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The Biotechnology Century and Its Workfroce
1.
C H A
P T E R PowerPoint® Lecture by: Melissa Rowland-Goldsmith Chapman University The Biotechnology Century and Its Workforce 1
2.
© 2013 Pearson
Education, Inc. Chapter 1 Contents • 1.1 What Is Biotechnology and What Does It Mean to You? • 1.2 Types of Biotechnology • 1.3 Biological Challenges of the 21st Century • 1.4 The Biotechnology Workforce
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© 2013 Pearson
Education, Inc. 1.1 What Is Biotechnology and What Does It Mean to You? • Biotechnology – using living organisms, or the products of living organisms, for human benefit to make a product or solve a problem • Historical Examples – Fermentation – Selective breeding – Use of antibiotics
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© 2013 Pearson
Education, Inc. • Example of Biotechnology – Selective Breeding • What feature of Casper makes it a "model organism" to study migration of cancer cells compared to wildtype fish? Normal zebrafish "Casper" zebrafish – made by selective breeding 1.1 What Is Biotechnology and What Does It Mean to You? (a) (b)
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© 2013 Pearson
Education, Inc. 1.1 What Is Biotechnology and What Does It Mean to You? • Based on this tree, can you become successful in the biotech industry only studying biology?
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© 2013 Pearson
Education, Inc. 1.1 What Is Biotechnology and What Does It Mean to You? • Modern Examples – Gene cloning – Genetic engineering – Recombinant DNA technology – Human Genome Project
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© 2013 Pearson
Education, Inc. 1.1 What Is Biotechnology and What Does It Mean to You? • Example of "modern" biotechnology: – recombinant DNA technology started modern biotech as an industry • Examples of applications – development of disease-resistant plants – food crops that produce greater yields – "golden rice" engineered to be more nutritious – genetically engineered bacteria that can degrade environmental pollutants • Work in groups to come up with more examples of applications
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© 2013 Pearson
Education, Inc. • Look at the two chromosomes and determine which chromosome has more than one gene involved in promoting breast cancer. Explain your answer. – Now use the link to further study the diseases involved in these chromosomes • http://ghr.nlm.nih.gov/chromosome 1.1 What Is Biotechnology and What Does It Mean to You?
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© 2013 Pearson
Education, Inc. 1.1 What Is Biotechnology and What Does It Mean to You? • Most drugs are developed to combat diseases affecting humans – Why? • Which disease has the most drug candidates? Why does that disease have more drug candidates than hepatitis C?
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© 2013 Pearson
Education, Inc. 1.1 What Is Biotechnology and What Does It Mean to You? • Use genetically modified cultured cells to make protein of interest
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© 2013 Pearson
Education, Inc. 1.1 What Is Biotechnology and What Does It Mean to You? • Products of Modern Biotechnology – Example of proteins created by gene cloning called recombinant proteins
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© 2013 Pearson
Education, Inc. 1.2 Types of Biotechnology • Microbial Biotechnology • Agricultural Biotechnology • Animal Biotechnology • Forensic Biotechnology • Bioremediation • Aquatic Biotechnology • Medical Biotechnology • Regulatory Biotechnology Memorize
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© 2013 Pearson
Education, Inc. 1.2 Types of Biotechnology • Microbial Biotechnology – manipulation of microorganisms such as yeast and bacteria – Create better enzymes – More efficient decontamination processes for industrial waste product removal – Used to clone and produce large amounts of important proteins used in human medicine
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© 2013 Pearson
Education, Inc. 1.2 Types of Biotechnology • Agricultural Biotechnology – United Nations Food and Agricultural Org. predicts by 2050, we will need to feed a world population of 9.1 billion! This requires raising food production by approx. 70%! – Work in groups to brainstorm a few solutions to better feed the world by 2050.
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© 2013 Pearson
Education, Inc. 1.2 Types of Biotechnology • Agricultural Biotechnology – Plants more environmentally friendly that yield more per acre (genetically engineered) – Resistance to diseases and insects – Foods with higher protein or vitamin content – Drugs developed and grown as plant products – These better plants ultimately reduce production costs to help feed the growing world population
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© 2013 Pearson
Education, Inc. 1.2 Types of Biotechnology • Agricultural Biotechnology – Work in groups to discuss how you can use this technology in a third world country to create a better corn crop (main crop in that country) that contains all of the 22 essential amino acids.
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© 2013 Pearson
Education, Inc. 1.2 Types of Biotechnology • Will improved crops that are created to satisfy world hunger reduce available land for biofuel crops? Discuss in groups.
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© 2013 Pearson
Education, Inc. 1.2 Types of Biotechnology • Animal Biotechnology – Animals as a source of medically valuable proteins • Antibodies • Transgenic animals – Animals as important models in basic research • Gene "knockout" experiments • Design and testing of drugs and genetic therapies – Animal cloning • Source of transplant organs
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© 2013 Pearson
Education, Inc. 1.2 Types of Biotechnology • Animal Biotechnology – transgenic animal: way to achieve large scale production of therapeutic proteins from animals for use in humans – Female transgenic animals express therapeutic proteins in milk (contains genes from another source) – Example: human genes coding for clotting proteins can be introduced into female goats for production of these proteins in their milk
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© 2013 Pearson
Education, Inc. 1.2 Types of Biotechnology • Animal Biotechnology – Gene knockout: • Disrupt a gene in the animal and then look at what functions are affected in the animal as a result of the loss of the gene • This allows researchers to determine the role and function of the gene • Since humans are similar to rats and mice, gene knockout studies in rats and mice can lead to better understanding of gene function in humans. • Work in groups and give an example of a gene you would like to knockout in mice.
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© 2013 Pearson
Education, Inc. 1.2 Types of Biotechnology • Forensic Biotechnology – DNA fingerprinting • Inclusion or exclusion of a person from suspicion • Paternity cases • Identification of human remains • Endangered species • Tracking and confirmation of the spread of disease
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© 2013 Pearson
Education, Inc. • Forensic Biotechnology • Based on DNA results from this gel, did the defendant commit this crime? Explain based on the gel results. 1.2 Types of Biotechnology
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© 2013 Pearson
Education, Inc. 1.2 Types of Biotechnology • Bioremediation – The use of biotechnology to process and degrade a variety of natural and manmade substances • Particularly those that contribute to environmental pollution – Example – stimulated growth of bacteria that degrade components in crude oil • 1989 Exxon Valdez oil spill in Alaska • 2010 Deep Water Horizon spill promoted research into natural oil-degrading organisms and enzymes
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© 2013 Pearson
Education, Inc. • Bioremediation – adding nutrients to stimulate growth of bacteria to clean up oil spill 1.2 Types of Biotechnology
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© 2013 Pearson
Education, Inc. 1.2 Types of Biotechnology • Aquatic Biotechnology – Aquaculture – raising finfish or shellfish in controlled conditions for use as food sources • 50% of all fish consumed by humans worldwide – Genetic engineering • Disease-resistant strains of oysters • Vaccines against viruses that infect salmon and other finfish • Transgenic salmon that overproduce growth hormone – Bioprospecting: rich and valuable sources of new genes, proteins and metabolic processes with important applications for human benefits • Marine plankton and snails found to be rich sources of antitumor and anticancer molecules
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© 2013 Pearson
Education, Inc. • Aquatic Biotechnology • Why create transgenic salmon overproducing growth hormone? • How does this modified salmon help humans? transgenic normal Two different salmon 1.2 Types of Biotechnology
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© 2013 Pearson
Education, Inc. 1.2 Types of Biotechnology • Medical Biotechnology – Involved with the whole spectrum of human medicine • Preventive medicine • Diagnosis of health and illness • Treatment of human diseases – New information from Human Genome Project • Gene therapy – Stem cell technologies
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© 2013 Pearson
Education, Inc. 1.2 Types of Biotechnology • Stem cells – grown in lab and then treated with different chemicals to allow them to develop into specific kinds of tissues needed for transplant • Current use: stem cells are used for diabetes; spinal cord injuries • Work in groups to come up with a list of other diseases you have read about in the newspaper or heard on the news that scientists are testing with stem cells.
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© 2013 Pearson
Education, Inc. 1.2 Types of Biotechnology • Medical biotechnology – Genes are headline news items
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© 2013 Pearson
Education, Inc. 1.2 Types of Biotechnology • Regulatory Biotechnology – Quality Assurance (QA) • All activities involved in regulating the final quality of a product – Quality Control (QC) • Part of QA process that involves lab testing and monitoring of processes and applications to ensure consistent product standards • Together QA and QC ensure that biotechnology products meet strict standards for purity and performance • Why as a consumer should you care about a product undergoing intense regulations?
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© 2013 Pearson
Education, Inc. 1.3 Biological Challenges of the 21st Century • How will medical biotechnology change our lives in the years ahead? – Human Genome Project • Research on the function of human genes and controlling factors that regulate genes – Human proteome • Collection of proteins responsible for activity in a human cell
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© 2013 Pearson
Education, Inc. 1.3 Biological Challenges of the 21st Century • How will medical biotechnology change our lives in the years ahead? – Single Nucleotide Polymorphisms (SNPs) • Single nucleotide changes (mutations) in DNA sequences that vary from individual to individual • These variations are the cause of some genetic diseases (sickle cell anemia) • SNPs will help identify genes involved in medical conditions including arthritis, stroke, cancer, heart disease, diabetes, and behavioral and emotional illnesses
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© 2013 Pearson
Education, Inc. 1.3 Biological Challenges of the 21st Century • Example of SNPs and breast cancer • Identification of SNPs in BRCA1 and BRCA2 genes involved in promoting breast cancer led to development of better targeted treatments for people who have those specific gene mutations • Can you think of how this knowledge might be useful for someone who is not already diagnosed with cancer? (Hint: think of your basic knowledge of genetics.)
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© 2013 Pearson
Education, Inc. • Example of how we can benefit from the human genome project • Based on the figure, why doesn't person 2 develop a genetic disease due to the SNP (G → T)? 1.3 Biological Challenges of the 21st Century
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© 2013 Pearson
Education, Inc. 1.3 Biological Challenges of the 21st Century • How can you test one person's DNA for many different SNPs? • Microarray (gene chip) – Isolate DNA from patient – Apply this sample to a microarray which contains many DNA sequences – Compare patterns of DNA binding between patient's DNA and DNA on microarray to reveal patient's SNP patterns
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© 2013 Pearson
Education, Inc. 1.3 Biological Challenges of the 21st Century • How will medical biotechnology change our lives in the years ahead? – Pharmacogenomics is customized medicine • Tailor-designing drug therapy and treatment strategies based on the genetic profile of a patient – Do microarray analysis and then design drugs against genes that are mutated for an individual patient – Metabolomics • A snapshot of the small molecules produced during cellular metabolism – Glucose, cholesterol, ATP, and signaling molecules – Can distinguish between disease process and physiological adaptation
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© 2013 Pearson
Education, Inc. 1.3 Biological Challenges of the 21st Century • How will medical biotechnology change our lives in the years ahead? – Nanotechnology • Applications that incorporate extremely small devices • Small particles that can deliver drugs to cells
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© 2013 Pearson
Education, Inc. 1.3 Biological Challenges of the 21st Century • Gene therapy technology – Replacing or augmenting defective genes with normal copies of the gene • Still have barriers to overcome before this technology becomes safe and effective • Obstacles include: – How can normal genes be delivered to virtually all cells in the body? – What are the long-term effects of introducing extra genes in humans? – What must be done to ensure the proper protein is made after the genes are delivered to the body?
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© 2013 Pearson
Education, Inc. 1.3 Biological Challenges of the 21st Century • Small interfering RNA (siRNA) is emerging technology to silence genes that are involved in disease progression
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© 2013 Pearson
Education, Inc. 1.3 Biological Challenges of the 21st Century • Stem cell technology – Stem cells are immature cells that grow and divide to produce different cell types – Most stem cells are from embryos called embryonic stem cells (ESCs) but they are controversial since the process involves death of an embryo – Some stem cells are from adult cells (ASCs) • Either type of stem cell can be coaxed to grow into cells of interest to replace damaged tissue or failing organs (liver, pancreas, retina) • Work in groups to explain why scientists are doing more research using embryonic vs. adult stem cells.
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© 2013 Pearson
Education, Inc. • ESCs can give rise to many types of differentiated cells 1.3 Biotechnology in the 21st Century
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© 2013 Pearson
Education, Inc. 1.3 Biological Challenges of the 21st Century • How will medical biotechnology change our lives in the years ahead? – Regenerative medicine • Genetically modifying stem cells of patients to treat genetic disease conditions • In future scientists will be able to… 1. Isolate adult stem cells from a patient with a genetic disorder 2. Genetically manipulate these cells by gene therapy approaches 3. Reinsert the cells into the same patient to help treat their genetic disease
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© 2013 Pearson
Education, Inc. • Biotechnology is a global industry – Generates more than $63 billion in worldwide revenues – $40 billion in sales of biological drugs in the United States 1.4 The Biotechnology Workforce
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© 2013 Pearson
Education, Inc. 1.4 The Biotechnology Workforce • Differences between a biotech and pharmaceutical company – Pharmaceutical companies is involved in drug development (chemically synthesizing or purifying compounds to make the drug) – Pharmaceutical company does not use living organisms to grow or produce a product – Biotech company is involved in drug development using live organisms – Biotech companies also create products that are not drugs
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© 2013 Pearson
Education, Inc. Insert table 1.3 1.4 The Biotechnology Workforce
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© 2013 Pearson
Education, Inc. 1.4 The Biotechnology Workforce • How does a biotech company start? – Generally created as a startup company with few employees backed by venture capital investments (derived from financial institutions and private donors called angel investors) – Why invest as an angel donor? To ultimately have company ownership in exchange for donating funds – get rich if company is successful! – Takes 10 years to get a product to market at a big cost! – Eventually startups are bought out by bigger established companies – Bringing drug close to market = value to the company – File for initial public offering (IPO) stock
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© 2013 Pearson
Education, Inc. 1.4 The Biotechnology Workforce • Jobs in Biotechnology – Research and development: preclinical, discovery research, bioinformatics, lab safety – Operations: process/product development, manufacturing and production – Quality: quality control and assurance – Clinical research: clinical research and regulatory affairs – Finance and administration: finance, business development, administration, information systems, legal, facilities management
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© 2013 Pearson
Education, Inc. • Based on this graph, which type of job requires more education and why? 1.4 The Biotechnology Workforce
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© 2013 Pearson
Education, Inc. • Organizational structure of medium sized biotech company • Based on this table, which jobs look like they require the least amount of education? 1.4 The Biotechnology Workforce
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© 2013 Pearson
Education, Inc. 1.4 The Biotechnology Workforce • What is the best approach to landing a good job in a biotech company? – Obtain a degree in molecular biology, biochemistry, or bioinformatics – Minor in information technology – Take lots of math courses – Have great skills in oral and written communication – Must be a collaborative team player – Why go into this field? It pays well and is personally rewarding!
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