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The effect of 6-Benzyladenine on adventitious shoot formation by Lycopersicon. species in vitro.De Villiers, Roelof Pieter. January 1994 (has links)
Lycopersicon esculentum Mill. cv. Rodade was developed in South Africa for the
fresh produce market. This cultivar is also of major importance for South African
tomato breeding programmes because of its resistance to bacterial wilt. In this
study, aspects of the effects of 6-benzyladenine on adventitious shoot formation by
both L. esculentum cv. Rodade and Lycopersicon peruvianum Mill. were studied in
vitro. These included the regeneration of adventitious shoots, the effects of
different incubation times, the uptake and metabolism of BA and the effect of auxin
on the metabolism of BA in both leaf and callus tissue of the two species.
Adventitious buds could be regenerated on all tissue types except for callus tissue
of L. esculentum. A stepwise increase in the percentage shoots produced was
observed indicating a period of induction wherein incubation on a medium
containing BA is beneficial to the production of shoots. Leaf tissue was more
responsive to BA treatments than callus tissue of both species. The main route of
BA metabolism in both species is from BA to [9R]BA and [9R-MP]BA. Callus
tissue of L. esculentum cv. Rodade however converted BA to the 3- and 9-
glucosides of BA rather than to metabolically active forms of the cytokinin. The
auxin, indole-3-acetic acid, played a definite role in the conversion of BA to
[3G]BA and [9G]BA in leaf tissue of the tomato cultivar tested, but had no effect
in callus tissue of this species. / Thesis (Ph.D.)-University of Natal, Pietermaritzburg, 1993.
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Manipulation of ascorbate biosynthesis in Solanum lycopersicum (cv Money maker)Cronje, Christelle 12 1900 (has links)
Thesis (MSc (Plant Biotechnology))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: Vitamin C (ascorbate or AsA) is a secondary metabolite produced in many eukaryotes including yeasts, plants and animals. It plays essential roles as an anti-oxidant and enzyme cofactor, functions as an electron donor and -acceptor and is involved in various developmental processes. This study was initiated with the aim of increasing vitamin C production in tomato. Three genes, namely GDP-mannose pyrophosphorylase (GMPase) from Saccharomyces cerevisiae, arabinono-1,4-lactone oxidase (ALO) from Saccharomyces cerevisiae and myo-inositol oxygenase 2 (MIOX2) from Arabidopsis thaliana were ectopically expressed in the tomato cultivar Money Maker. GMPase converts D-mannose-6-P to GDP-D-mannose. This reaction forms part of the well characterized, “Smirnoff-Wheeler” pathway. ALO catalyzes the terminal step in erythroascorbate synthesis in yeast. In situ it also metabolizes the plant and animal substrates for ascorbate manufacture. Myo-inositol (MI) is converted into D-glucuronate by the activity of MIOX. D-Glucuronate is a precursor to L-guluno-1,4-lactone synthesis which is the precursor to AsA in animals and thought to be present in plants. The genes were independently introduced with the aid of Agrobacterium tumefaciens mediated transformation and expressed under the control of the CaMV 35S promoter. Plants with increased GMPase activity consistently showed increased L-ascorbate levels in leaves and fruit of between 20- and 70% compared to the wild-type. Plants transcribing the ALO gene exhibited small increases in L-ascorbate in green fruit (p < 0.1). Leaf tissue from MIOX plants displayed significant activity increases (p < 0.05), and substantial decreases in MI. In green fruit two MIOX lines had increases in activity, cell wall uronic acids and AsA levels. Marginal increases in L-ascorbate would not warrant industrial application, but follow-up research with over-expression of other enzymes of the “Smirnoff-Wheeler” pathway should be explored. / AFRIKAANSE OPSOMMING: Vitamien C (askorbiensuur of AsA) is ʼn sekondêre metaboliet wat in baie eukariote, insluitend gis, plante en diere geproduseer word. Dit speel ʼn noodsaaklike rol as ʼn anti-oksidant en ensiem kofaktor, funktioneer as ʼn elekronskenker en aanvaarder en is betrokke in verskillende ontwikkelings prosesse. Hierdie studie was geїnisieer met die doel om vitamien C produksie in tamatie te vermeerder. Drie gene, naamlik GDP-mannose pirofosforilase (GMPase) van Saccharomyces cerevisiae, arabinono-1,4-laktoon oksidase (ALO) van Saccharomyces cerevisiae en mio-inositol oksigenase 2 (MIOX2) van Arabidopsis thaliana was ektopies uitgedruk in the tamatie kultivar, Money Maker. GMPase skakel D-mannose-6-P om na GDP-D-mannose. Hierdie reaksie is deel van die goed gekenmerkde “Smirnoff Wheeler” baan. ALO kataliseer the terminale stap in eritroaskorbiensuur sintese in gis. In situ metaboliseer dit ook die plant en dier substrate om askorbiensuur te vervaardig. Mio-inositol (MI) is omgeskakel na D-glukuronsuur deur die aktiwiteit van MIOX. D-glukuronsuur is ʼn voorloper in L-guluno-1,4-laktoon sintese wat dan ʼn voorloper is van AsA in diere en word ook verdink om in plante teenwoordig te wees. Die gene was onafhanklik ingestel met die hulp van Agrobakterium tumefaciens gemedїeerde transformasie en uitgedruk onder die beheer van die CaMV 35S promotor. Plante met verhoogde GMPase aktiwiteit het in blare en vrugte konsekwente toename in L-askorbiensuur vlakke met tussen 20 – 70% gewys in vergelyking met wilde-tipe. Plante wat ALO getranskribeer het, het klein stygings in L-askorbiensuur in groen vrugte gewys (p < 0.1). Blaarweefsel van MIOX plante wat verhoogde aktiwiteit vertoon het, (p < 0.05), het ook aansienlike dalings in MI gehad. In groen vrugte van MIOX het twee lyne verhoogte aktiwiteit, selwand uronsuur en AsA vlakke gehad. Klein toename in L-askorbiensuur is nie gepas vir industriële toepassing nie, maar opvolg navorsing moet ondersoek word met die oor-uitdrukking van ander “Smirnoff-Wheeler” baan ensieme.
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Determination of the influence of volatiles emitted by the semiochemical lure, T.V. Pherolure® on the volatile profile of a commercial tomato fieldVan Tonder, Aletta Johanna 01 1900 (has links)
The use of pheromone-based or semiochemical lures and devices for the detection
of insect pest population and monitoring in agriculture is a common practice. In many
countries the use of these devices is exempt from registration requirements based
on regulatory thresholds set by the relevant authorities, however, not in South Africa.
The question arises whether the pheromones or semiochemicals dispensed through
such devices, influence the naturally occurring compounds observed and whether a
concern of toxicity and ecotoxicity is justified. A tomato field was selected in a commercial
growing area of South Africa and a novel five-component lure, T.V.
PheroLure®, was identified from a local manufacturer, Insect Science (Pty) Ltd. The
T.V. PheroLure® consists of a Volatile Organic Compound (VOC) blend which is
placed in a polyethylene bulb. Tomato VOCs were collected before, during and after
the application of the T.V. PheroLure® which was used in combination with a yellow
bucket funnel trap. The VOCs were collected at different heights (0 cm, 30 cm and
60 cm) of the tomato plants, from planting until harvest (22 weeks) and surrounding
tomato fields without the T.V. PheroLure®. The results obtained indicated that: (i)
the T.V. PheroLure® had no significant influence on the natural VOCs observed in
the tomato field and (ii) that the height of sampling had no influence on VOCs observed.
This study also indicated that apart from a slight increased contribution of
limonene, there was no significant influence observed from the T.V. PheroLure®
compounds on the natural background VOCs found in the tomato field. Therefore,
it could be argued that the natural phenology of the plant has a greater influence on
the VOCs observed than T.V. PheroLure® and that the concern of toxicity and ecotoxicity is unjustified when using these devices for monitoring purposes only. / Environmental Sciences / M. Sc. (Environmental Science)
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