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Molecular genetic study of wheat rusts affecting cereal production in the Western CapeLe Maitre, Nicholas Carlyle 03 1900 (has links)
Thesis (MSc (Genetics))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: Microsatellites were used to differentiate Leaf (Puccinia triticina Eriks.) and Yellow rust (Puccinia striiformis Westend. f. sp. tritici Eriks.) pathotypes. There was sufficient diversity in the Leaf rust microsatellite markers to differentiate the pathotypes and create a phylogenetic tree of Leaf rust. Three of the microsatellite markers were sufficient to differentiate all the Leaf rust pathotypes. Sufficient diversity in the Yellow rust microsatellite markers was also observed which made it possible to differentiate the pathotypes. Only three pathotypes were used so no phylogenetic inference was made. Two microsatellite markers were sufficient to differentiate all the yellow rust pathotypes.
Microsatellite and Amplified Fragment Length Polymorphisms (AFLP) markers were used to differentiate Stem rust (Puccinia graminis f. sp. tritici Eriks. and Henn.) pathotypes, and the data was combined for phylogenetic analysis. AFLP bands unique to each Stem rust pathotype were converted to Sequence Characterised Amplified Region (SCAR) markers. A single specific SCAR marker was created for UVPgt52. A second SCAR marker amplified four of the eight pathotypes. None of the other SCAR markers were specific.
A 270 basepair fragment of the ITS1 region of the rDNA gene of all the Puccinia spp. was also sequenced in order to develop pathotype specific primers that could be used in a Real Time-PCR to determine relative levels of pathogen inoculum in a sample. Unfortunately insufficient diversity in the sequences of the ITS1 region of the rDNA gene did not allow unique primers to be designed for each pathotype making it impossible to proceed with the relative quantification using Real Time-PCR.
Following marker development ninety one field isolates were collected from eleven sites in the Overberg and Swartland regions during 2008 and 2009. In the field isolates, four different Leaf rust pathotypes were identifiable. UVPgt13 and UVPgt10 were most prevalent. The most prevalent Stem rust pathotypes were UVPgt50, UVPgt52, UVPgt54 and UVPgt57. Only 6E16A- was identifiable in the Yellow rust isolates.
There were no apparent patterns in the distribution of Leaf, Stem or Yellow rust. Leaf and Stem rust were widely distributed, while Yellow rust was confined to three sites in the central South Cape, the only sites where climatic conditions were favourable for its development during the sampling period. The low levels of diversity found in the rust population when compared to international populations are probably due to the relatively small population size, the lack of a host for sexual reproduction, the small sample size, the effective monoculture and the strong selective pressure created by artificial control methods. / AFRIKAANSE OPSOMMING: Mikrosatellietmerkers is gebruik om Blaar- (Puccinia triticina Eriks.) en Geelroes-( Puccinia striiformis Westend. f. sp. tritici Eriks.) patotipes te onderskei. Daar was genoeg diversiteit in die Blaarroesmerkers om verskillende patotipes te kon onderskei en om „n filogenetiese-boom te kon saamstel. Met drie van die mikrosatellietmerkers was dit moontlik om al die Blaarroespatotipes te kon onderskei. Daar was genoeg diversiteit in die Geelroesmerkers om al die patotipes te kon skei en met twee van die mikrosatellietmerkers kon al drie Geelroespatotipes van mekaar onderskei word.
Mikrosatelliet- en ge-Amplifiseerde-Fragment-Lengte-Polimorfismes (AFLP) is gebruik om die Stamroes- (Puccinia graminis f. sp. tritici Eriks. and Henn.) patotipes te skei. AFLP-fragmente uniek aan „n spesifieke patotipe is omgeskakel na Volgorde-Spesifieke-ge-Amplifiseerde-Streek (SCAR) merkers. „n Spesifieke SCAR-merker is gemaak vir UVPgt52. „n Tweede SCAR-merker het vier van die patotipes geidentifiseer. Nie een van die ander SCAR-merkers was spesifiek t.o.v. „n spesifieke patotipe nie.
Die volgorde van „n 270 basispaar fragment van die ITS1-streek van die rDNS-geen van al die Puccinia spp. is bepaal om patotipe spesifieke inleiers te kon ontwerp. Hierdie inleiers kan gebruik word om „n Intydse-Polimerase-Ketting-Reaksie (RT-PCR) te ontwerp om sodoende die relatiewe vlakke van die patogeen besmetting in „n monster te bepaal. Daar was nie genoeg diversiteit in die bepaalde volgordes om die spes1fieke inleiers te kon identifiseer nie en dus is RT-PCR laat vaar.
Na die ontwikkeling van die merkers was een-en-negentig veldmonsters ingesamel afkomstig van elf lokaliteite in die Overberg en Swartland gedurende 2008 en 2009. Vier Blaarroespatotipes was uitkenbaar. Blaarroespatotipes UVPrt10 en UVPrt13 was die mees algemeenste. UVPgt50, UVPgt52, UVPgt54 en UVPgt57 was die mees algemene Stamroespatotipes. Net 6E16A- is geidentifiseer by die Geelroes-isolate.
Daar was geen patroon in die verspreiding van Blaar-, Stam- of Geelroes patotipes. Blaar- en Stamroes was die wydste versprei, maar Geelroes het net by drie lokale in die sentrale Suid-Kaap voorgekom. Die lokaliteite is die enigste waar die weersomstandighede gunstig was vir Geelroes ontwikkeling gedurende die periode van monsterneming. Die lae vlakke van diversiteit wat in die roespopulasie gevind was is in teenstelling met internasionale populasies. Dit mag moontlik wees as gevolg van die relatief beperkte populasie grootte, die afwesigheid van „n gasheer vir seksuele voortplanting, die beperkte hoeveelheid monsters wat ingesamel is en die sterk selektiewe druk weens kunsmatige beheer.
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The application of potassium phosphate primes wheat against aphid infestationSibisi, Phumzile Pretty 08 October 2014 (has links)
M.Sc. (Botany) / Wheat is the second most important grain crop produced in South Africa. It is mostly used for human consumption (e.g. biscuits, rusks, breakfast cereals, and bread) with the remainder being used as seed and animal feed. Wheat is also used for production of alcohol for ethanol, absorbing agents for adhesives, disposable diapers and industrial uses as starch on coatings (Department of Agriculture, Forestry and Fisheries, 2011). The leading wheat producing areas in South Africa since 1994 are the Western Cape (38 %), Free State (26 %) and Northern Cape (17 %) (Department of Agriculture, Forestry and Fisheries, 2011). There are two main classes of cultivated wheat, these are durum wheat (Triticum durum) that contributes 5 % and common or bread wheat (Triticum aestivum L.), which contribute 95 % of the world wheat production (Kiplagat, 2005). One of the major threats to wheat production in South Africa and other countries is the Russian wheat aphid (RWA), (Kurdjumov), (Diuraphis noxia, Hemiptera: Aphididae) (Brooks et al., 1994). In South Africa, the Russian wheat aphid was reported as a pest of wheat in 1978 in the Eastern Free State (Walters, 1980). In the beginning of the 1979 season, it was detected only in the Eastern Free State, but quickly spread to the Western Free State and parts of Lesotho. Infestations were also isolated in some areas of KwaZulu-Natal, North West and Gauteng Province (Walters et al., 1980). Aphids are soft bodied insects and are the most economically important phloem feeders impacting on plants (Dixon, 1985; Klingler et al., 2009). Aphids damage plants in four ways. Firstly, they ingest vital plant metabolites including large volumes of translocated sugars from the phloem sap, diverting energy from the plant and reducing yield. Secondly, they secrete saliva into the plant tissues while probing the layers of leaf to find the phloem, in some instances the secreted saliva is thought to be phytotoxic (Dedryver et al., 2010). The physical damage done to the leaf along with the toxic attributes of the saliva leads to localized necrosis in some aphid plant interactions (Klingler et al., 2009). Thirdly, aphids act as virus vectors and they can be transmitted in a non-circulative or circulative manner (Chen et al., 2012).
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Factors affecting the resistance mechanisms of the Russian wheat aphid (Diuraphis noxia) on wheatBahlmann, Lieschen 06 October 2005 (has links)
Please read the abstract in the section 07chapter7. / Dissertation (MSc (Genetics))--University of Pretoria, 2002. / Genetics / unrestricted
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