses that are
distributed worldwide and infect a wide range of plant species, including grapevine.
Most of the nepoviruses are foreign to South Africa and to date, only Grapevine
fanleaf virus (GFLV) is present. The Department of Agriculture, Forestry and
Fisheries (DAFF), as the official National Plant Protection Organisation (NPPO) of
South Africa, is committed to prevent the importation and spread of plant pathogens
by administering the Agricultural Pests Act, 1983 (Act No. 36 of 1983). Effective
measures are implemented by which the introduction of agricultural pests may be
prohibited to safeguard the agricultural environment. One of the core functions of
DAFF is to render a routine plant health diagnostic service for imported plants and
plant products to prevent exotic pathogens from entering the country. The objective
of this study was to develop a diagnostic assay for the detection of nepoviruses in
grapevine. The project aimed to produce antibodies by recombinant DNA technology
against bacterially expressed viral coat protein of a specific nepovirus [Tomato
ringspot virus (ToRSV)] and subsequently develop a DAS-ELISA (Double Antibody
Sandwich Enzyme-linked Immunosorbent) assay for the detection of the virus. The
coat protein (CP) was successfully isolated from imported ToRSV-infected grapevine
material. Two expression systems were utilised for expression of the ToRSV-CP, the
GST gene fusion system and an Agrobacterium-mediated expression system. The
GST gene fusion system was unsuccessful as insufficient soluble protein expression
prevented the production of antibodies and thus the development of the DAS-ELISA
assay. Tissue print immunoassay (TPIA) initially showed positive results for transient
expression of the fusion protein in tobacco plants, but further confirmation proved to
be inconclusive. The project also aimed to develop a real-time PCR assay for the
specific detection and relative quantification of GFLV, based on a conserved region
of the RNA-2 genome. A partial GFLV-RNA-2 from a South African isolate of
grapevine was sequenced and used for the design of specific primers. The
quantitative real-time PCR assay based on SYBR green technology proved to be
sensitive in detecting levels as low as 0.11ng/reaction in infected plants, making it a
highly effective diagnostic tool for the detection of GFLV. / AFRIKAANSE OPSOMMING: Die nepovirusse is 'n groep van nematode-oordraagbare plant virusse wat
wêreldwyd versprei word en 'n wye verskeidenheid van plantspesies infekteer,
insluitend wingerd. Die meeste van die nepovirusse is uitheems aan Suid-Afrika en
tot op datum is net Wingerd netelblaar virus (GFLV) teenwoordig. Die Departement
van Landbou, Bosbou en Visserye (DAFF), as die amptelike Nasionale Plant
Beskermings Organisasie (NPBO) van Suid-Afrika, is daartoe verbind om die invoer
en verspreiding van plantpatogene te voorkom deur administrasie van die Wet op
Landbouplae, 1983 (Wet No. 36 van 1983). Doeltreffende maatreëls word
geïmplementeer waardeur die invoer van landbouplae verbied word om sodoende
die landbou-omgewing te beskerm. Een van die kernfunksies van DAFF is om 'n
roetine plant gesondheid diagnostiese diens vir ingevoerde plante en plantprodukte
te lewer om te verhoed dat eksotiese patogene die land binnedring. Die doel van
hierdie studie was om 'n diagnostiese toets vir die opsporing van nepovirusse in
wingerd te ontwikkel. Die projek was daarop gemik om antiliggame te vervaardig
deur rekombinante DNA-tegnologie teen bakterieël-uitgedrukte virale mantelproteïen
van 'n spesifieke nepovirus [Tomato ringspot virus (ToRSV)] en vervolgens ‘n DASELISA
(Double Antibody Sandwich Enzyme-linked Immunosorbent) toets vir die
opsporing van die virus te ontwikkel. Die mantelproteïen (CP) is met sukses
geïsoleer vanaf ingevoerde ToRSV-besmette wingerdmateriaal. Twee uitdrukking
stelsels is gebruik vir uitdrukking van die ToRSV-CP, die “GST gene fusion” stelsel
en 'n Agrobacterium-bemiddelde uitdrukking stelsel. Die “GST gene fusion” stelsel
was egter onsuksesvol aangesien onvoldoende oplosbare proteïen uitdrukking die
produksie van antiliggame en dus die ontwikkeling van die DAS-ELISA toets verhoed
het. “Tissue print immunoassay” (TPIA) het aanvanklik positiewe resultate getoon vir
tydelike uitdrukking van die fusie proteïen in tabakplante, maar verdere bevestiging
was onoortuigend. Die projek was ook daarop gemik om ‘n in-tyd polimerase ketting
reaksie (PKR) toets vir die spesifieke opsporing en relatiewe kwantifisering van
GFLV, gebaseer op 'n gekonserveerde volgorde van die RNA-2 genoom, te
ontwikkel. 'n Gedeeltelike GFLV-RNA-2 nukleïensuurvolgorde van 'n Suid-Afrikaanse
wingerd isolaat is bepaal en gebruik vir die ontwerp van spesifieke inleiers. Die
kwantitatiewe in-tyd PKR toets gebaseer op SYBR groen tegnologie was sensitief
genoeg om vlakke van so laag as 0.11ng/reaksie in geïnfekteerde plante op te
spoor, wat dit 'n hoogs effektiewe diagnostiese hulpmiddel vir die opsporing van
GFLV maak.
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The detection of cherry leaf-roll nepovirus and the use of molecular markers for germplasm identification in walnuts (Juglans regia L.)Mkhize, Thokozani M 12 1900 (has links)
Thesis (MSc)--Stellenbosch University, 2003. / ENGLISH ABSTRACT: The aim of this study was to combine two common diagnostic tools:
serological kits and genetic fingerprinting to identify cherry leaf-roll nepovirus
(CLRV), and to establish a marker system to characterize walnut germplasm.
The detection of plant viruses is difficult. Restrictions are imposed for
quarantine purposes on the importation of plant material from foreign
countries. Modern techniques such as a PCR based screening method for
CLRV are required to ensure material do not harbour viruses. A primer pair
was designed to amplify a 430 bp non-coding homologous region. For the
choice of primers, consensus sequences were considered and areas where
the sequence data shared 98.5% homology, were chosen. The sensitivity of
this detection method was 100-fold higher when compared to the ELISA. The
PCR fragment was verified by nucleotide sequencing.
AFLP technology was used to identify polymorphic fragments for 6 walnut
cultivars and a rootstock, and SCARs were developed from AFLP specific
bands. The AFLP technique distinguished all the walnut cultivars and the
rootstock. However, conversion of AFLP fragments to SCAR markers for the
development of a simple robust technique for cultivar discrimination, was not
successful. Using 27 AFLP primer combinations, polymorphic fragments as
high as 47.8% were scored. The reason for the lack of efficient conversion
was as the result of the AFLP technique. The SCAR primers were generated
from sequences internal to the AFLP primers but the specificity of the markers
was in the AFLP primers not the internal sequence.
In this study using AFLP, walnut cultivars were found to be closely related.
The AFLP primer pairs used, provided polymorphic fragments. From these
fragments, 7 SCAR markers were developed. It was expected that these
SCARs derived from the AFLP markers would detect slight differences
between cultivars. The Paradox SCAR marker was the only one that could
divide the cultivars into two groups. When Chandler SCAR products were
digested with the restriction enzyme Rsal, the same banding pattern as that of
Paradox SCAR products was observed. / AFRIKAANSE OPSOMMING: Die doel van hierdie studie was om twee algemene opsporingstegnieke te
kombineer: serologiese toetsstelle en genetiese vingerafdrukke om cherry
leaf-roll nepovirus (CLRV) te eien en om In merkersisteem te ontwikkel wat
okkerneut kiemplasma kan karakteriseer.
Die opsporing van plant virusse is baie moeilik. As gevolg van kwarantyn
vereistes, word daar beperkinge geplaas word op die invoer van plant
materiaal vanuit die buiteland. Moderne tegnieke soos hierdie een wat op
PKR berus, word benodig om te verseker dat CLRV nie in plantmateriaal
teenwoordig is nie. In Stel inleiers is ontwerp wat In 430 bp nie-koderende
homoloë area amplifiseer. Hiervoor is konsensus volgordes bestudeer en
slegs die volgordes wat 98,5% homologie getoon het, is gekies. In
vergelyking met ELISA was die sensitiwiteit van hierdie deteksie metode 100
maal beter. DNA volgordebepaling is op die resulterende fragment gedoen
om die PKR produk te verifieer.
AFLP tegnologie is gebruik om polimorfiese fraqmente vir 6 okkerneut
kultivars en 'n onderstok te identifiseer en SCARs is uit hierdie fragmente
ontwikkel. Die AFLP tegniek kon tussen al die okkerneut kultivars en die
onderstok onderskei. Die omskakeling van die AFLP fragmente in SCAR
merkers om sodoende In eenvoudige kragtige tegniek vir kultivar
onderskeiding te ontwikkel, was egter nie suksesvol nie. Met die gebruik van
27 AFLP inleier kombinasies, kon polimorfiese fragmente van so hoog as
47.8% verkry word. Die rede hoekom omskakeling onsuksesvol was lê by die aard van die AFLP tegniek. Die SCAR inleiers is ontwikkel uit volyordes
intern tot die AFLP inleiers, maar die spesifisiteit van die merkers het juis in
die AFLP inleiers gelê en nie in die interne volgordes nie.
In hierdie studie, met die gebruik van AFLP, is gevind dat okkerneut kultivars
baie naby verwant is. Die AFLP inleierstelle wat gebruik is, het polimorfiese
fragmente gelewer. Uit hierdie fragmente is 7 SCAR merkers ontwikkel. Daar
is verwag dat die SCARs wat uit die AFLP merkers ontwikkel is, klein verskille
tussen kultivars sou opspoor. Dit was egter net die Paradox SCAR merker
wat die kultivars in twee groepe kon verdeel. Restriksie ensiem vertering met
Rsalop die Chandler SCAR produkte het dieselfde bandpatrone as die van
die Paradox SCAR produkte gelewer.
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