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Published byGeoffrey Merritt Modified over 9 years ago
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Laboratory Exercise – Seed germination of Bean and Corn
Plant Tissue Culture Laboratory Exercise – Seed germination of Bean and Corn
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What is asexual plant propagation?
Identical offspring are produced by a single parent Continuous sexual reproduction – risk producing plants that have lost desirable traits and gained unwanted ones To gain identical to original – Asexual reproduction. Not new varieties always – but clones or identical plants are needed
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Introduction to Plant Propagation
Asexual reproduction by Cuttings Cuttings are pieces of stems, leaves or roots placed in appropriate media – vermiculite, sand, perlite, potting soil or water Existing cells in growing tissue will develop into missing roots, stems or leaves Different kinds of as methods that scientists use to create clones.
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Introduction to Plant Propagation
Asexual reproduction by Tissue Culture One or few cells – excised from parent plant – placed in a media containing nutrients Cells will divide to produce – Callus Callus – produces stems, roots and leaves Resulting plant is identical to plant that was source of original plant. Maintained in sterile conditions therefore no pest problems
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Plant tissues of interest to Biotechnologists
Meristematic tissue Are regions of cell division – dividing and differentiating Tissue culture uses parts – meristematic tissues W/o – no plant tissues or organs can be produced
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Where are meristems present?
Found in growing tips of plant Root tips, Shoot tips, branch tips, flower and leaf buds Vascular cambium – Width of plant
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Cloning of Plant Tissue Culture
Few cells or piece of plant are grown in sterile media – agar Sugar, vitamins and hormones Optimum growing conditions Differentiation into shoots, leaves and roots of a new plant Growing conditions in tubes, under fluorescent lights at appropriate temperature. First evidence of activity is swelling of explant – is a result of large number of cell divisions
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Cloning of Plant Tissue Culture
Shoots and roots are growing – transplanted into soil or another medium Transplanted PTC – humidity must be high- to avoid dehydration
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Hormone function in plants
Hormones/Plant growth regulators – regulate seed germination + growth of shoots, leaves, roots and flowers Produced in root and shoot meristems Two groups – auxins and cytokinins Cause shoot and root growth – based on their concentration
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Hormone function in plants
Auxin – produced in shoot tips –IAA Causes cell elongation, leaf development and root tip elongation Synthetic auxins – 1-naphthaleneacetamide, 2,4-D herbicide (death of plants)
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Hormone function in plants
Cytokinins – cause cell division - Zeatin Commercial version – Kinetin Ratio of auxin to cytokinin important in both stem and root elongation Ethylene – controls fruit ripening and leaf development
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Hormone function in plants
Gibberellin – seed, leaf bud germination, stem elongation and leaf development Abscisic acid (ABA) – regulates bud development and seed dormancy Phytochrome – pigment controls flowering
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Advantages of PTC More plantlets in less time
Clones of parents with no unwanted variant offspring Plants difficult to be grown by seed germination or stem or leaf cuttings Example – orchids takes five years
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Factors to consider in PTC
The species and variety of plant material The media and media ingredients Preparation of plant samples, media and equipment (sterility and temperatures) Done in laminar flow hoods Bacteria and mold easily grow
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Plant Genetic Engineering
Agrobacterium tumefaciens – crown gall disease in plants Ti plasmid (tumor -inducing) has t-DNA (transfer DNA) Tumor inducing genes and growth hormones on tDNA
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Plant Genetic Engineering
Ti crown gall inducing plasmid is 200 Kb in length Bacterial plasmid – 5-8 Kb Scientists remove oncogenes and replace with useful genes – genetic engineering Virulence genes (vir) controls tranformation - Directs transfer of t-DNA from plasmid into plant chromosomal DNA
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Genetically engineered Ti plasmid
pBI121 – Reporter genes GUS gene codes for ß-glucuronidase Breaks down carbohydrates 5-bromo-4-chloro-3-indolyl-beta-D-glucuronic acid (X-Gluc)- blue precipitate
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Agrobacterium tumefaciens
In plant transformation – bacteria do not enter into target cell Stay outside and insert Ti plasmid Incorporated into chromosomal DNA Transcription and Translation
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