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Basic DNA Science

Basic DNA Science. BE Bootcamp 2008 Phillips Group / Caltech. Three Molecules of Life. DNA : four nucleotide bases (GC,AT) (2 bits) genetic code in 3 base ‘codons’ information storage and propagation, genetic regulation

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Basic DNA Science

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  1. Basic DNA Science BE Bootcamp 2008 Phillips Group / Caltech

  2. Three Molecules of Life DNA: four nucleotide bases (GC,AT) (2 bits) genetic code in 3 base ‘codons’ information storage and propagation, genetic regulation Protein: folded polypeptide of 20 amino acids motility, metabolism, reproduction, genetic regulation, transport, etc.Lipid: polar / non-polar molecules separate ‘self’ from ‘non-self’ regulate material flow, cell shape, compartmentalizes, etc

  3. Three Molecules of Life DNA: four nucleotide bases (GC,AT) (2 bits) genetic code in 3 base ‘codons’ information storage and propagation, genetic regulation Protein: folded polypeptide of 20 amino acids motility, metabolism, reproduction, genetic regulation, transport, etc. Manipulating DNA – Protein Relationships: Revolutionized biological research (e.g. crystallography, fluorescent proteins as markers) and medicine (e.g. drug manufacture)

  4. The Central Dogma 1) A simplified model. 2) Played out across life. 3) Many distinct points for control.

  5. Say Hello to Our Little Friend Escherichia coli Genome: circular, long (5 Mbp / 1.25 Mb) difficult to manipulate Plasmid: circular, short (1 - 5 kbp / 1.25 kb) easy to manipulate

  6. Say Hello to Our Little Friend Escherichia coli 1) How do we get the gene of interest onto the plasmid? 2) How do we get the plasmid into the bacterium? 3) How do we convince the bacterium to use this DNA? 4) How do we tell if genes are transcribed?

  7. The Alpha and the Omega Genotype Phenotype E. coli expressing protein -galactosidase E. coli expressing fluorescent protein from jellyfish (YFP)

  8. Awesome, but Imperfect Tools Cloning Vector plasmid purification / (double) restriction digest / gel purification Insert PCR

  9. Awesome, but Imperfect Tools Cloning Vector plasmid purification / (double) restriction digest / gel purification Vector + Insert Insert PCR Ligation Transform (Electroporation)

  10. Plasmid Structure Promoter – RNA polymerase binding site, transcriptional regulator Origin of Replication – site where plasmid replication begins for division, controls copy number and hence regulates Restriction Sites – sequence-specific enzymatic DNA cleavage sites, leaves sticky ends for proper insert ligation Kanamycin – encodes gene for Kanamycin (fungal) antibiotic resistance, imparts severe selective advantage in proper media Non-descript DNA – contain other restriction sites for gene insertion Direction of transcription Direction of transcription pZE21-Venus(YFP)

  11. Plasmid Structure pZE21-LacZ pZE21-Venus(YFP) HindIII KpnI

  12. Polymerase Chain Reaction High temp (98C) DNA denatures Forward Primer Reverse Primer Lower temp (62C) Primers anneal

  13. Polymerase Chain Reaction Lower temp (62C) Primers anneal Free nucleotides Raise temp (72C) Polymerase extends DNA

  14. Polymerase Chain Reaction 35 cycles = 1011

  15. Plasmid Restriction HindIII KpnI

  16. Vector / Insert Ligation Vector + Insert + Ligase blue cells white cells fluorescent cells

  17. Polymerase Chain Reaction

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