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91	Simptomatologie en anatomie van gleufstam ('legno riccio') by die wingerdstok (Vitis) Kriel, G. J. le R. (Gabriel Jacobus le Roux) 12 1900 (has links) Thesis MSc(Agric)--Stellenbosch University, 1973. / ENGLISH ABSTRACT: no abstract available / AFRIKAANSE OPSOMMING: geen opsomming Virus diseases of plants Viticulture -- South Africa Dissertations -- Plant pathology Theses -- Plant pathology
92	The development of enzyme-linked immunosorbent assays to detect potato virus Y and potato leaf roll virus using recombinant viral coat proteins as antigens Matzopoulos, Mark 04 1900 (has links) Thesis (MSc)--University of Stellenbosch, 2005. / ENGLISH ABSTRACT: Potato Virus Y (PVY) and Potato Leafroll Virus (PLRV) are two of the most destructive potato viruses capable of drastically diminishing crop yields by up to 80%. The presence of these viruses in planting material namely seed potato stocks are routinely diagnosed by enzyme-linked immunosorbent assay (ELISA) kits. The kits currently used by Potatoes South Africa are obtained from Europe. These kits have produced false positive and false negative results in the past. Potatoes South Africa required an ELISA that was reliable, cheap and specific for the detection of South African strains of the two respective viruses. In this study the viral coat protein genes were amplified by RT-PCR from a South African source of infected plant material. The PVY and PLRV coat protein genes were subsequently cloned into pGEM-T Easy vector and sequenced. The sequences of the two viruses were aligned and compared to corresponding viral coat protein gene sequences obtained from Genbank. Subsequently the two amplified and cloned coat protein genes of PVY and PLRV were sub-cloned into an expression system (pET-14b) to induce and express the respective recombinant viral coat proteins. The induction of the cloned coat protein genes yielded successful production of the recombinant PVY coat protein but the induction and expression of the recombinant PLRV coat protein was unsuccessful. The isolated recombinant PVY CP was then used to immunize a rabbit to produce highly specific anti-PVY CP immunoglobulins. The antiserum obtained from the rabbit was used to develop an ELISA to detect the presence of PVY in seed potato stocks in South Africa. The ELISA kit was subsequently used in preliminary trials to determine if the kit could detect PVY infected plant material. The initial results of the ELISA trials using PVY infected material obtained from Potatoes South Africa yielded positive results. / AFRIKAANSE OPSOMMING: Aartappel Virus Y (PVY) en Aartappel Rolblad Virus (PLRV) is twee van die mees vernietigende aartappel virusse wat ‘n oes tot 80% kan verlaag. Virus infeksie van plant materiaal tewete aartappelmoere word deur “enzyme-linked immunosorbent assay” (ELISA) toetsstelle bevestig. Die toetsstelle wat op die oomblik gebruik word deur Aartappels Suid- Afrika word in Europa vervaardig. Hierdie toetsstelle het vals positiewe en vals negatiewe resultate in die verlede gegee. Aartappels Suid-Afrika benodig toetsstelle wat betroubaar, goedkoop en spesifiek vir Suid-Afrikaanse virus stamme is. In hierdie studie is besmette plantmateriaal vanuit Suid-Afrika gebruik vir die amplifisering van virale mantel proteïen gene met behulp van RT-PCR. Die PVY en PLRV mantel proteïen gene was daarna in die pGEM-T Easy vektor gekloneer en nukleotied volgordes is bepaal. Die nukleotied volgordes is met ander PVY en PLRV gene vanaf Genbank vergelyk. Die twee ge-amplifiseerde en gekloneerde mantel proteïen gene van PVY en PLRV is uitgesny en gekloneer in ‘n ekspressie sisteem (pET-14b) om die mantel proteïen te produseer. Induksie van die gekloneerde mantel proteïen gene het gelei tot die suksesvolle produksie van ‘n PVY mantel proteïen, maar produksie van die PLRV mantel proteïen was onsuksesvol. Die geïsoleerde PVY mantel proteïen is vervolgens gebruik vir die immunisering van ‘n konyn vir die produksie van konyn anti-PVY antiliggame. Die antiserum verkry vanaf die konyn is gebruik vir die ontwikkeling van ‘n ELISA vir die identifisering van PVY infeksies in aartappelmoere. Voorlopige proewe is deurgevoer om te bepaal of hierdie ELISA PVY infeksies in plantmateriaal sou kon opspoor. Aanvanklike resultate toon dat die ELISA suksesvol PVY infeksies in plantmateriaal verkry vanaf Aartappels Suid-Afrika kan opspoor. Virus diseases of plants -- South Africa Viral proteins Proteins -- Synthesis Theses -- Biochemistry Dissertations -- Biochemistry
93	A study of genomic variation in and the development of detection techniques for potato virus Y in South Africa Visser, Johan Christiaan 03 1900 (has links) Thesis (MSc)--University of Stellenbosch, 2008. / ENGLISH ABSTRACT: Potato virus Y (PVY) is responsible for considerable yield losses in the South African potato industry. The incidence of this virus has greatly increased over the past few years. Even more worrying is the variation of symptoms observed during PVY infection and the recent appearance of the more virulent PVYNTN strain in local fields. This project aimed to investigate the possible genetic variation within the viral genome and to establish the origin of strains. The project also aimed to establish a dependable, area specific enzyme-linked immunosorbent assay (ELISA) to replace the currently used ELISAs. Currently seed potato certification is done using ELISA kits imported from Europe. These kits were developed for the detection of overseas variants of PVY and the use thereof in South Africa has in the past lead to false negatives. Finally, this project set out to develop, optimize and establish a sensitive and reliable real-time reverse transcriptase polymerase chain reaction (qRT-PCR) detection protocol for PVY. In the first part of the study the coat protein (CP) gene of PVY isolates from plant material obtained from various parts of South Africa was amplified using RT-PCR. The resulting cDNA was then sequenced directly or cloned into a vector and then sequenced. The resulting sequences were aligned in a data matrix with international reference sequences, analyzed and grouped according to strain. Examination of the CP gene within this matrix as well as phylogenetic analysis revealed six main groups of PVY. These six groups included the traditional PVYN and PVYO groups and a recombinant group. Furthermore it also revealed variants of PVYN and PVYO. These mutants and recombinants pose a threat as they may lead to South African strains of PVY expressing coat proteins which vary from those found overseas. This may render the currently used European ELISA method of detection less effective and subsequently result in an increase in viral prevalence. This reinforced the need for a detection method based on local viral strains. Phylogenetic and Simplot analysis also confirmed that a recombinant strain between PVYN and PVYO had evolved and that PVYNTN was such a recombinant. The second part of the study aimed to develop and establish detection methods based on local variants of PVY. This included the development of ELISA and qRT-PCR detection methods of PVY. Previously amplified cDNA of the PVY CP gene was cloned into an expression vector and successfully expressed. Antibodies produced against the recombinant protein, when used in ELISA, however, failed to achieve the required levels of sensitivity. This prompted the development of qRT-PCR detection methods for PVY. Primer combinations for PVY were designed using the previously established CP gene data matrix. A reliable and sensitive SYBR® Green I based qRT-PCR assay was developed for the detection of PVY. The assay effectively detected all known South African variants of PVY. Furthermore, a Taqman® assay was developed for the detection of all variants of PVY. The Taqman® assay was 10 fold less sensitive and does not allow for amplicon verification through melting curve analysis, but it does add more specificity due to the addition of the probe. Although these qRT-PCR detection methods are still too expensive to replace the routine diagnostics done with ELISA, they do offer the opportunity to screen valuable mother material and confirm borderline cases in seed certification. / AFRIKAANSE OPSOMMING: Aartappel virus Y (PVY) is verantwoordelik vir aansienlike opbrengsverliese in die Suid-Afrikaanse aartappelindustrie. Die insidensie van infeksie deur die virus het drasties toegeneem oor die afgelope jare. Wat egter meer kommerwekkend is, is die groter variasie in simptome van PVY infeksie en die onlangse voorkoms ‘n meer virulente ras, PVYNTN. Hierdie projek poog om moontlike genetiese variasie van PVY te ondersoek en om die oorsprong van rasse op te spoor. Die projek het ook gepoog ook om ‘n bruikbare, betroubare en area spesifieke “enzyme-linked immunosorbent assay” (ELISA) toets te ontwikkel om die huidige ingevoerde ELISA te vervang. Hierdie toetse is ontwikkel om oorsese variante van PVY op te spoor en die gebruik daarvan het in die verlede gelei tot vals negatiewes. Verder is daar ook ondersoek ingestel na die ontwikkeling van ‘n sensitiewe en betroubare “real-time reverse transcriptase polymerase chain reaction” (qRT-PCR) protokol vir die opsporing van PVY. In die eerste deel van die studie is die mantelproteïen geen van PVY isolate vanuit plant materiaal geamplifiseer deur die gebruik van RT-PCR. Hierdie materiaal is vanaf verskeie streke in Suid-Afrika ontvang. ‘n Volgordebepalingsreaksie is uitgevoer op gekloneerde of ongekloneerde cDNA verkry uit die RT-PCR. DNA volgordes is in ‘n data matriks geplaas en vergelyk met internationale volgordes om die plaaslike isolate te analiseer en te groepeer. Deur vergelyking en filogenetiese ontleding kon ses hoofgroepe van PVY geïdentifiseer word, wat tradisionele PVYN en PVYO, sowel as ‘n rekombinante ras en variante binne die tradisionele PVYN en PVYO groepe ingesluit het. Rekombinante en mutante kan veroorsaak dat Suid-Afrikanse rasse van PVY mantelproteïene uitdruk wat afwyk van die oorsese rasse wat tot gevolg mag hê dat die ELISAs van oorsee minder effektief kan wees en kan lei tot verhoogde virus voorkoms. Die realiteit en gevaar versterk die gedagte dat ‘n deteksie metode gebaseer op plaaslike virusse absoluut krities is. Filogenetiese sowel as Simplot analise het bevestig dat ’n mutante ras tussen PVYN en PVYO ontstaan het en dat PVYNTN ’n rekombinante ras is. Die tweede deel van die studie was daarop gemik om deteksie metodes te ontwikkel wat gebaseer was op plaaslike variante van PVY. Dit sluit die ontwikkeling van ELISA sowel as qRT-PCR deteksie van PVY in. Voorheen geamplifiseerde cDNA is in ‘n ekspressievektor gekloneer en suksesvol uitgedruk. Teenliggaampies teen die rekombinante proteïen, indien in ELISA aangewend, kon egter nie die nodige sensitiwiteit oplewer nie. Dit het aanleiding gegee tot ontwikkeling van qRT-PCR deteksie metodes. Inleier kombinasies vir PVY was ontwikkel deur die gebruik van die bestaande mantelproteïen geen data matrikse. ‘n Betroubare en sensitiewe SYBR® Green I qRT-PCR deteksie protokol was ontwikkel vir die effektiewe deteksie van alle bekende Suid-Afrikanse rasse van PVY. Verder is ‘n sogenaamde “Taqman®” protokol ook ontwikkel vir deteksie van alle rasse. Die “Taqman®” protokol was 10 voudiglik minder gevoelig and laat nie bevestiging deur smeltkurwe analise toe nie, maar verleen meer spesifisiteit deur die toevoeging van die “Taqman® probe”. Hierdie qRT-PCR deteksie metodes is tans te duur om as roetine diagnostiese toetse te gebruik en kan dus nie ELISA vervang nie, maar hulle bied wel die geleentheid om waardevolle moeder materiaal te toets en grensgevalle in aartappelsaad sertifisering te bevestig. Potato virus Y Virus diseases of plants -- South Africa Theses -- Biochemistry Dissertations -- Biochemistry
94	Response to selection for downy mildew (Peronosclerospora sorghi) and maize streak virus resistance in three quality protein maize populations in Mozambique / Mariote, David. January 2007 (has links) Thesis (Ph.D.) - University of KwaZulu-Natal, Pietermaritzburg, 2007. / Submitted to the African Centre for Crop Improvement. Full text also available online. Scroll down for electronic link.
95	The construction of gene silencing transformation vectors for the introduction of multiple-virus resistance in grapevines Van Eeden, C. (Christiaan) 12 1900 (has links) Thesis (MSc)--University of Stellenbosch, 2004. / ENGLISH ABSTRACT: Viruses are some of the most important pathogens of grapevines. There are no effective chemical treatments, and no grapevine- or other natural resistance genes have been discovered against grapevine infecting viruses. The primary method of grapevine virus control is prevention by biological indexing and molecular- and serological screening of rootstocks and scions before propagation. Due to the spread of grapevine viruses through insect vectors, and in the case of GRSPaV the absence of serological screening, these methods of virus control are not always effective. In the past several methods, from cross-protection to pathogen derived resistance (PDR), have been applied to induce plant virus resistance, but with inconsistent results. In recent years the application of post-transcriptional gene silencing (PTGS), a naturally occurring plant defense mechanism, to induce targeted virus resistance has achieved great success. The Waterhouse research group has designed plant transformation vectors that facilitate specific virus resistance through PTGS. The primary focus of this study was the production of virus specific transformation vectors for the introduction of grapevine virus resistance. The Waterhouse system has been successfully utilised for the construction of three transformation vectors with the pHannibal vector as backbone. Each vector contains homologous virus coat protein (CP) gene segments, cloned in a complementary conformation upstream and downstream of an intron sequence. The primary vector (pHann-SAScon) contains complementary CP gene segments of both GRSPaV and GLRaV-3 and was designed for the introduction of multiple-virus resistance. For the construction of the primary vector the GRSPaV CP gene was isolated from RSP infected grapevines. A clone of the GLRaV-3 CP gene was acquired. The second vector (pHann- LR3CPsas) contains complementary CP gene segments of GLRaV-3. The third vector (pHann-LR2CPsas) contains complementary CP gene segments of GLRaV-2. The cassette containing the complementary CP gene segments of both GRSPaV and GLRaV-3 was cloned into pART27 (pART27-HSAScon), and used to transform N tabacum cv. Petit Havana (SRI), through A. tumefaciens mediated transformation. Unfortunately potential transformants failed to regenerate on rooting media; hence no molecular tests were performed to confirm transformation. Once successful transformants are generated, infection with a recombinant virus vector (consisting of PYX, the GFP gene as screenable marker and the complementary CP gene segments of both GRSPaV and GLRaV-3) will be used to test for the efficacy of the vectors to induce resistance. A secondary aim was added to this project when a need was identified within the South African viticulture industry for GRSPaV specific antibodies to be used in serological screening. To facilitate future serological detection of GRSPaV, the CP gene was isolated and expressed with a bacterial expression system (pETI4b) within the E. coli BL2I(DE3)pLysS cell line. The expressed protein will be used to generate GRSPaV CP specific antibodies. / AFRIKAANSE OPSOMMING: Virusse is van die belangrikste patogene by wingerd. Daar bestaan geen effektiewe chemiese beheer nie, en geen wingerd- of ander natuurlike weerstandsgene teen wingerdvirusse is al ontdek nie. Die primêre metode van beheer t.o.v. wingerdvirusse is voorkoming deur biologiese indeksering, en molekulêre- en serologiese toetsing van onderstokke en entlote voor verspreiding. As gevolg van die verspreiding van wingerdvirusse deur insekvektore, en in die geval van GRSPa V die tekort aan serologiese toetsing, is dié metodes van virusbeheer nie altyd effektief nie. In die verlede is metodes soos kruis-beskerming en patogeen-afgeleide weerstand (PDR) gebruik om virusweerstand te induseer, maar met inkonsekwente resultate. In onlangse jare is post-transkripsionele geenonderdrukking (PTGS), 'n natuurlike plantbeskermingsmeganisme, met groot sukses toegepas om geteikende virusweerstand te induseer. Die Waterhouse-navorsingsgroep het planttransformasievektore ontwerp wat spesifieke virusweerstand induseer d.m.v. PTGS. Die vervaardiging van virus spesifieke tranformasievektore vir die indusering van wingerdvirusweerstand was die primêre doelwit van hierdie studie. Die Waterhouse-sisteem was gebruik vir die konstruksie van drie transformasievektore, met die pHannibal vektor as basis. Elke vektor bevat homoloë virus kapsiedproteïen (CP) geensegmente, gekloneer in 'n komplementêre vorm stroom-op en stroom-af van 'n intronvolgorde. Die primêre vektor (pHann-SAScon) bevat komplementêre CP geensegmente van beide GRSPaV en GLRaV-3, en was ontwerp vir die indusering van veelvoudige-virusweerstand. Die CP-geen van GRSPa V was vanuit RSP-geïnfekteerde wingerd geïsoleer, vir die konstruksie van die primêre vektor. 'n Kloon van die GLRa V-3 CP-geen was verkry. Die tweede vektor (pHann-LR3CPsas) bevat komplementêre CP geensegmente van GLRaV-3. Die derde vektor (pHann-LR2CPsas) bevat komplementêre CP geensegmente van GLRa V-2. Die kasset bestaande uit die komplementêre CP geensegmente van beide GRSPaV en GLRaV-3, was gekloneer in pART27 (pART27-HSAScon), en gebruik om N tabacum cv. Petit Havana (SRI) te transformeer d.m.v. A. tumefaciens bemiddelde transformasie. Ongelukkig het potensiële transformante nie geregenereer op bewortelingsmedia nie; gevolglik was geen molekulêre toetse gedoen om transformasie te bevestig nie. Na suksesvolle transformante gegenereer is, sal infeksie met 'n rekombinante-virusvektor (bestaande uit PYX, die GFP geen as waarneembare merker en die komplementêre CP geensegmente van beide GRSPa V en GLRa V-3) gebruik word om die effektiwiteit van die vektore as weerstandsinduseerders te toets. 'n Sekondêre doelwit is by die projek gevoeg toe 'n behoefte aan GRSPaV spesifieke teenliggame binne die Suid-Afrikaanse wynbedryf geïdentifiseer is, vir gebruik in serologiese toetsing. Om toekomstige serologiese toetsing van GRSPa V te bemiddel, was die CP-geen geïsoleer en in 'n bakteriële uitdrukkingsisteem (PETI4b) uitgedruk, in die E. coli BL21(DE3)pLysS sellyn. Die uitgedrukte proteïne sal gebruik word vir die vervaardiging van GRSPa V CP spesifieke antiliggame. Grapes -- Genetics Gene silencing Genetic vectors
96	Biologia e tabela de vida de Brevipalpus yothersi (Acari: Tenuipalpidae) oriundos de diferentes regiões citrícolas do Estado de São Paulo / Amaral, Ingrid. January 2016 (has links) Orientador: Daniel Junior de Andrade / Banca: Marineide Rosa Vieira / Banca: Renato Beozzo Bassanezi / Resumo: O ácaro Brevipalpus yothersi Baker é vetor da leprose dos citros, principal doença viral da citricultura mundial. Informações sobre a biologia de B. yothersi são essenciais para compreender a dinâmica populacional do ácaro no campo e inferir se mudanças no manejo do pomar em função da região pode alterar a biologia do ácaro. O objetivo do trabalho foi determinar a biologia e elaborar a tabela de vida de fertilidade de B. yothersi coletados em diferentes regiões citrícolas do estado de São Paulo. Os experimentos foram realizados no Laboratório de Acarologia, pertencente à Faculdade de Ciências Agrárias e Veterinárias - FCAV/UNESP, Jaboticabal - SP. Os ácaros foram coletados em pomares cítricos das regiões de Barretos, Jales e Santa Cruz do Rio Pardo, posteriormente, em laboratório, foram multiplicados em frutos de laranja. Os parâmetros biológicos avaliados foram duração das fases de desenvolvimento, oviposição, período de incubação, viabilidade dos ovos, longevidade, taxa líquida de reprodução (Ro), tempo médio de geração (T), taxa intrínseca de crescimento populacional (rm) e taxa finita de crescimento populacional (λ). Estes parâmetros foram avaliados em dois experimentos, o primeiro consistiu na biologia de B. yothersi em frutos isentos de resíduos de produtos fitossanitários à 23±1ºC e o segundo sob frutos com resíduo de espirodiclofeno à 25±1ºC. As observações foram realizadas diariamente, pela manhã e ao fim da tarde. A duração do desenvolvimento, longevidade, período d... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The mite Brevipalpus yothersi Baker is the vector of the citrus leprosis, major viral disease of citrus worldwide. Information about B. yothersi's biology are essential to understanding the population dynamics of the mite in the field and infer whether changes in orchard management by region can change the mite biology. The objective was to determine the biology and prepare the fertility life table of B. yothersi collected in different citrus regions of São Paulo state. The experiments were performed in Acarology Laboratory, belonging to the Faculty of Agricultural and Veterinary Sciences - FCAV/UNESP, Jaboticabal - SP. The mites were collected in citrus orchards in the regions of Barretos, Jales and Santa Cruz do Rio Pardo, later in the laboratory were multiplied in orange fruits. The biological parameters assessed were duration of the stages of development, oviposition, incubation period, egg viability, longevity, net reproductive rate (Ro), mean generation time (T), intrinsic rate of increase (rm) and finite rate increase (λ). These parameters were evaluated in two experiments, the first consisted the biology of B. yothersi in fruits free of residues of pesticides at 23 ± 1°C and the second consisting of the biology of B. yothersi under fruit with spirodiclofen residue at 25 ± 1°C . The observations were performed daily, in the morning and in the afternoon. The duration of the development, longevity, pre-oviposition period, oviposition rate and number of B. yothersi eggs s... (Complete abstract click electronic access below) / Mestre Cítricos. Cítricos - Doenças e pragas. Viroses das plantas. Frutas citricas - Cultivo. Ácaro de plantas. Virus diseases of plants Plant mites
97	Detection of nepoviruses by ELISA in tissue-cultured and field-grown grapevines Johnson, Raymond Camille Joseph January 1988 (has links) The detection by serology of nematode-transmitted polyhedral viruses (nepoviruses) in grapevines is often unreliable. Nepoviruses were detected by enzyme-linked immunosorbent assay (ELISA) in tissue-cultured and field-grown grapevines. Nepovirus detection in in vitro plants (plantlets) was affected by virus distribution and growth room temperature. The reliability of virus detection in field-grown grapevines was improved when modified grinding buffers were used. Arabis mosaic virus (AMV) was detected by ELISA, for the first time, in in vitro grapevines initiated from field-and screenhouse-grown plants throughout the summer. The virus was not reliably and repeatedly detected in in vitro plantlets grown at 25°C. AMV and grapevine fanleaf virus (GFLV) distribution was not uniform throughout the plantlets. This distribution was affected by the culture room temperature. The best plant parts to sample for virus detection came from the zones of rapidly proliferating shoots. The viruses were sometimes not detected in samples taken from other tissues. Growth room temperature had an important effect on virus detection in plantlets. The highest virus titres were found in plants growing at 15°C. Temperature increases in 5°C steps to 30°C reduced virus titre. AMV became undetectable in nearly all plantlets growing at 30°C for as little as 30 days. Growth at 30°C reduced ELISA absorbance values by 76% after 8 days and after 21 days the values were at 4% of pre-treatment levels. The virus titre dropped below detectable levels in most plantlets. AMV could not be detected in plantlets or rooted explants after being placed in a 30°C treatment for 2 months. Tomato ringspot virus was detected by ELISA, for the first time, in in vitro grapevine plants. The virus was repeatedly detected in in vitro plants growing at 20°C. Under the typical summer conditions experienced at Sidney, B.C., modifying the standard ELISA grinding buffer (0.01 M phosphate buffered saline, pH 7.4, 0.05% Tween-20, 0.2% ovalbumin, 2% polyvinylpyrrolidone) was essential for reliable detection of AMV or GFLV. AMV was reliably detected by ELISA in foliar samples from field or screenhouse plants throughout the summer when the grinding buffer was modified by increasing the pH to at least 8.2 and adding 1% nicotine or 0.15 M phosphate buffered saline. The most reliable results with GFLV were obtained with the nicotine enhanced buffers. In comparison, because of the increased workload associated with growing plants in vitro and the unreliable detection of viruses in these plants, it remained preferable to detect nepoviruses in field plants by ELISA. / Land and Food Systems, Faculty of / Graduate Enzyme-Linked Immunosorbent Assay Enzyme-linked immunosorbent assay Grapes -- Diseases and pests Vitis -- Diseases and pests Virus diseases of plants
98	Characterization of potato virus Y (PVY) isolates infecting solanaceous vegetables in KwaZulu-Natal (KZN), Republic of South Africa (RSA) Ibaba, Jacques Davy. January 2009 (has links) Potato virus Y (PVY) is an economically important virus worldwide. In South Africa, PVY has been shown to be a major limiting factor in the production of important solanaceous crops, including potato (Solanum tuberosum L.), pepper (Capsicum annuum L.), tomato (Lycopersicon esculentum Mill.) and tobacco (Nicotiana spp). The variability that PVY displays, wherever the virus occurs, merits the study of the isolates occurring in KwaZulu-Natal (KZN) in the Republic of South Africa (RSA). This characterization will provide a clear understanding of strains/isolates from local vegetables and how they relate to the other PVY strains already identified, as well as information that can be used to manage the diseases they cause. Hence, the aim of this project was to study the biological and genetic properties of PVY isolates infecting potato, tomato and pepper in KZN. Enzyme-linked immunosorbent assay (ELISA) using monoclonal antibodies and reverse transcription polymerase chain reaction (RT-PCR) using primers specific to all PVY strains were used to detect the virus in plant material showing PVY-like symptoms collected from various locations in KZN. A total of 39 isolates (18 isolates infecting tomato, 12 infecting potato and 9 infecting pepper) were further differentiated into strains by means of ELISA using strain specific antibodies and RT-PCR using primers specific to the different strains of PVY identified around the world. All PVY isolates infecting tomato and pepper tested positive for the ordinary PVYO strain with both ELISA and RT-PCR. PVY isolates infecting potato were more diverse and comprised the PVYN, PVYNTN and PVYNWilga strains, with mixed infections noted in some cases. The biological properties were studied by mechanically inoculating Chenopodium quinoa, Nicotiana tabacum cv Xanthi, N. tabacum cv Samsun, N. glutinosa, and N. rustica with leaf extracts from plants infected with the different PVY strains detected in this study. All inoculated C. quinoa plants did not show symptoms. All tobacco plants showing symptoms were tested for the presence of PVY by means of ELISA using monoclonal antibodies targeting all strains and electron microscopy using the leaf dip technique. Not all the inoculated tobacco tested positive with ELISA. The symptoms observed were therefore divided into PVY-related and PVY non- related. PVY-related symptoms included vein clearing, mosaic chlorosis, stunting, and vein necrosis. PVY non-related symptoms included wrinkles and leaf distortions. Potyvirus-like particles of about 700 nm were observed under the transmission electron microscope (TEM) from plants showing PVY-related symptoms while rod shaped viral particles of sizes varying between 70 and 400 nm were observed from plants showing non-PVY related symptoms. A portion of the virus genome (1067 bp) covering part of the coat protein gene and the 3’ non-translated region (NTR) of three PVYO isolates infecting tomato, one PVYO isolate infecting pepper and one PVYNWilga isolate infecting potato were amplified, cloned and sequenced. The 5’ NTR, P1, HC-Pro and part of P3 regions (2559 bp) of a PVYN isolate infecting potato were also amplified, cloned and sequenced. Sequence data was compared with selected PVY sequences from different geographical locations around the world. These were available on the NCBI website and subsequently used for phylogenic analyses. The sequenced genomic regions of the PVYN isolate were found to be 99% similar to the New Zealand PVYN isolate (GenBank accession number: AM268435), the Swiss PVYN isolate CH605 (X97895) and the American PVYN isolate Mont (AY884983). Moreover, the deduced amino acid sequence comparison of the genomic regions of the PVYN isolate revealed the presence of five distinct amino acids residues. The three amino acid residues (D205, K400, and E419), which determine the vein necrosis phenotype in tobacco, were also identified. The coat protein and 3’ NTR sequences of all KZN PVYO isolates infecting pepper and tomato were closely similar to each other than to KZN PVYNWilga isolate infecting potato. The phylogenic analysis clustered the KZN PVYN isolate with the European sublineage N, PVYNWilga isolate infecting potato with the American PVYO isolate Oz (EF026074) in the O lineage and all PVYO isolates infecting tomato and pepper in a new sublineage within the O lineage. Taken together, these results point to the presence of PVY in solanaceous vegetables cultivated in KZN and they lay the foundation for the formulation of effective control measure against PVY diseases in KZN. / Thesis (M.Sc.) - University of KwaZulu-Natal, Pietermaritzburg, 2009. Potato virus Y--KwaZulu-Natal. Plant molecular virology. Plant viruses--Genetics. Plant viruses--Genetics. Virus diseases of plants--Diagnosis. Viruses--Isolation. Solanaceae--Diseases and pests. Theses--Plant pathology.
99	A study of the strain evolution and recombination of South African isolates of Potato virus Y Visser, Johan Christiaan 12 1900 (has links) Thesis (PhD)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: Potato virus Y (PVY) is responsible for considerable yield losses in the South African potato industry. The incidence of this virus has greatly increased over the past 20 years. In previous studies nonrecombinant strains of PVY, PVY N and PVY O, were detected in South African potatoes. In a recent study the occurrence of non-recombinant strains of PVY in South African potatoes was shown to have decreased while infection by more virulent recombinant strains, PVY NTN and PVY N-W, had increased dramatically. Infection of potato plants with PVY may cause stunted growth and mosaic or necrotic leaf symptoms which in turn can lead to a significant reduction in yield. Highly virulent recombinant PVY isolates as well as some of the non-recombinant strains may cause potato tuber necrotic ringspot disease (PTNRD) which may result in losses of 10% to total crop failure. For this reason investigation of infection by local recombinant isolates on local cultivars was important. To this end a representative number of isolates were selected for whole genome sequencing based on the relative occurrence of the various isolates in South Africa. A number of these sequenced isolates were subsequently used to infect local cultivars of potato in order to investigate the influence of genetic variation within the viral genome on symptom expression. In this study 27 South African isolates of PVY were sequenced through overlapping RT-PCR fragments. Seven of these isolates, six PVY NTN and one PVY N-W, were used to mechanically infect four local cultivars of potatoes under greenhouse conditions. The infected plants were monitored to establish the rate of systemic spread using a highly sensitive qRT-PCR and resulting tubers were visually screened for PTNRD. Highly variable recombinant isolates appear to be less virulent than the more conserved recombinant isolates possibly indicating molecular determinants for pathogenicity. For this reason the amino acid sequences of the South African isolates were compared to those of international isolates and scrutinized for variation and substitutions. Some South African isolates displayed amino acid substitutions unique to the specific isolate, making them unlike those found internationally. Substitution rates throughout the amino acid sequences differed greatly, with some isolates displaying hardly any changes whilst others varied a great deal from overseas isolates. Certain regions, many of which had specific functions, were more conserved than others. This study further investigated the recombination events within the PVY genome using reticulate phylogenetic analysis, molecular dating and network construction techniques. Unlike existing approaches, the one described in this study neither assumes an underlying strictly bifurcating species tree nor assumes prior knowledge of processes underlying deviations between individual gene trees. Through the use of the resulting robust time calibrated phylogeny, the patterns of diversification and recombination in PVY may be placed in the historical context of human cultivation of potatoes. Through the use of these techniques the study aimed to test whether diversification of the major strains of PVY and recombination between them occurred within the time frame of the domestication and modern cultivation of potatoes. From these analyses it can be deduced that recombinant strains of PVY were imported into South Africa. / AFRIKAANSE OPSOMMING: Aartappel virus Y (PVY) is verantwoordelik vir aansienlike opbrengs verliese in die Suid-Afrikaanse aartappelbedryf. Die voorkoms van die virus het grootliks toegeneem oor die afgelope 20 jaar. In vorige studies is nie-rekombinante rasse van PVY, PVY N en PVY O, gedokumenteer in Suid-Afrikaanse aartappels. 'n Onlangse studie het gevind dat die voorkoms van nie-rekombinante rasse van PVY in Suid- Afrikaanse aartappels aansienlik gedaal het terwyl infeksie deur virulente rekombinante rasse, PVY NTN en PVY N-W, dramaties toegeneem het. Infeksie van aartappelplante met PVY kan vertraagde groei en mosaïek- of nekrotiese blaarsimptome veroorsaak wat kan lei tot aansienlike vermindering in opbrengs. Hoogs virulente rekombinante PVY isolate, sowel as sommige nie-rekombinante rasse, kan aartappel nekrotiese ring simptome (PTNRD) veroorsaak wat verliese van 10% tot totale misoes tot gevolg kan hê. Om hierdie rede was die ondersoek van infeksie deur plaaslike rekombinante isolate op plaaslike kultivare belangrik. Vir hierdie doel is 'n verteenwoordigende aantal isolate gekies, gebaseer op die relatiewe voorkoms daarvan in Suid-Afrika, vir heelgenoom-volgordebepaling. Van die isolate is vervolgens gebruik om plaaslike kultivare te besmet ten einde die invloed van genetiese variasie binne die virale genoom op simptoom uitdrukking te ondersoek. In hierdie studie is 27 heelgenoomvolgordes van Suid-Afrikaanse PVY isolate bepaal deur oorvleuelende RT-PCR fragmente. Sewe van hierdie isolate, ses PVY NTN en een PVY N-W, is gebruik om vier plaaslike aartappel kultivare, gegroei onder kweekhuis kondisies, meganies te infekteer. Die geïnfekteerde plante is gemonitor om die tempo van sistemiese verspreiding vas te stel deur middel van 'n hoogs sensitiewe qRTPCR en knolle is visueel inspekteer vir PTNRD. Hoogs variante rekombinante isolate blyk om minder virulent te wees as die meer bewaarde rekombinante isolate wat dui op molekulêre determinante van patogenisiteit. Om hierdie rede is die aminosuurvolgordes van die Suid-Afrikaanse isolate vergelyk met die van internasionale isolate en ondersoek vir variasie en substitusies. Sommige Suid-Afrikaanse isolate vertoon aminosuur substitusies wat uniek is tot die spesifieke isolaat en maak hul dus anders as internasionale isolate. Die aantal aminosuursubstitusies in die volgordes verskil grootliks. In vergelyking met internasionale isolate toon sommige isolate skaars enige veranderinge terwyl ander ‘n aantal verskille toon. Sekere gebiede, waarvan baie spesifieke funksies het, was meer gekonserveerd as ander. Hierdie studie ondersoek ook rekombinasie gebeure binne die PVY genoom deur retikulêre filogenetiese analise, molekulêre datering en netwerk konstruksie tegnieke. In teenstelling met bestaande benaderinge, aanvaar die tegniek wat hier beskryf word nie ‘n streng bifurkeerende filogenie, wat onderliggende verdeel, of enige voorafgaande kennis van die prosesse onderliggend aan afwykings tussen individuele filogenieë nie. ‘n Robuuste, tyd gekalibreer filogenie kan diversifikasie patrone en rekombinasie van PVY plaas in die historiese konteks van menslike verbouing van aartappels. Deur gebruik te maak van hierdie tegnieke poog die studie om te toets of diversifikasie en rekombinasie van PVY rasse plaasgevind het binne die tydsbestek van die inburgering en moderne verbouing van aartappels. Van hierdie ontledinge word afgelei dat rekombinante rasse van PVY wat in Suid-Afrika voorkom, ingevoer is. Reticulate phylogenetic analysis Potato virus Y Virus diseases of plants -- South Africa Dissertations -- Biochemistry Theses -- Biochemistry Biochemistry
100	Potyvirus: caracterização parcial de espécies em plantas daninhas associadas a cultura do pimentão, avaliação de genótipos de alface e análise subcelular do eIF4E e de proteínas do Lettuce mosaic virus / Moura, Mônika Fecury, 1979- January 2013 (has links) Orientador: Renate Krause Sakate / Coorientador: Marcelo Agenor Pavan / Banca: Ivan de Godoy Maia / Banca: Valcir Atsushi Yuki / Banca: Romulo Fujito Kobori / Resumo: Os potyvírus constituem cerca de 90% das espécies conhecidas da família Potyviridae. No Brasil ocasionam sérios entraves em alface (Lactuca sativa L.) e em pimentão (Capsicum annuum L.), onde se pode citar o Lettuce mosaic virus - LMV e o Pepper yellow mosaic virus (PepYMV), respectivamente. Com o intuito de melhor compreender o reservatório natural de potyvírus em plantas invasoras, amostras foram coletadas em áreas produtoras de pimentão e analisadas utilizando-se antissoro anti-potyvirus (Agdia). Entre estas plantas positivas, destacou-se Solanum americanum Mill, onde foi verificada infecção mista do Cucumber mosaic virus e do Potato virus Y, e Commelina benghalensis L. em que foi encontrado um possível novo potyvírus com a maior identidade de nucleotídeos da proteína capsidial (62%) com a espécie Hardenbergia mosaic virus. Este potyvírus não foi transmitido por extrato vegetal, bem como por afídeos para plantas de pimentão e Nicotiana tabaccum TNN. Na região codificadora para a proteína capsidial do potyvirus não foi encontrado o domínio DAG, relacionado a transmissão por afídeos. Visando encontrar possíveis fontes de resistência ao Lettuce mosaic virus - LMV, genótipos foram inoculados com o isolado LMV-AF-199 (LMV-Most) e o fator de iniciação de tradução eucariótico eIF4E destes genótipos analisado. Em Calona e Salinas-88, conhecidas previamente como portadoras dos genes recessivos mol1 e mol2 foram observados sintomas em todas as plantas inoculadas e verificado o padrão típico do eIF4E1 e eIF4E2, respectivamente... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The Potyvirus genus corresponds to 90% of known species of the Potyviridae family. In Brazil potyviruses causes serious problems in lettuce (Lactuca sativa L) and in pepper crops (Capsicum annuum L.), which we can highlight Lettuce mosaic virus - LMV and Pepper yellow mosaic virus (PepYMV), respectively. To increase knowledge about the natural reservoir of potyviruses in weeds, samples were collected from a pepper producer area and analyzed for potyvirus using antiserum anti-potyvirus (Agdia). Solanum americanum Mill was identified as a host for Cucumber mosaic virus and Potato virus Y. In Commelina benghalensis L. a possible new species of potyvirus was found with higher nucleotide identity of the coat protein (62%) with Hardenbergia mosaic virus. This potyvirus could not be transmitted by aphids to sweetpepper and... (Complete abstract click electronic access below) / Doutor Pimentão - Doenças e pragas. Alface - Doenças e pragas. Virus do mosaico Vírus do mosaico da alface. Ervas daninhas. Vírus de plantas. Virus diseases of plants

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