Controlling Tobacco Mosaic Virus in Tobacco through Resistance

Bagley, Christopher A.

17 January 2002

Tobacco mosaic virus (TMV) infects all classes of tobacco (Nicotiana tabacum L.) and causes losses worldwide. The N gene is the most effective means of controlling TMV; however, this gene is associated with reduced yield and quality in flue-cured tobacco. The mode of inheritance of TMV resistance was determined in two tobacco introductions (TI) from N. tabacum germplasm, both of which produced a hypersensitive response when inoculated with TMV. Inheritance studies with TI 1504 and TI 1473 indicate that a single dominant gene controls resistance. The gene governing resistance in TI 1504 is allelic to the N gene in NC 567. The gene providing resistance in TI 1473 is not allelic to the N gene, providing a potentially new source of resistance. Currently, plant breeders must rely on the N gene. The N gene is used in the heterozygous state to help overcome poor agronomic effects associated with homozygous resistance; however, systemic movement of TMV is occasionally seen in resistant plants. A TMV susceptible inbred (K 326), a resistant inbred (NC 567), and three resistant hybrids (NC 297, RGH4, and Speight H2O) were inoculated with TMV at transplanting, layby, and topping using different inoculation methods. Plant parts were tested for viral presence and biological activity. Viral movement into all plant parts was observed in K 326. No systemic movement was evident in the plant parts of NC 567, while virus did move into the corollas, pistils, late season sucker growth, and roots of the resistant hybrids showing systemic necrosis. / Master of Science

virus movement

germplasm

N gene

The Utilization of the Hmg2 Inducible Promoter to Genetically Engineer Parasite Resistance in Tobacco

Winston, Eugenia Michele

25 April 2003

The cyst nematode, Globodera tabacum tabacum Behrens, and the parasitic angiosperm, Egyptian broomrape, Orobanche aegyptiaca Pers., are obligate root parasites that cause severe yield and quality loss of many important crop hosts. Although these represent two diverse classes of parasites, they have significant similarities in the modes of parasitism and complex interactions with their hosts. Conventional control methods have had limited success in controlling these parasites. The overall objective of this research was to engineer resistance to the cyst nematode and Egyptian broomrape by expressing genes encoding parasite specific toxins under the control of parasite-responsive promoters using tobacco (Nicotiana tabacum L. cv. Xanthi). For nematode resistance, an anti-feeding strategy was employed utilizing the tomato proteinase inhibitor I (PI-I) gene as a nematode specific toxin. Transgenic tobacco plants were generated that expressed genes encoding an intracellarly retained or secreted form of tomato PI-I under the control of the nematode-inducible promoter, derived from tomato (Lycopersicon esculentum L.) Hmg2 gene. Our goals were to determine the effectiveness of local PI-I expression on nematode resistance and to determine if intracellular or extracellular PI-I deposition enhances resistance. Two constructs were generated that contained either the coding region of the tomato PI-I gene, lacking the signal sequence (EM1), or the coding region of PI-I including the signal sequence (EM2), fused to the nematode-responsive Hmg2 promoter. Transgenic PI-I plants were inoculated with G. t. tabacum cysts and evaluated for nematode interactions. Our results suggest that local expression of intercellular of PI-I significantly reduced cyst production when compared to the nontransformed controls. For broomrape resistance, a well characterized R/avr gene pair, the tobacco N resistance gene and the tobacco mosaic virus replicase (TMV) gene, was utilized to create novel gene-for-gene resistance via a N gene-mediated hypersensitive response (HR) to limit broomrape parasitism. The bean (Phaselous vulgaris L.) chalcone synthase 8 (CHS8) promoter has been characterized as a broomrape–responsive promoter. We introduced the CHS8:TMV replicase gene construct into tobacco plants that contains an endogenous N gene. Transgenic tobacco plants were inoculated with O. aegyptiaca seeds and monitored for parasite attachment and development. The expression of the TMV replicase leads to a significant reduction in broomrape parasitism. These genetic engineering strategies show promise in enhancing resistance to these destructive parasites. / Ph. D.

tobacco N gene

Hmg2 promoter

proteinase inhibitors

cyst nematode

Orobanche aegyptiaca

Desenvolvimento de marcador molecular para resistência a Tobacco mosaic virus e herança da resistência a Meloidogyne incognita raça 3 em tabaco / Development of molecular marker for resistance to Tobacco mosaic virus and heredity of resistance to Meloidogyne incognita race 3 in tobacco

Dalla Valle, Raphaelle Komatsu

05 September 2008

Este projeto objetivou desenvolver um marcador molecular ligado ao gene de resistência a Tobacco mosaic virus (TMV), em vista da necessidade de aprimorar os métodos de melhoramento de plantas para atender crescentes demandas de produtividade. O outro objetivo deste trabalho foi a avaliação de uma população segregante F2 e de retrocruzamento (RC1F1) a Meloidogyne incognita raça 3, oriunda do cruzamento das cultivares comerciais Coker 176 (C176) e Coker 371 Gold (C371G). Para o desenvolvimento do marcador ligado ao gene de resistência a TMV, o gene N, foram desenvolvidos iniciadores específicos para regiões conservadas (TIR, NBS e LRR) deste gene com base em sua seqüência. Estes iniciadores foram utilizados para amplificar um marcador cuja ligação ao referido gene foi confirmada em 200 indivíduos de população segregante F2 oriunda do cruzamento entre uma linhagem resistente (Coker176) e outra suscetível ao vírus (Kentucky326). A proporção entre o número de plantas resistentes e suscetíveis (154:46) não diferiu estatisticamente daquela esperada no caso de segregação de um gene dominante de resistência, que seria de 3:1. Os resultados indicaram que o marcador e o gene estão proximamente ligados segundo taxa de recombinação, que foi de 1%. Na avaliação da hereditariedade a M.incognita utilizou-se 141 indivíduos da população segregante F2 oriunda do cruzamento entre uma linhagem resistente (Coker176) e suscetível (Coker 371G) e 138 indivíduos de RC1F1 ([C176 X C371G] X C371G). Os resultados obtidos entre a proporção entre o número de plantas resistentes e suscetíveis da população F2 (102:39) e da RC1F1 (67:71) não diferiu estatisticamente daquela esperada no caso de segregação de um gene dominante de resistência. / The aim of this study is to develop a molecular marker linked to the resistant gene to Tobacco mosaic virus (TMV) considering the necessity to improve plant breeding to meet growing demands of productivity. The other goal of this study is to evaluate the mode of inheritance of an F2 segregating population and backcross (BCF1) population of Meloidogyne incognita race 3 originated from cross breeding between commercial cultivars Coker 176 and Coker 371 Gold. For the development of the marker linked to the TMV resistant gene, the N gene, specific primers of this gene were developed for conserved regions (TIR, NBS and LRR) based on their sequence. These primers were used to amplify a marker whose connection with the aforementioned gene was confirmed in 200 individuals in a segregating F2 population originated from the cross breeding between a resistant cultivar (Coker176) and another cultivar which is susceptible to the virus (Kentucky326). The proportion between the number of resistant and susceptible plants (154:46) did not statistically differ from the one expected in the segregation of one dominant resistance, which would be a 3:1 segregation ratio. The results indicated that the marker and the gene are narrowly linked according to recombination ratio 1%. In the heredity evaluation of resistance to M.incognita 141 plants of the segregating F2 population originated from the cross breeding of a resistant (Coker176) and susceptible cultivar (Coker 371G) and 138 plants of backcross BC1F1 ([C176 X C371G) X C3371G) were used. The outcome of the proportion between the number of resistant and susceptible plants of segregating F2 (102:39) and BC1F1 population (67:71) were not statistically different from the ones expected for a monogenic dominant resistance.

Fumo

LRR

Marcador molecular

N gene

Nematóides

Perfect marker

Resistência genética vegetal

Root-knot nematode.

Tobacco

Vírus de plantas.

Desenvolvimento de marcador molecular para resistência a Tobacco mosaic virus e herança da resistência a Meloidogyne incognita raça 3 em tabaco / Development of molecular marker for resistance to Tobacco mosaic virus and heredity of resistance to Meloidogyne incognita race 3 in tobacco

Raphaelle Komatsu Dalla Valle

05 September 2008

Este projeto objetivou desenvolver um marcador molecular ligado ao gene de resistência a Tobacco mosaic virus (TMV), em vista da necessidade de aprimorar os métodos de melhoramento de plantas para atender crescentes demandas de produtividade. O outro objetivo deste trabalho foi a avaliação de uma população segregante F2 e de retrocruzamento (RC1F1) a Meloidogyne incognita raça 3, oriunda do cruzamento das cultivares comerciais Coker 176 (C176) e Coker 371 Gold (C371G). Para o desenvolvimento do marcador ligado ao gene de resistência a TMV, o gene N, foram desenvolvidos iniciadores específicos para regiões conservadas (TIR, NBS e LRR) deste gene com base em sua seqüência. Estes iniciadores foram utilizados para amplificar um marcador cuja ligação ao referido gene foi confirmada em 200 indivíduos de população segregante F2 oriunda do cruzamento entre uma linhagem resistente (Coker176) e outra suscetível ao vírus (Kentucky326). A proporção entre o número de plantas resistentes e suscetíveis (154:46) não diferiu estatisticamente daquela esperada no caso de segregação de um gene dominante de resistência, que seria de 3:1. Os resultados indicaram que o marcador e o gene estão proximamente ligados segundo taxa de recombinação, que foi de 1%. Na avaliação da hereditariedade a M.incognita utilizou-se 141 indivíduos da população segregante F2 oriunda do cruzamento entre uma linhagem resistente (Coker176) e suscetível (Coker 371G) e 138 indivíduos de RC1F1 ([C176 X C371G] X C371G). Os resultados obtidos entre a proporção entre o número de plantas resistentes e suscetíveis da população F2 (102:39) e da RC1F1 (67:71) não diferiu estatisticamente daquela esperada no caso de segregação de um gene dominante de resistência. / The aim of this study is to develop a molecular marker linked to the resistant gene to Tobacco mosaic virus (TMV) considering the necessity to improve plant breeding to meet growing demands of productivity. The other goal of this study is to evaluate the mode of inheritance of an F2 segregating population and backcross (BCF1) population of Meloidogyne incognita race 3 originated from cross breeding between commercial cultivars Coker 176 and Coker 371 Gold. For the development of the marker linked to the TMV resistant gene, the N gene, specific primers of this gene were developed for conserved regions (TIR, NBS and LRR) based on their sequence. These primers were used to amplify a marker whose connection with the aforementioned gene was confirmed in 200 individuals in a segregating F2 population originated from the cross breeding between a resistant cultivar (Coker176) and another cultivar which is susceptible to the virus (Kentucky326). The proportion between the number of resistant and susceptible plants (154:46) did not statistically differ from the one expected in the segregation of one dominant resistance, which would be a 3:1 segregation ratio. The results indicated that the marker and the gene are narrowly linked according to recombination ratio 1%. In the heredity evaluation of resistance to M.incognita 141 plants of the segregating F2 population originated from the cross breeding of a resistant (Coker176) and susceptible cultivar (Coker 371G) and 138 plants of backcross BC1F1 ([C176 X C371G) X C3371G) were used. The outcome of the proportion between the number of resistant and susceptible plants of segregating F2 (102:39) and BC1F1 population (67:71) were not statistically different from the ones expected for a monogenic dominant resistance.

Fumo

Marcador molecular

Nematóides

Resistência genética vegetal

Vírus de plantas.

LRR

N gene

Perfect marker

Root-knot nematode.

Tobacco