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AP Biology Chapter 20 DNA Technology

AP Biology Chapter 20 DNA Technology. DNA Technology. Recombinant DNA: genes from 2 different sources, can be 2 dif. species Genetic engineering: direct manipulation of genes for practical purposes

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AP Biology Chapter 20 DNA Technology

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  1. AP Biology Chapter 20 DNATechnology

  2. DNA Technology • Recombinant DNA: genes from 2 different sources, can be 2 dif. species • Genetic engineering: direct manipulation of genes for practical purposes • Biotechnology: manipulation of organisms or their components for practical tasks (ancient idea) • Gene cloning vs. cell cloning and cloning of whole organisms – including mammals • Lots of copies of a gene to be used in research • Cloning of bacteria, mice, pigs, etc for their products • Making new organisms…..?

  3. Restriction Enzymes 1960’s Cut foreign DNA Recognize specific sequences Leave sticky ends Cuts are reproducible because they cut at specific sequences Fusions occur with DNA ligase Plasmids Multiple copies “clones” of the gene Genes that are frequently expressed Can be transferred to other cells DNA is universal, so bacteria will produce plasmids even if DNA is not theirs originally Used as a “vector” Bacterial Tools

  4. Problems and Solutions • Expression vectors are used to get prok promoter “ON” • Make cure inserted gene is ‘downstream’ from this type of promoter • Must remove introns for prok to read mRNA • Start with mRNA from cells that have already created the edited version and make something called cDNA (complementary) • Use cells that aren’t bacteria/prok • Yeast and single celled fungi and plants • Also helps with modification that occurs to proteins after translation in euk cells • Use artificial chromosomes • Origin, centromere and telomeres with foreign DNA • Force uptake • Euk cells exposed to pulses of current can allow DNA through plasma membrane…. • Inject DNA • Using “shot gun approach”

  5. Genomic Libraries • Genomic library is a collection of all the recombinant plasmids in a particular colony of bacteria • cDNA libraries contain all the gene that there are cDNA for

  6. Polymerase chain reactions, etc. • Gel electrophoresis employs electricity to separate strands of DNA based on their size • Bands of DNA can be identified using Southern blotting – a small sequence is radioactively tagged, then put with DNA and every where it pairs up with complementary bases it can be read • Restriction fragment length polymorphisms (RFLP’s) • Differences in Southern blot bands between homologous chromosomes, especially in noncoding areas of genome • PCR is a technology that amplifies the DNA so there are billions of copies • DNA from woolly mammoth • DNA from embryonic cells • DNA from crime scenes for DNA fingerprinting

  7. Diagrams • Be sure to read information on the following: • Gel electrophoresis pg. 374 • RFLP’s and Southern Blotting pg. 375 • Sanger method of sequencing pg. 378 • Your lab manual – Lab 6 A and 6B

  8. Human Genome Project • Computer systems worked internationally for almost 15 years to list all the human genes, including the noncoding regions. • 3 billion base pairs long • 100,000 genes • Also mapped for research and comparison • E. coli (and other bacteria) • Saccharomyces cerevisiae (yeast) • Caenorhabditis elegans (nematode/worm) • Drosophilia melanogaster (fruit fly) • Mus musculus (mouse) • Danio rerio (zebra fish)

  9. Terms • Genetic mapping: linkage map determined by recombination frequencies • Currently have 500 markers on human genome • Physical mapping: map units • DNA sequencing: list of bases for all 3million nucleotides pairs • Genome analysis • find genes by looking for sequences, that when transcribed have a start and stop codon • Compare sequences found in one organism and look for similar sequence in other organsims • Microarray assay: microscope slide with known genes in wells – mRNA from a cell is obtained, reacted with cDNA, if bases match they will pair up and when hybrid DNA is placed on slide it will glow in the well if its for the gene in that well • Genomics: the study of genomes and genes

  10. Human Health Applications 1. Diagnosis of disease by showing a marker for the gene 2. Human Gene Therapy when there is a known allele • Enhance immune system • Fight cancer • Stem cell products 3. Pharmaceuticals • Manufacture proteins that are required • Design vaccines that are specific and harmless

  11. Environment, Agriculture and Forensics • Forensics uses RFLP, southern blot and gel electrophoresis to create a DNA fingerprint • Genetically engineered microbes can ‘feast’ on oil spills and heavy metal contaminants in water and soil • Transgenic organisms are being developed as a source of organs and as a source of medically useful proteins • Genetically engineered plants are created to have specific useful features, as well as being pest resistant and potentially able take up N without fertilizers

  12. Safety and Ethics • Currently regulated by the following US agencies • USDA, United States Department of Agriculture • FDA, Food and Drug Administration • EPA, Environmental Protection Agency • NIH – National Institute of Health Recombinant DNA Advisory Committee • And potentially , voters like you….

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