Ontwikkeling van molekulere merkers vir wilde-spesie-verhaalde weerstandsgeenkomplekse van gewone koring

Eksteen, Aletta

03 1900

Thesis (MSc (Genetics))--University of Stellenbosch, 2009. / Worldwide, the rust diseases cause significant annual wheat yield losses (Wallwork 1992; Chrispeels & Sadava 1994). The utilization of host plant resistance to reduce such losses is of great importance particularly because biological control avoids the negative environmental impact of agricultural chemicals (Dedryver et al. 1996). The wild relatives of wheat are a ready source of genes for resistance to disease and insect pests. A large degree of gene synteny still exists among wheat and its wild relatives (Newbury & Paterson 2003). It is therefore possible to transfer a chromosome segment containing useful genes to a homologous region in the recipient genome without serious disruption of genetic information. Special cytogenetic techniques are employed to transfer genes from the wild relatives to the wheat genomes (Knott 1989). Unfortunately the transfer of useful genes may be accompanied by the simultaneous transfer of undesirable genes or redundant species chromatin which has to be mapped and removed (Feuillet et al. 2007). DNA markers are extremely useful for the characterisation and shortening of introgressed regions containing genes of interest (Ranade et al. 2001), and may also be used for marker aided selection of the resistance when the genes are employed commercially. Eight wheat lines containing translocations/introgressions of wild species-derived resistance genes were developed by the Department of Genetics (SU). These lines are presently being characterized and mapped and attempts are also being made to shorten the respective translocations. This study aimed to find DNA markers for the various translocations and to convert these into more reliable SCAR markers that can be used in continued attempts to characterize and improve the respective resistance sources. A total of 260 RAPD and 21 RGAP primers were used to screen the eight translocations and, with the exception of Lr19, it was possible to identify polymorpic bands associated with each translocation. However, it was not possible to convert all of these into more reliable SCAR markers. The primary reason for this was the low repeatability of most of the bands. Certain marker fragments turned out to be repeatable but could not be converted successfully. Some of the latter can, however, be used directly (in RAPD or RGAP reactions) as markers. The Lr19 translocation used in the study (Lr19-149-299) is a significantly reduced version of the original translocation and failure to identify polymorphisms associated with it can probably be ascribed to its small size. The following numbers of markers (direct and converted into SCARs) were Worldwide, the rust diseases cause significant annual wheat yield losses (Wallwork 1992; Chrispeels & Sadava 1994). The utilization of host plant resistance to reduce such losses is of great importance particularly because biological control avoids the negative environmental impact of agricultural chemicals (Dedryver et al. 1996). The wild relatives of wheat are a ready source of genes for resistance to disease and insect pests. A large degree of gene synteny still exists among wheat and its wild relatives (Newbury & Paterson 2003). It is therefore possible to transfer a chromosome segment containing useful genes to a homologous region in the recipient genome without serious disruption of genetic information. Special cytogenetic techniques are employed to transfer genes from the wild relatives to the wheat genomes (Knott 1989). Unfortunately the transfer of useful genes may be accompanied by the simultaneous transfer of undesirable genes or redundant species chromatin which has to be mapped and removed (Feuillet et al. 2007). DNA markers are extremely useful for the characterisation and shortening of introgressed regions containing genes of interest (Ranade et al. 2001), and may also be used for marker aided selection of the resistance when the genes are employed commercially. Eight wheat lines containing translocations/introgressions of wild species-derived resistance genes were developed by the Department of Genetics (SU). These lines are presently being characterized and mapped and attempts are also being made to shorten the respective translocations. This study aimed to find DNA markers for the various translocations and to convert these into more reliable SCAR markers that can be used in continued attempts to characterize and improve the respective resistance sources. A total of 260 RAPD and 21 RGAP primers were used to screen the eight translocations and, with the exception of Lr19, it was possible to identify polymorpic bands associated with each translocation. However, it was not possible to convert all of these into more reliable SCAR markers. The primary reason for this was the low repeatability of most of the bands. Certain marker fragments turned out to be repeatable but could not be converted successfully. Some of the latter can, however, be used directly (in RAPD or RGAP reactions) as markers. The Lr19 translocation used in the study (Lr19-149-299) is a significantly reduced version of the original translocation and failure to identify polymorphisms associated with it can probably be ascribed to its small size. The following numbers of markers (direct and converted into SCARs) were v identified: S8-introgression (Triticum dicoccoides) = one RAPD and two SCARs; S13-translocation (Aegilops speltoides) = four RAPDs, three RGAPs and five SCARs; S15-translocation (Ae. peregrina) = one RAPD and two SCARs; S20-translocation (Ae. neglecta) = two RAPDs, two RGAPs and one SCAR. The markers are already being employed in current projects aiming to map and shorten these translocations. Some of the markers can be combined in multiplex reactions for more effective mass screening. No repeatable markers could be identified for the four remaining translocations (S12 from Ae. sharonensis; S14 from Ae. kotschyi; Smac from Ae. biuncialis and Lr19-149-299 from Thinopyrum ponticum).

Dissertations -- Genetics

Theses -- Genetics

Molecular markers

Wheat -- Genetic engineering

Wheat -- Diseases and pests

Association of genetic variants and the susceptibility to abnormal involuntary movements and tardive dyskinesia (TD) in Xhosa schizophrenia patients

Hitzeroth, Angelika

03 1900

Thesis (MSc (Genetics))—University of Stellenbosch, 2007. / No obvious explanations exist for the development of abnormal involuntary movements (AIM), but several hypotheses have been proposed for tardive dyskinesia (TD) development. Since TD seems to have a genetic basis, several genetic variants have been investigated in TD development in various populations. Few studies have focused on African populations. This study focused on genetic variants (previously investigated in other populations) and the development and severity of AIM and TD in a Xhosa schizophrenia population. Genotype and allele frequencies determined were compared to those described in the literature for other populations. Following a report of an association between Ala-9Val and schizophrenia in a Turkish population, this study subsequently investigated this association in the Xhosa population. MnSOD Ala-9Val was genotyped using HEX-SSCP analysis and the DRD3 Ser9Gly variant was genotyped using restriction enzyme digestion by MscI. Genotyping was followed by statistical comparisons of the various groups, as well as association analyses between the variant and schizophrenia (only for MnSOD), AIM, or TD development and severity. The groups included a Xhosa schizophrenia group, a subgroup of the Xhosa schizophrenia group that had AIM (AIM+) and did not have AIM (AIM-), a subgroup of the AIM+ group that had TD (TD+), and a healthy Xhosa control group. A possible interaction between Ala-9Val and Ser9Gly in the development of AIM and TD was also investigated. Lastly, it was attempted to genotype CYP2D6*4, CYP2D6*10 and CYP2D6*17 using various PCR methods followed by restriction enzyme analysis. MnSOD Ala-9Val genotype and allele frequencies were similar to those of the Turkish population, but differed to those of the Asian populations. No association between Ala-9Val and the development and severity of schizophrenia was found. However, a relationship between genotype and AIM or TD development was observed, as well as an association between TD severity and Ala- 9Val genotype. DRD3 Ser9Gly genotype and allele frequencies were similar to those of the African American population, but differed from other populations. No significant association between Ser9Gly and the development and severity of AIM or TD was detected, nor was an interactive effect between Ala-9Val and Ser9Gly in AIM or TD development observed. The genotyping of CYP2D6 proved difficult and these variants could therefore not be analysed. The CYP2D6*4 genotype and allele frequencies that could be determined from some samples, were similar to the frequencies described previously for African populations. While we did not find an association between Ser9Gly in TD or AIM development and severity, nor an interaction between Ala-9Val and Ser9Gly, we did observe a relationship between Ala-9Val and AIM or TD development and TD severity. The effect of this variant is probably small and other variants, specifically those in genes involved in free radical removal should be investigated in combination with Ala-9Val. With regard to CYP2D6 it is suggested that high-throughput genotyping methods (e.g. microarray technology) should be used in the future. This will enable simultaneous genotyping of several variants and can be used in various populations. This study is the first of its kind by focusing on the unique South African Xhosa population and TD or AIM development.

Tardive dyskinesia -- South Africa

Movement disorders -- South Africa

Genetic polymorphisms

Dissertations -- Genetics

Theses -- Genetics

Molecular genetic analysis of human immunodeficiency virus antiretroviral therapy response in South Africa : a pharmacogenetics study

Parathyras, John Burns

03 1900

Thesis (MSc (Genetics))--University of Stellenbosch, 2007. / The results of pharmacotherapy can vary both within and between different populations and ethnic groups. Although numerous factors are believed responsible for observed discrepancies in drug response, genetic differences, most often in the form of single nucleotide polymorphisms (SNPs), between individuals and ethnic groups are an important and at times predominant factor. The response to antiretroviral (ARV) drugs for the treatment of human immunodeficiency virus (HIV)-infection is not dissimilar. Marked variations in both ARV efficacy and occurrence of adverse drug reactions (ADRs) have been observed on both an individual and ethnic group level, which are largely attributed to polymorphisms within genes involved in the metabolism and transport of these compounds – such genes include the CYP2B6 and CYP3A4 genes, both members of the cytochrome P450 (CYP) gene superfamily, and the multidrug-resistance 1 (MDR1) gene encoding an efflux transporter protein, phosphoglycoprotein (PGP). An improved understanding of the genetic influences on ARV drug response could lead to improved therapies with fewer side-effects and minimised drug resistance. The main aim of this study was thus to investigate the genetic basis of observed differences in ARV therapy (ART) response in South African ethnic groups. Deoxyribonucleic acid (DNA) samples were collected from 206 HIV-positive individuals of Mixed-Ancestry and Xhosa ethnicity that were currently or prospectively receiving ART. Polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) analysis was employed to screen the A-392G SNP in CYP3A4, the G516T and A785G SNPs in CYP2B6, and the T-129C, C1236T, G2677T/A and C3435T SNPs in MDR1. Hardy-Weinberg equilibrium (HWE) and haplotype analyses were subsequently performed on the resultant SNP genotype and ...

Dissertations -- Genetics

Theses -- Genetics

AIDS (Disease) -- South Africa

Antiretroviral agents -- South Africa

Pharmacogenetics -- South Africa

Molecular analyses of Salvia Africana-Lutea L. transgenic hairy root clones for secondary bioactives

Ramogola, Watsie Princess Neo

12 1900

Thesis (MSc)--Stellenbosch University, 2009. / ENGLISH ABSTRACT: Biotechnological applications are useful for adding value to the local medicinal plants and may provide an alternative source of pharmacologically-active compounds thus assisting with the conservation of wild populations. Salvia africana-lutea aromatic herb has long been used in folk medicine by traditional healers in the Western Cape Province (South Africa) for various ailments. As an in vitro conservation strategy, a continuous S. africana-lutea shoot culture was successfully established in solid MS medium containing BA (0.5 mg L-1) and NAA (0.2 mg L-1). The regeneration rate of the S. africana-lutea plants was high which produced approximately 720 plantlets in 20 culture bottles over a four week cycle. The microshoots were rooted in the MS medium without PGRs prior to acclimatisation. A survival rate of 92% was recorded for the greenhouse-acclimatised shoots. / AFRIKAANS OPSOMMING: Biotegnologiese toepassings is nuttig vir waarde toevoeging tot inheemse medisinale plante en kan ‘n alternatiewe bron van farmakologies aktiewe verbindings verskaf wat bydrae tot die bewaring van populasies in die natuur. Die aromatiese krui Salvia. Africana-lutea is reeds vir ‘n lang tydperk in volks medisyne deur tradisionele geneesheers in die Wes Kaap provinsie (Suid Afrika) vir ‘n verskeidenheid kwale gebruik. ‘n Kontinu S. africana-lutea lootkultuur in soliede Murashige en Skoog (1962) (MS) media wat BA (0.5 mg L-1) en NAA (0.2 mg L-1) bevat, is suksesvol as ‘n in vitro konservasie strategie ontwikkel. Die regenerasie tempo van die S. africana-lutea plante was hoog en het ongeveer 720 plante in 20 kultuur bottels tydens ‘n vier week siklus gelewer. Die mikrolote is op plant groei reguleerder vrye MS media gewortel voordat plante geaklimatiseer is. ’n Oorlewingstempo van 92% is vir die glashuis geaklimatiseerde lote waargeneem.

Salvia africana-lutea -- Medicinal use

Theses -- Genetics

Dissertations -- Genetics

Construction of a cDNA library for the vine mealybug, Planococcus ficus (Signoret)

Holm, Kora

12 1900

Thesis (MSc (Genetics))--Stellenbosch University, 2008. / The vine mealybug, Planococcus ficus (Signoret), is a severe pest of grapevine in many grape and wine producing countries around the world. It is renowned not only for the considerable damage it infers to grapevine of its own accord, but in particular for its role in transmitting deleterious viral diseases such as grapevine leafroll disease, Kober stem grooving, Shiraz disease and corky bark. Incidentally, it is an exceptionally tenacious antagonist of grapevine, being resistant to both chemical and biological control mechanisms. As a result, finding an effective strategy for P. ficus control has become a main priority of viticultural industries worldwide. Possible implementation of biotechnological approaches to pest management has resulted in a need for P. ficus genetic data - of which there are currently very little available. The transcribed genes of an organism can be captured in a cDNA library, and the sequences of the various transcripts can then be characterized. In this study altogether five cDNA libraries were constructed from the transcribed sequences of Planococcus ficus (Signoret). Instrumental to their construction was the identification of an RNA extraction protocol that provided large quantities of high quality RNA from mealybugs. The five cDNA libraries were the result of a set of modifications to the Creator™ SMART™ cDNA Library Construction Kit (used for Primary Library construction), and differed mainly with regards to range of insert sizes they contain. Whereas an abundance of short fragments were found in the Primary Library (42% of screened inserts 60.5 kb, and 20% >1 kb), the Fractionated Libraries contained inserts of specific size ranges that were more-or-less equally represented. The broadest size range was found in Fractionated Library 4, for which a uniform distribution over the range 0.25 kb - 4 kb was observed. Average insert sizes of Fractionated Libraries 1 to 4 were estimated at 0.25 kb, 0.5 kb, 1 kb and 2 kb respectively. These results demonstrated the importance of using a protocol designed to circumvent the bias towards incorporation of shorter transcripts in cDNA libraries. Although the libraries were not exhaustively analyzed, the outcome of a pilot investigation indicated that 41% of the submitted sequences had matches in the non-redundant database of the National Center for Biotechnology Information (NCBI, E-value 6 10-5), and that approximately 82% of these were of insect origin. Moreover, two potential targets for an RNAi-mediated approach to P. ficus pest control were identified. With one exception, these sequences seemed to be unique to arthropods. Future research needs to investigate the efficiency by which these sequences are able to constrain P. ficus proliferation, and their suitability for grapevine transformation.

cDNA libraries

Planococcus ficus

Gene libraries

Grapes -- Diseases and pests

RNA

Mealybugs

Dissertations -- Genetics

Theses -- Genetics

Mealybugs -- Control

Grapes -- Diseases and pests -- Control

Mealybugs -- Genetics

A metagenomic approach using next-generation sequencing for viral profiling of a vineyard and genetic characterization of grapevine virus E

Coetzee, Beatrix

12 1900

Thesis (MSc (Genetics))--University of Stellenbosch, 2010. / Includes bibliography. / Title page: Dept. of Genetics, Faculty of Science / ENGLISH ABSTRACT: Next-generation sequencing technologies are increasingly used in metagenomic studies, largely due to the high sequence data throughput capacity and unbiased approach in determining the genetic composition of an unknown environmental sample. This study investigated the applicability of the Illumina next-generation sequencing platform for metagenomic sequencing of grapevine viruses to provide the first complete viral profile, or virome, of a diseased vineyard. Leaf material was harvested from 44 randomly selected vines in a leafroll-diseased vineyard in South Africa. Sample material was pooled and double-stranded RNA extracted. The dsRNA was sequenced as a paired-end sequencing run using the Illumina sequencing-by-synthesis technique, and more than 19 million sequence reads, equivalent to approximately 837 megabases of metagenomic sequence data, were obtained. Of these data, approximately 400 megabases could be assembled into 449 scaffolds, using the de novo assembler Velvet. These scaffolds were subjected to BLAST searches against the NCBI databases and top hit scores were used for virus identification. Based on the BLAST results, suitable sequences were selected from the NCBI database and used as reference sequence in MAQ mapping assemblies. The bioinformatic analyses allowed for the determination of the virus species present, the most prominent variants, and the relative abundance of each. Four known grapevine viral pathogens were identified. Grapevine leafroll-associated virus 3, representing 59% of the analyzed short read sequence data, was identified as the most prominent virus species. Three variants of this virus were detected: GP18 was the most abundant, followed by a minor Cl766/NY1 variant and a potential novel grapevine leafroll-associated ampelovirus. A single Grapevine rupestris stem pitting ]associated virus variant, similar to SG1, and a Grapevine virus A variant, a member of molecular group III, were identified. This study is also the first to report the presence of Grapevine virus E (GVE) in South African vineyards. Grapevine virus E was further genetically characterized and the genome sequence of GVE isolate SA94 determined. The GVE SA94 genome sequence, 7568 nucleotides in length, is the first complete genome sequence for the virus species. The genome organization of GVE SA94 is typical of vitiviruses, but in contrast to other RNA viruses, the AlkB domain is located within the helicase domain in open reading frame 1 (ORF 1). Grapevine virus E SA94 shares nearly 100% nucleotide identity with the Japanese TvP15 isolate and GVE 3404, a de novo scaffold generated from the metagenomic sequence data. Bioinformatic analysis of metagenomic sequence data further revealed the presence of three fungus-infecting viral families, Chrysoviridae, Totiviridae and the unclassified dsRNA virus, Fusarium graminearum dsRNA mycovirus 4. A virus from the family Chrysoviridae, similar to Penicillium chrysogenum virus, was the second most abundant virus detected. We demonstrated the successful application of a short read sequencing technology, such as the Illumina platform, for viral profiling of an infected vineyard. To our knowledge this is the first application of the Illumina technology for this purpose. / AFRIKAANSE OPSOMMING: Volgende-generasie tegnologie om basis volgordes van nukleiensure te bepaal, word al meer gebruik in metagenomiese studies. Dit is veral weens die hoe data-omset kapasiteit en onbevooroordeelde aanslag in die bepaling van die genetiese samestelling van onbekende omgewingsmonsters. Hierdie studie het die aanwending van die Illumina volgende-generasie volgorde-bepalingsplatform in 'n metagenomiese studie van wingerdvirusse, ondersoek. Dit het ten doel gehad om die eerste volledige virus profiel, of viroom, van 'n geinfekteerde wingerd saam te stel. Blaarmateriaal is verkry vanaf 44 lukraak-gekose wingerdstokke in 'n rolblad-geinfekteerde wingerd in Suid-Afrika. Monster materiaal is saamgevoeg en dubbelstring-RNS geekstraheer. Die dubbelstring-RNS is onderwerp aan gepaarde-ent volgorde-bepaling deur gebruik te maak van die Illumina volgorde-bepaling-deur-sintese tegniek. Meer as 19 miljoen volgorde reekse, ekwivalent aan ongeveer 837 megabasisse volgorde data, is verkry. Van hierdie data kon ongeveer 400 megabasisse saamgevoeg word in 449 konstrukte ("scaffolds"), deur gebruik te maak van die de novo samesteller Velvet. Hierdie konstrukte is onderwerp aan BLAST soektogte teen die NCBI databasisse en die hoogste trefslag-telling is gebruik vir virus identifikasie. Op grond van die "BLAST" resultate is geskikte volgordes geselekteer vanaf die NCBI databasis en gebruik as verwysingvolgordes in MAQ kartering-analises. Met die bioinfomatika analises kon die virus spesies teenwoordig, asook die mees prominente variante en relatiewe voorkoms van elk, bepaal word. Vier bekende virus wingerdpatogene is geidentifiseer. Grapevine leafroll-associated virus 3, verteenwoordig deur 59% van die geanaliseerde kort-reeks volgorde data, is identifiseer as die mees prominente virus spesie. Drie variante van die virus is in die wingerdmonster opgespoor: GP18 kom die mees algemeen voor, gevolg deur 'n CL-766/NY1 variant en 'n potensiele nuwe wingerd rolblad-geassosieerde ampelovirus. 'n Enkele Grapevine rupestris stem pitting-associated virus variant, soortgelyk aan SG1, en 'n Grapevine virus A variant, 'n lid van molekulere groep III, is geidentifiseer. Hierdie studie is ook die eerste om die teenwoordigheid van Grapevine virus E (GVE) in Suid-Afrikaanse wingerde te rapporteer. Grapevine virus E is verder geneties gekarakteriseer en die genoomvolgorde van GVE isolaat SA94 is bepaal. Die GVE SA94 genoomvolgorde, 7568 nukleotiede lank, is die eerste volledige genoomvolgorde vir hierdie virus spesie. Die genoomorganisasie is tipies van vitivirusse, maar in kontras met ander RNA virusse is die AlkB domein binne-in die helikase domein van oopleesraam 1 (ORF 1) geleë. Grapevine virus E SA94 deel byna 100% nukleotied identiteit met die Japannese TvP15 isolaat en GVE 3404, 'n de novo konstruk gegenereer vanaf die metagenomiese volgorde data. Bioinformatika analises van die metagenomiese volgorde data het verder die teenwoordigheid van drie swam-infekterende virus families, die Chrysoviridae, Totiviridae en ongeklassifiseerde dubbelstring-RNS virus, Fusarium graminearum dsRNA mycovirus 4, aangetoon. 'n Virus van die Chrysoviridae familie, soortgelyk aan Penicillium chrysogenum virus, het die tweede meeste voorgekom in die wingerd monster. Hierdie studie demonstreer die suksesvolle toepassing van 'n kort reeks volgorde-bepalingstegnologie soos die Illumina platform, vir die opstel van 'n virusprofiel van 'n geinfekteerde wingerd. Sover ons kennis strek is hierdie die eerste aanwending van die Illumina tegnologie vir hierdie doel.

Metagenomic sequencing

Grapevine virus

Viral profiling

Virome

Dissertations -- Genetics

Theses -- Genetics

Virus diseases of plants

Ontwikkeling van ’n koringkwekery met gestapelde, spesie-verhaalde roesweerstand

Wessels, Elsabet

12 1900

Thesis (MSc (Genetics))--University of Stellenbosch, 2010. / Includes bibliography. / ENGLISH ABSTRACT: Wheat rust is a significant contributor to the total impact of diseases on sustainable wheat production. Genetic resistance, produced by using resistance genes from wheat and other related wild species, is the simplest and most cost-effective way to guard against these diseases. The pyramiding of resistance genes in a single line is a vital practice in bringing about durable resistance. This study aimed to develop a series of doubled haploid (DH) wheat lines containing combination's of wild species genes for rust resistance. Rust resistance genes Lr19 (7BL), Sr31/Lr26/Yr9/Pm8 (1BS) and Lr54/Yr37 (2DL) were combined by means of crossing. Breeders. lines which have complex resistance including Lr24/Sr24 (3DL), Lr34/Yr18 (7D), Sr36 (2BS) and Sr2 (3BS), were used. Marker assisted selection (MAS) was used to type populations for the above mentioned genes. Using the DH method (maize pollination technique), an inbred population was developed from the selected lines, after which the lines were characterised molecularly for the resistance gene translocations which they contain. The study produced 27 lines with diverse genetic profiles. Seven lines contain four translocations (Lr24/Sr24, Lr34/Yr18, Sr2 and Lr19 or Sr31) each, 11 lines contain three genes each, six lines contain two genes each and only three lines contain a single translocation (Lr24/Sr24). The reality that rust pathogens have already overcome three of the resistance genes in the final population . Lr19, Sr31 and Sr24 . is a clear indication of the value of using non-major gene resistance for bringing about durable resistance. The focus should fall ever more greatly upon the application of quantitative trait loci (QTL) for this purpose, which will result in MAS contributing to the development of more durable resistance. The value of the integration of MAS and DH in combination with conventional breeding practices in breeding programmes has already been illustrated internationally for increasing the rate of cultivar development and this is reaffirmed by this study. / AFRIKAANSE OPSOMMING: Koringroes lewer jaarliks .n beduidende bydrae tot die totale impak van siektes wat volhoubare koringverbouing belemmer. Die mees eenvoudige en koste-effektiewe verweer teen hierdie siektes is genetiese weerstand, wat deur weerstandsgene vanaf koring, sowel as wilde verwante spesies, bewerkstellig word. Die stapeling van weerstandsgene in .n enkele lyn word as .n onontbeerlike praktyk om duursame weerstand tot stand te bring, geag. Hierdie studie het ten doel gehad om .n reeks verdubbelde haploiede (VH) koringlyne te ontwikkel wat kombinasies van wilde spesie gene vir roesweerstand bevat. Roesweerstandsgene Lr19 (7BL), Sr31/Lr26/Yr9/Pm8 (1BS) en Lr54/Yr37 (2DL) is deur middel van kruisings gekombineer. Telerslyne wat oor komplekse weerstand beskik wat Lr24/Sr24 (3DL), Lr34/Yr18 (7D), Sr36 (2BS) en Sr2 (3BS) insluit, is gebruik. Merker-bemiddelde seleksie (MBS) is gebruik om populasies vir bogenoemde gene te tipeer. .n Ingeteelde populasie is vanaf die geselekteerde lyne met behulp van die VH metode (mielie-bestuiwing tegniek) ontwikkel, waarna die lyne molekuler vir die weerstandsgeentranslokasies waaroor hul beskik, gekarakteriseer is. Die studie het 27 lyne met diverse genetiese profiele opgelewer. Sewe lyne bevat vier weerstandsgeentranslokasies (Lr24/Sr24, Lr34/Yr18, Sr2 en Lr19 of Sr31) elk, 11 lyne beskik oor kombinasies van drie gene elk, ses bevat twee gene elk en slegs drie lyne beskik oor .n enkele translokasie (Lr24/Sr24). Die realiteit dat die roespatogene reeds drie van die weerstandsgene in die finale populasie . Lr19, Sr31 en Sr24 . oorkom het, benadruk die waarde van die gebruik van nie-hoofgeenweerstand vir die daarstelling van duursame weerstand. Die fokus behoort toenemend meer op die aanwending van kwantitatiewe kenmerk-loci (QTL) vir hierdie doel te val en sal sodoende teweegbring dat MBS bydra tot die ontwikkeling van meer duursame weerstand. Die waarde van die integrasie van MBS en VH in kombinasie met konvensionele telingsmetodiek is reeds internasionaal vir die versnelling van kultivarontwikkeling aangetoon en word ook deur hierdie studie herbevestig.

Gene pyramiding

Marker assisted selection

Doubled haploids

Species genes

Wheat rust

Dissertations -- Genetics

Theses -- Genetics

Verdubbelde haploïede

Stapeling van weerstandsgene

Koringroes -- Weerstand

Transfer of genetic resistance to the Russian wheat aphid from rye to wheat

Horn, Marizanne

03 1900

Thesis (MSc.) -- Stellenbosch University, 1997. / ENGLISH ABSTRACT: An octoploid triticale was derived from the F1 of a Russian wheat aphid resistant rye, 'Turkey 77', and 'Chinese Spring' wheat. The alloploid was crossed (a) to common wheat, and (b) to the 'Imperial' rye to 'Chinese Spring' disomic addition lines. F2 progeny from these crosses were tested for Russian wheat aphid resistance and C-banded. Resistance was found to be associated with chromosome arm 1RS of the 'Turkey 77' rye genome. This initial work was done by MARAIS (1991) who made a RWA resistant, monotelosomic 1RS ('Turkey 77') addition plant available for the study. The F3 progeny of this monotelosomic addition plant was used to confirm the RWA resistance on chromosome 1RS. The monotelosomic addition plant was then crossed with the wheat cultivar 'Gamtoos', which has the 1BL.1 RS 'Veery' translocation. Unlike the 1RS segment in 'Gamtoos', the 'Turkey 77'- derived 1RS telosome did not express the rust resistance genes 5r31 and Lr26 which could then be used as markers. From the F1 a monotelosomic 1RS addition plant that was also heterozygous for the 1BL.1 RS translocation, was selected and testcrossed with an aphid susceptible common wheat, 'Inia 66'. Meiotic pairing between the .rye arms resulted in the recovery of five euploid, Russian wheat aphid resistant plants out of a progeny of 99 euploids. One recombinant also retained 5r31 and Lr26 and was allowed to self pollinate. With the aid of SOS-PAGE profiles, Russian wheat aphid resistant 1BL.1 RS translocation homozygotes were identified and it was possible to confirm that the Russian wheat aphid resistance gene was in fact transferred to the 1BL.1RS ('Veery') translocation. Two attempts were made to map the Russiar, wheat aphid locus or loci. (1) Telosomic mapping was attempted. For this purpose a plant with 2n = 40 + 1BL.1 RS + 1RS was obtained, and testcrossed with a Russian wheat aphid susceptible wheat. (2) A disomic, recombined 1BL.1 RS translocation line with Russian wheat aphid resistance but lacking the Lr26 and Sr31 alleles was crossed with 'Gamtoos' and the F1 testcrossed. The testcross in both strategies were done with 'Chinese Spring'. In the first experiment the Sr31 locus was located 10.42 map units from the Lr26 locus. The rust resistance data implied that the genetic distance estimates may be unreliable and therefore the laborious Russian wheat aphid resistance tests were not done. In the second experiment a Russian wheat aphid resistance gene was located 14.5 map units from the Lr26 locus. In the latter cross nonmendel ian segregation of the Russian wheat aphid resistance evidently occurred which implied that the estimated map distance may be inaccurate. It was also not possible to determine the number of genes involved from the data. / Digitized at 300 dpi Colour & b/W PDF format (OCR), using ,KODAK i 1220 PLUS scanner. Digitised, Ricardo Davids on request from ILL 25 April 2013 / AFRIKAANSE OPSOMMING: 'n Oktaplo"lede triticale is gemaak vanaf die F1 van 'n kruising tussen 'n Russiese koringluis-weerstandbiedende rog, 'Turkey 77', en die koringkultivar 'Chinese Spring'. Die alloplo"led is gekruis met gewone broodkoring en met 'Imperial' rog/'Chinese Spring' disomiese addissielyne. Die F2 nageslag vanaf hierdie kruisings is getoets vir Russiese koringluisweerstandbiedendheid en C-bande is ook gedoen. Weerstand is gevind wat geassosieer is met die 1RS chromosoomarm van 'Turkey 77'. Hierdie oorspronklike werk is deur MARAIS (1991) gedoen en uit sy materiaal is 'n monotelosomiese 1RS ('Turkey 77') addissieplant beskikbaar gestel vir die huidige studie. Die F3 nageslag van hierdie monotelosomiese addissieplant is gebruik om die weerstand teen die Russiese koringluis op chromosoom 1RS te bevestig. Die monotelosomiese addissieplant is ook gekruis met die koringkultivar 'Gamtoos' wat die 1BL.1 RS-translokasie dra. Hoewel die 1RS segment van 'Gamtoos' die roesweerstandsgene, Sr31 en Lr26 uitdruk, is dit nie die geval met die 'Turkey 77' 1RS telosoom nie. Hierdie gene kon dus as merkergene gebruik word. Vanuit die F1 is 'n monotelosomiese 1RS addissieplant geselekteer wat ook heterosigoties was vir die 1BL.1 RStranslokasie. Hierdie plant is getoetskruis met 'n luisvatbare gewone broodkoring, 'Inia 66'. Meiotiese paring tussen die rogarms het daartoe gelei dat vyf euplo"lede Russiese koringluis-weerstandbiedende nageslag uit 99 euplo"lede nageslag geselekteer kon word. Een rekombinant het ook Sr31 en Lr26 behou en is toegelaat om self te bestuif. Met behulp van SDSPAGE profiele is Russiese koringluis-weerstandbiedende 1BL.1 RStranslokasie homosigote ge"ldentifiseer en kon bevestig word dat die weerstandsgeen vir die Russiese koringluis oorgedra is na die 1BL.1 RS ('Veery') -translokasie. Twee strategies is gevolg om die Russiese koringluislokus of -loci te karteer: (1) 'n Telosomiese analise is gedoen. 'n Plant met 2n = 40 + 1BL.1 RS + 1RS is verkry en met 'n luisvatbare koring bestuif. (2) 'n Gerekombineerde, disomiese plant met Russiese koringluis-weerstandbiedendheid maar sonder die Lr26 en Sr31 allele is gekruis met 'Gamtoos' en die F1 getoetskruis. Die toetskruisouer in beide die strategiee was 'Chinese Spring'. In die eerste eksperiment is die Sr31-lokus 10.42 kaarteenhede vanaf die Lr26-lokus gelokaliseer. Die raesdata het ge"impliseer dat onbetraubare genetiese kaarteenhede geskat sou word en daarom is die omslagtige Russiese koringluis weerstandsbepalings nie gedoen nie. In die tweede eksperiment is die Russiese koringluis-weerstandsgeen op 14.5 kaarteenhede vanaf die Lr26-lokus gelokaliseer. Nie-Mendeliese segregasie van die Russiese koringluis-weerstand in hierdie karteringseksperiment het ge'impliseer dat die berekende kaartafstand onakkuraat mag wees. Dit was ook nie moontlik om op grand van die data die aantal gene betrakke af te lei nie.

Russian wheat aphid

Wheat -- Breeding

Rye -- Breeding

Dissertations -- Genetics

Theses -- Genetics

An evaluation of the efficacy of antimicrobial peptides against grapevine pathogens

Visser, Marike

03 1900

Thesis (MSc (Genetics))--University of Stellenbosch, 2011. / Includes bibliography / ENGLISH ABSTRACT: This study investigated the use of antimicrobial peptides (AMPs) as possible source of resistance against a range of pathogens in grapevine. Whilst the ultimate aim would be to express AMPs in grapevine, the development of transgenic grapevine is time consuming and therefore pre-screening of potential AMPs is necessary. These small molecules, of less than 50 amino acids in length, are expressed by almost all organisms as part of their non-specific defence system. In vitro pre-screening of AMP activity is valuable but is limited since the activity on artificial media may differ from the AMP activity in planta. These tests are also restricted to pathogens which can be cultured in vitro. These limitations can be overcome by using transient expression systems to determine the in planta activity of AMPs against pathogens of interest. In this study transient systems were used to express AMPs in developed plant tissue to test their efficacy against grapevine pathogens such as Agrobacterium vitis, Xylophilus ampelinus and aster yellows phytoplasma. Aster yellows phytoplasma, which was recently discovered in local vineyards, is known to cause extensive damage and therefore pose a great threat to the South African grapevine industry. To study the in planta effect of AMPs against the abovementioned pathogens, transient expression vectors were constructed expressing either of the AMPs D4E1 or Vv-AMP1. D4E1 is a synthetically designed AMP known to be active against bacteria and fungi, while Vv-AMP1, isolated from grapevine berries, has already shown activity against fungi. In a transient approach in grapevine, the expression of foreign genes from viral and non-viral vectors was confirmed by expression of the marker genes β-glucuronidase and Green Fluorescent Protein, while tissue-printing immunoassays confirmed viral replication and systemic spread in Nicotiana benthamiana. The viral vectors were based on the phloem-limited virus grapevine virus A. Only Agrobacterium-mediated 35S transient expression vectors were used for AMP in planta activity screening since the viral-mediated expression in grapevine was insufficient for screening against A. vitis and X. ampelinus as it was restricted to phloem tissues after whole-leaf infiltration. No phytoplasma-infected material could be established and as a result AMP activity screening was only performed against the A. vitis and X. ampelinus. Quantification of the bacteria was performed by qPCR. Vv-AMP1 did not show activity against either of the two bacteria in planta while D4E1 was found to be active against both. The observed in planta activity of D4E1 correlated with the in vitro activity as measured in an AMP plate bioassay. In contrast to in vitro screenings, the in planta AMP activity screening might give a more accurate representation of the potential antimicrobial activity of the peptide in a transgenic plant environment. This study proved that transient expression systems can be used as a pre-screening method of AMP activity in planta against grapevine pathogens, allowing the screening of various AMPs in a relatively short period of time before committing to transgenic grapevine development. / AFRIKAANSE OPSOMMING: Hierdie studie het die gebruik van antimikrobiese peptiede (AMPe) as 'n moontlik bron van weerstand teen 'n reeks van patogene in wingerd ondersoek. Alhoewel die uiteindelike doel sal wees om AMPe uit te druk in wingerd, is transgeniese wingerd ontwikkeling tydrowend en daarom is vooraf evaluering van potensiële AMPe nodig. Hierdie klein molekules, van minder as 50 aminosure in lengte, word uitgedruk deur amper alle organismes as deel van hul nie-spesifieke verdedigingsisteem. In vitro vooraf evaluering van AMP aktiwiteit is van waarde, maar is beperk aangesien die aktiwiteit op kunsmatige media mag verskil van die AMP-aktiwiteit in planta. Hierdie toetse is ook beperk tot patogene wat in vitro gekweek kan word. Hierdie beperkinge kan oorkom word deur gebruik te maak van tydelike uitdrukkingsisteme om die in planta aktiwiteit van AMPe te bepaal teen patogene van belang. In hierdie studie is tydelike uitdrukkingsisteme gebruik om AMPe uit te druk in ontwikkelde plantweefsel om hul effektiwiteite te toets teen wingerdpatogene soos Agrobacterium vitis, Xylophilus ampelinus en aster yellows fitoplasma. Aster yellows fitoplasmas, wat onlangs in plaaslike wingerde ontdek is, is bekend vir die uitgebreide skade wat hul aanrig en hou daarom 'n groot bedreiging in vir die Suid-Afrikaanse wingerd industrie. Om die in planta effek van AMPe teen die bogenoemde patogene te bestudeer is tydelike uitdrukkingsvektore ontwikkel wat die AMPe D4E1 of Vv-AMP1 uitdruk. D4E1 is 'n sinteties-ontwerpte AMP wat aktief is teen bakterieë en fungi, terwyl Vv-AMP1, wat uit druiwekorrels geïsoleer is, alreeds aktiwiteit teen fungi getoon het. In 'n tydelike uitdrukkingsbenadering in wingerd is die uitdrukking van transgene, vanaf virus of nie-virus gebaseerde vektore, bevestig deur die uitdrukking van die merker gene β-glukuronidase en die Groen Fluoresserende Proteïen, terwyl weefsel afdrukkings-immunotoetse virus replisering en sistemiese beweging in Nicotiana benthamiana bevestig het. Die virusvektore was gebaseer op die floëem-beperkte virus, wingerdvirus A. Slegs Agrobacterium-bemiddelde 35S tydelike uitdrukkingsvektore is gebruik om die AMP in planta aktiwiteit te bepaal aangesien die virus-bemiddelde uitdrukking in wingerd onvoldoende was vir evaluering teen A. vitis en X. ampelinus weens die beperking tot die floëem weefsel na infiltrering van die totale blaar. Geen fitoplasma geïnfekteerde materiaal kon gevestig word nie, en daarom is AMP aktiwiteitsevaluering slegs teen A. vitis en X. ampelinus uitgevoer. Kwantifisering van die bakterieë is deur middel van qPCR uitgevoer. Vv-AMP1 het geen aktiwiteit getoon teen enige van die bakterieë in planta nie, terwyl D4E1 aktief was teen beide. Die waargenome in planta aktiwiteit van D4E1 het ooreengestem met die in vitro aktiwiteit soos bepaal deur 'n AMP plaat bio-toets. In kontras tot in vitro evaluering kan die in planta AMP-aktiwiteit evaluering 'n meer akkurate voorspelling bied van die potensiële antimikrobiese aktiwiteite van die peptied in 'n transgeniese plant omgewing. Hierdie studie het bewys dat tydelike uitdrukkingsisteme gebruik kan word as 'n voorafgaande evalueringsmetode vir AMP in planta aktiwiteit teen wingerdpatogene, wat die evaluering van 'n verskeidenheid AMPe in 'n relatiewe kort tydperk toelaat voor verbintenis tot die ontwikkeling van transgeniese wingerd.

Antimicrobial peptides

Transient expression

Viral vectors

Phytoplasma

Agrobacterium vitis

Xylophilus ampelinus

Dissertations -- Genetics

Theses -- Genetics

Phytopathogenic microorganisms

Identification and characterisation of grapevine leafroll-associated virus 3 genomic and subgenomic RNAs

Maree, Hans Jacob

12 1900

Thesis (PhD (Genetics))--University of Stellenbosch, 2010. / Includes bibliography. / Title page: Dept. of Genetics, Faculty of Science / ENGLISH ABSTRACT: Grapevine leafroll-associated virus 3 (GLRaV-3) is the type strain for the genus Ampelovirus, family Closteroviridae. There has been only one report that claimed the complete nucleotide sequence of GLRaV-3 (isolate NY-1, AF037268). Here we report the complete sequence of the South African GLRaV-3, isolate GP18 (EU259806) and show a significantly extended 5’ end. We used RLM-RACE to determine the 5’ end of GP18 and found the 5’ UTR to be 737 nt compared to 158 nt in the NY-1 sequence. This extended UTR was found in all other South African isolates of GLRaV-3 that were tested. In two collaborative studies the existence of the extended 5’ UTR was confirmed and further investigated. In the first study (Coetzee et al., 2010), metagenomic data generated by next generation sequencing (Illumina Genome Analyzer II) was analysed for GLRaV-3 specific sequences. Sequences similar to the GP18 isolate confirmed the sequence of the extended 5’ UTR. In the second study (Jooste et al., 2010), three genetic variants were identified and their respective 5’ UTRs studied. Great diversity was observed between the 5’ UTRs of the different genetic variants, however within a variant the 5’ UTR was found to be highly conserved. Grapevine leafroll-associated virus 3 is a positive sense, single stranded RNA virus that has been shown, like other closteroviruses, to produce subgenomic (sg) RNAs during replication. These sgRNAs are deployed for the expression of the ORFs on the 3’ half of the genome. In this study a dsRNA blot confirmed the presence of three, 3’ coterminal sgRNAs species [sgRNA(ORF3/4), sgRNA(ORF5) and sgRNA(ORF6)] in GLRaV-3-infected plant material when using a probe directed at the coat protein gene. The specific 5’ terminal nucleotides for these sgRNAs as well as four additional sgRNAs [sgRNA(ORF7), sgRNA(ORF8), sgRNA(ORF9) and sgRNA(ORF10-12)] were determined by RLM-RACE for GLRaV-3 isolate GP18. The construction of a GLRaV-3 mini-replicon, analogous to RNA1 of Lettuce infectious yellows virus, for the evaluation of putative sg-promoters is also described. / AFRIKAANSE OPSOMMING: Grapevine leafroll-associated virus 3 (GLRaV-3) is ‘n lid van die Closteroviridae familie en die hooflid vir die genus Ampelovirus. Tot dusver was daar net een studie wat die volledige nukleïensuurvolgorde van GLRaV-3 gerapporteer het (isolaat NY-1, AF037268). In hierdie studie rapporteer ons die volledige volgorde van ‘n Suid-Afrikaanse GLRaV-3, isolaat nl. GP18 (EU259806) wat noemenswaardig langer is aan die 5’ kant. RLM-RACE is gebruik om die 5’ eindpunt van GP18 te bepaal en daar is gevind dat die 5’ ongetransleerde streek (UTR) 737 nt lank is in vergelyking met die 158 nt van die NY-1 volgorde. Die verlengde 5’ UTR is gevind in alle Suid-Afrikaanse monsters wat getoets is. Die verlengde 5’ UTR is bevestig en verder bestudeer tydens twee samewerkingsprojekte. In die eerste studie (Coetzee et al., 2010), is metagenomiese data gegenereer deur volgende-generasie volgordebepaling (Illumina Genome Analyzer II) en geanaliseer vir GLRaV-3 spesifieke volgordes. Volgordes soortgelyk aan die GP18 isolaat het die verlengde 5’ UTR volgorde bevestig. In die tweede studie (Jooste et al., 2010), is drie genetiese variante van GLRaV-3 geidentifiseer en hulle onderskeie 5’ UTR volgordes bepaal en bestudeer. Daar is groot diversiteit tussen die 5’ UTRs van die verskillende genetiese variante gevind, maar tussen isolate van dieselfde variant is die volgordes gekonserveerd. Grapevine leafroll-associated virus 3 is ‘n positiewe-sin, enkelstring RNA virus wat al voorheen bewys is om, soos ander closterovirusse, subgenomiese (sg) RNAs te produseer tydens replisering. Hierdie sgRNAs word ingespan vir die uitdrukking van die ORFs op die 3’ helfte van die virusgenoom. In hierdie studie is ‘n dsRNA klad gebruik om die voorkoms van 3’ ko-terminale sgRNAs [sgRNA(ORF3/4), sgRNA(ORF5) and sgRNA(ORF6)] te bevestig in GLRaV-3 geinfekteerde plantmateriaal deur gebruik te maak van ‘n peiler teen die kapsiedproteïengeen. Die spesifieke 5’ terminale nukleotiedes vir hierdie sgRNAs sowel as vier additionele sgRNAs [sgRNA(ORF7), sgRNA(ORF8), sgRNA(ORF9) and sgRNA(ORF10-12)] is bepaal deur gebruik te maak van RLM-RACE op die GLRaV-3 isolaat GP18. Die konstruksie van ‘n GLRaV-3 mini-repliserings konstruk, analoog aan die RNA1 van Lettuce infectious yellows virus, vir die evaluasie van moontlike sg-promotors word ook beskryf.

Grapevine leafroll-associated virus 3

Subgenomic ribose nucleic acid

Ampelovirus

Dissertations -- Genetics

Theses -- Genetics

Grapes -- Diseases and pests

Grapevine leafroll virus

Virus diseases of plants