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WHODUNNIT?

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Title: WHODUNNIT?


1
WHODUNNIT?
2
DNA Technology- What is it?
  • Making recombinant DNA (DNA in which genes from 2
    different sources are combined)
  • Biotechnology-manipulation of genes of organisms
    for our benefit
  • Genetic engineering-directly changing genes of an
    organism
  • Examples
  • Cloning
  • Gel electrophoresis
  • Gene therapy
  • Test-tube babies
  • Sequence DNA/genes
  • Stem cell research

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3
What can we do with it?The Big Picture
  • Diagnose diseases
  • Cure diseases
  • Produce better medicines/vaccines more
    efficiently
  • Solve crimes
  • Paternity tests
  • Produce more nutritious foods
  • Produce food in countries with little or no
    arable land
  • More efficiently Dispose of waste

4
Important Techniques/Tools Used in DNA Technology
  • Restriction Enzymes
  • DNA libraries
  • Gel electrophoresis
  • Bacterial transformation, plasmids
  • cDNA
  • Polymerase chain reaction (PCR)
  • probing/DNA hybridization
  • DNA sequencing
  • Bioinformatics
  • Southern blotting
  • Microarray analysis
  • RFLPs
  • vectors

5
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6
A few words about bacterial genetics.
  • Prokaryotes
  • Nucleoid region
  • Reproduce by binary fission-108 in 12 hrs!!
  • Genome
  • 1 DS circular chromosome
  • Plasmids-smaller circles of DNA
  • Self replicating
  • Confer new characteristics
  • R plasmids, F plasmids
  • Can be genetically engineered
  • Genetic recombination in bacteria
  • Transformation-uptake of naked foreign DNA
  • Transduction-viruses
  • Conjugation using pilli

7
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8
Restriction Enzymes
  • Used in almost areas of recombinant DNA
    technology
  • Create DNA libraries- collections of bacteria
    each having a random fragment of DNA

9
Restriction Enzymes/Endonucleases
  • Enzymes able to cleave DNA at specific sequences
    4-8 bps in length
  • Originally found in bacteria, used as a defense
    against viral infection
  • Presently over 200 known REs, each recognizing a
    different DNA sequence

10
  • May make blunt (linear) cuts or staggered (zig
    zag) cuts
  • Staggered cuts leave sticky complementary
    ends-this allows DNA from 2 sources to join
    together (recombinant DNA)

11
  • Not every sequence is found in every genome/DNA
    fragment
  • Enzymes recognizing smaller sequences usually cut
    more often than enzymes recognizing larger
    sequences
  • Since every organisms DNA is different, cutting 2
    or more samples w/ the same RE will yield
    different sizes numbers of fragments
  • Cutting one DNA sample w/ the SAME RE will yield
    fragments which can be used to create a
    restriction map

12
Gel Electrophoresis
  • Uses
  • Paternity testing
  • Solving crimes
  • Diagnosing diseases
  • Finding a particular gene or DNA sequence in a
    DNA library
  • Taxonomical studies

13
The basics.http//gslc.genetics.utah.edu/units/
biotech/gel
14
A few more points..
  • Can be used to separate proteins, lipids, nucleic
    acids
  • Gel is porous agarose (starch or cellulose) and
    consistency can vary
  • Rate of movement is a function of fragment
    length/agarose consistency/time/ and voltage
  • Gels/DNA have dyes added to increase visibility
    of fragments both during after electrophoresis

15
Whodunnit?Crime Scenes
16
Whos my Baby Daddy?Aka paternity cases
17
Size DOES Matter!Determining the size (in bps)
of DNA fragments of unknown lengths
  • Generate a STANDARD CURVE using known sample
  • Compare distance migrated of unknown fragments to
    standard curve
  • Estimate unknown fragment sizes
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