Browsing by Author "Balasingam, Godwin"
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- ItemPurification, characterization and cDNA cloning of two filamentous viruses from Nerine : a thesis presented in partial fulfilment of the requirements for the degree of Doctor of Philosophy at Massey University, Palmerston North, New Zealand(Massey University, 1989) Balasingam, GodwinVirus-like symptoms were evident in many of the clonally mass propagated lines of the bulbous ornamental Nerine, cultivated in New Zealand for cut flower and bulb production Although filamentous virus particles were common in electron microscope investigation of Nerine tissue, cucumber mosaic virus Was the only virus mechanically transmitted to herbaceous indicators. Two of the filamentous viruses from Nerine which were not amenable to mechanical transmission were purified from fieldinfected Nerine tissue, characterized and cDNA cloned in this study. An isolate of nerine virus X (NeVX), a potexvirus, was purified from Nerine fothergilli 'Major' leaf tissue showing no virus-like symptoms. An isolate of a hitherto unnamed and uncharacterized potyvirus was purified from clonally mass propagated Nerine sarniensis hybrid leaf tissue showing severe yellow mosaic symptoms prior to senescence. Nerine virus Y (NeVY) is the name proposed for this potyvirus. The NeVX isolate was a slightly flexuous filamentous particle with a normal length of 540nm. The molecular weight of the single coat protein subunit was 29.5kd and the size of the genomic RNA was 6.3kb. The NeVX RNA in vitro translation profile resembled those of the potexviruses potato virus X and daphne virus X with a major 180kd nonstructural protein band and a number of minor bands without a viral coat protein band. Double-stranded cDNA to the 6.3kb genomic RNA was cloned into the Pst I site of the plasmid vector pBR322. Nick-translated pBR322 DNA containing a 1.8kb insert, representing 28.5% of the viral genome, was found to be highly specific and sensitive to NeVX isolates in dot-blot assays. The cloned cDNA probe did not hybridize to seven other potexviruses, including a ca 540nm potexvirus from Agapanthus which, on the basis of serological reactivity, was previously described as an agapanthus strain of NeVX. A survey using the cloned cDNA in dot-blot assays of Nerine species indicated that NeVX was prevalent in Nerine plants cultivated in different parts of the North Island of New Zealand. Nerine virus Y was found to be a typically flexuous potyvirus with a normal length of 800nm, a single coat protein subunit with a molecular weight of 33.26kd and a genomic RNA of 10.0kb. Nerine virus Y-infected tissue had characteristic Type I potyvirus cylindrical inclusion bodies. Size fractionated viral RNA was cloned into the lambda vectors gt10 and L47AB. Two cDNA clones of size 1.54kb and 0.56kb derived from lambda gt10 and a 9.8kb cDNA clone derived from lambda L47AB were subcloned into the plasmid vector pGEM3. In dot-blot assays cDNA from all clones hybridized to the homologous virus but not to nerine yellow stripe virus, another more common potyvirus in nerines. The 1.54kb cDNA cloned probe was found to be highly specific and sensitive and did not hybridize in dot-blot assays to four other potyviruses. A survey using the 1.54kb cloned cDNA probe in dot-blot assays indicated that NeVY was not common in Nerine species cultivated in different parts of the North Island of New Zealand. The use of recombinant technology made it possible to develop highly sensitive and specific diagnostic tools for two filamentous viruses from Nerine. These cloned cDNA probes were found to be well suited for conducting field surveys to study the prevalence of the virus. The probes could be used in subsequent studies in screening for viral resistance and in virus elimination studies. Further, the cloned cDNAs may in the future prove useful in the characterization of the genomes of NeVX and NeVY.
- ItemSome physiological effects of the herbicide bromacil (5-bromo-3-sec-butyl-6-methyluracil) on Asparagus officinalis L. : a thesis presented in partial fulfilment of the requirements for the degree of Master of Science at Massey University(Massey University, 1985) Balasingam, GodwinThe root-absorbed, photosynthesis-inhibiting herbicide bromacil (5-bromo-3-sec-butyl-6-methyluracil) was applied in sand culture to tissue-cultured 18-month-old Mary Washington 500W clone of Asparagus officinalis L. grown under controlled environmental conditions. Dose-response characteristics were determined and ED₂⁰ and ED⁵⁰ values computed by regression analysis for several parameters for asparagus plants exposed to a single application of 0, 2, 4, 8, 16, 32, 64, 128, 256, and 512 p.p.m. bromacil in non-draining pots. The results of this initial broad spectrum studies revealed a drastic decline in visually assessed foliage damage score, shoot growth and root fresh weight, and an increase in shoot death at relatively low concentrations. Good dose-response characteristics were obtained, and time-course data showed that the rate and severity of effects increased with increasing dose. The ED⁵⁰ values 18 days after treatment were: visually assessed damage score, 2.7 p.p.m.; shoot growth, 25 p.p.m.; shoot death, 4.6 p.p.m.; and root fresh weight, 2.1 p.p.m. A catalogue of colour plates showing visual phytotoxic effects was compiled. The injury symptoms observed were: yellowing of cladophyll tips followed by bleaching with the effects extending towards the base, cladophyll tipping and progressive cladophyll death leading to shoot death. Equal increment dose-response experiments were conducted at 0, 2, 4, 6, and 8 p.p.m. bromacil, using a portable fluorometer (Model SF-10) to obtain fluorescence emission measurements. The results showed a dramatic decline in the initial rise in fluorescence yield from the cladophyll tips 156 hours after treatment. The ED⁵⁰ value was computed to be 2.3 p.p.m. Fluorescence emission measurements from cladophyll tips from excised shoots placed in bromacil solution at the same concentrations showed a dramatic decline in fluorescence yield within 17 hours indicating that uptake and translocation was more rapid without the roots. No significant changes in chlorophyll a, chlorophyll b and total chlorophyll concentrations, as determined by 80% acetone extraction technique, were evident in the samples in which a dramatic decline in fluorescence yield occurred. The results of this study, conducted under controlled environmental conditions, showed that the asparagus clone tested readily absorbed bromacil through its roots and translocated it to the foliage causing severe initial damage to the photosynthetic apparatus followed by detrimental effects on other parameters such as shoot growth, root fresh weight and shoot death. Even at a bromacil concentration of 2 p.p.m. the asparagus plants were found to susceptible to herbicide damage.