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BIOTECHNOLOGY IN PLANT BREEDING

BIOTECHNOLOGY IN PLANT BREEDING. Biotechnology . The application of biological organisms, systems or processes to manufacturing and service industries The application of scientific and engineering principles to the processing of materials by biological-agents to provide goods and services

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BIOTECHNOLOGY IN PLANT BREEDING

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  1. BIOTECHNOLOGY IN PLANT BREEDING

  2. Biotechnology • The application of biological organisms, systems or processes to manufacturing and service industries • The application of scientific and engineering principles to the processing of materials by biological-agents to provide goods and services • The use of living organism and their component in agriculture, food and other industrial processes • The use of microbial, animal and plant cells or enzymes to synthesize, breakdown and transform materials • The integration of natural sciences and organisms, cells, parts thereof and molecular analogues to product and services • A technology using biological phenomena by copying and manufacturing various kinds of useful substance

  3. Stages of Biotechnology Development • Traditional/old biotechnology The conventional techniques that have been used to produce beer, wine, cheese, many other food • New/modern biotechnology All methods of genetic modification by recombinant DNA and cell fusion techniques, together with the modern development of traditional biotechnological process

  4. Biotechnology: A collection of technologies

  5. The Applications of Biotechnology • Medical Biotechnology • Diagnostics • Therapeutics • Vaccines • Agricultural Biotechnology • Plant agriculture • Animal production • Food processing • Environmental Biotechnology • Cleaning through bioremediation • Preventing environmental problems • Monitoring the environment

  6. Plant agriculture • Crop production and protection (Quantity) • Genetically engineered (transgenic) crops • Using biological methods to protect crops • Exploiting cooperative relationships in nature • Nutritional value of crops (Quality) • Improving food quality and safety • Healthier cooking oils by decreasing the concentration of saturated fatty acids in vegetable oils • Functional foods Foods containing significant levels of biologically active components that impart health benefits Plant Biotechnology

  7. PLANT BIOTECHNOLOGY a process to produce a genetically modified plant by removing genetic information from an organism, manipulating it in the laboratory and then transferring it into a plant to change certain of its characteristics . Breeding • Systematic process of matching genetic factors from parent plants to produce offspring that are superior to parents • Systematic procedures used to improve trait phenotypes by crossing and selection, directed manipulation of the genotype at the DNA sequence level, and introduction of new genes

  8. Breeding? • Application of genetics principles for improvement • “Accelerated” and “targeted evolution” • An evolution by artificial selection • Systematic process of matching genetic factors from parent plants to produce offspring that are superior to parents • Systematic procedures used to improve trait phenotypes by crossing and selection, directed manipulation of the genotype at the DNA sequence level, and introduction of new genes.

  9. Primary Steps in Plant Breeding • Develop a Vision • Find or Create Variability (Techniques) • Apply Selection Pressure • Evaluate and Select (Screen) • Commercialize

  10. History of Genetic Modification 1st transgenic plant created 1983 Mutagenesis breeding 1940’s 1st fertile intergeneric cross 1920’s 1860’s Darwin and Mendelscience-based selective breeding mid-1700’s 1st fertile between species cross 8000 BC Selective breeding within species

  11. Selected milestones in plant breeding 9000 BC First evidence of plant domestication in the hills above the Tigris river 1694 Camerarius first to demonstrate sex in (monoecious) plants and suggested crossing as a method to obtain new plant types 1714 Mather observed natural crossing in maize 1761-1766 Kohlreuter demonstrated that hybridoffspring received traits from both parents and were intermediate in most traits, first scientific hybrid in tobacco 1866 Mendel: Experiments in plant hybridization 1900 Mendel’s laws of heredity rediscovered 1944 Avery, MacLeod, McCarty discovered DNA is hereditary material 1953 Watson, Crick, Wilkins proposed a model for DNA structure 1970 Borlaug received Nobel Prize for the Green Revolution Berg, Cohen, and Boyer introduced the recombinant DNA technology 1994 ‘FlavrSavr’ tomato developed as first GMO 1995 Bt-corn developed

  12. Plant Breeding Technologies & Crop Improvement(A Continuum) Bioinformatics Proteomics Genomics Analytical Technologies Transgenic Traits Biotech/Genetic Engineering Winter Nurseries Germplasm Improvement ( = higher yields) Computer Technologies Plot Mechanization Quantitative Genetics Statistics Pedigree Breeding Hybridization Open Pollinated Selection Time

  13. Importance of Plant breeding? • Increases in yield are derived both from improved varieties and from improved management. • It suggests about a 50-50 of crop yield split between genetic gain and gain attributed to management. • Planting material is the most important input in agriculture • An improved cultivar is the most economic and least laborious input for crop cultivation

  14. Bushels Per Acre Single Cross Hybrids Open Pollinated Varieties Double Cross Hybrids Year Does plant breeding work? Corn Yield Trends: 1870 to Today

  15. Breeding Approach • Empirical approach Evaluating grain yield per se as the main selection criterion • Analytical approach An alternate breeding approach that requires a better understanding of the factors responsible for the development, growth and yield New Technology (Improved Technique) for organism “Biotechnology”

  16. Which technology?

  17. Comparing Genetic Modification Techniques Conventional Breeding Mutation breeding Plant Biotechnology Level Precision Certainty Limits

  18. Commercial variety New variety Desired gene (only desired gene is transferred) Using plant biotechnology, a single gene may be added to the strand. = (transfers) Desired gene Traditional plant breeding Commercial variety New variety Traditional donor DNA is a strand of genes, much like a strand of pearls. Traditional plant breeding combines many genes at once. (many genes are transferred) = X (crosses) Desired Gene Desired gene Modern plant breeding

  19. "Never think for a minute that we are going to build permanent peace in this world on empty stomachs and human misery." Norman Borlaug Nobel Peace Prize Laureate

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