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Concept 20.1: DNA cloning yields multiple copies of a gene or other DNA segment To work directly with specific genes, scientists prepare well-defined segments.

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Presentation on theme: "Concept 20.1: DNA cloning yields multiple copies of a gene or other DNA segment To work directly with specific genes, scientists prepare well-defined segments."— Presentation transcript:

1 Concept 20.1: DNA cloning yields multiple copies of a gene or other DNA segment To work directly with specific genes, scientists prepare well-defined segments of DNA in identical copies, a process called DNA cloning © 2011 Pearson Education, Inc.

2 DNA Cloning and Its Applications: A Preview Most methods for cloning pieces of DNA in the laboratory share general features, such as the use of bacteria and their plasmids Plasmids are small circular DNA molecules that replicate separately from the bacterial chromosome Cloned genes are useful for making copies of a particular gene and producing a protein product © 2011 Pearson Education, Inc.

3 Gene cloning involves using bacteria to make multiple copies of a gene Foreign DNA is inserted into a plasmid, and the recombinant plasmid is inserted into a bacterial cell Reproduction in the bacterial cell results in cloning of the plasmid including the foreign DNA This results in the production of multiple copies of a single gene © 2011 Pearson Education, Inc.

4 Figure 20.2 Bacterium Bacterial chromosome Plasmid 2134 Gene inserted into plasmid Cell containing gene of interest Recombinant DNA (plasmid) Gene of interest Plasmid put into bacterial cell DNA of chromosome (“foreign” DNA) Recombinant bacterium Host cell grown in culture to form a clone of cells containing the “cloned” gene of interest Gene of interest Protein expressed from gene of interest Protein harvested Copies of gene Basic research and various applications Basic research on protein Basic research on gene Gene for pest resistance inserted into plants Gene used to alter bacteria for cleaning up toxic waste Protein dissolves blood clots in heart attack therapy Human growth hormone treats stunted growth

5 Figure 20.2a Bacterium Bacterial chromosome Plasmid 21 Gene inserted into plasmid Cell containing gene of interest Recombinant DNA (plasmid) Gene of interest Plasmid put into bacterial cell DNA of chromosome (“foreign” DNA) Recombinant bacterium

6 Figure 20.2b Host cell grown in culture to form a clone of cells containing the “cloned” gene of interest Gene of interest Protein expressed from gene of interest Protein harvested Copies of gene Basic research and various applications 34 Basic research on protein Basic research on gene Gene for pest resistance inserted into plants Gene used to alter bacteria for cleaning up toxic waste Protein dissolves blood clots in heart attack therapy Human growth hormone treats stunted growth

7 Using Restriction Enzymes to Make Recombinant DNA Bacterial restriction enzymes cut DNA molecules at specific DNA sequences called restriction sites A restriction enzyme usually makes many cuts, yielding restriction fragments The most useful restriction enzymes cut DNA in a staggered way, producing fragments with “sticky ends.” © 2011 Pearson Education, Inc. Animation: Restriction Enzymes

8 Sticky ends can bond with complementary sticky ends of other fragments DNA ligase is an enzyme that seals the bonds between restriction fragments © 2011 Pearson Education, Inc.

9 Figure 20.3-3 Recombinant DNA molecule One possible combination DNA ligase seals strands DNA fragment added from another molecule cut by same enzyme. Base pairing occurs. Restriction enzyme cuts sugar-phosphate backbones. Restriction site DNA 5 5 5 5 5 5 5 5 55 5 5 55 5 5 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 231 Sticky end GAATTC CTTAAG CTTAA G AATTC G G G CTTAA G G G G AATT C C TTAA

10 Cloning a Eukaryotic Gene in a Bacterial Plasmid In gene cloning, the original plasmid is called a cloning vector A cloning vector is a DNA molecule that can carry foreign DNA into a host cell and replicate there © 2011 Pearson Education, Inc.

11 Figure 20.4 Bacterial plasmid TECHNIQUE RESULTS amp R gene lacZ gene Restriction site Hummingbird cell Sticky ends Gene of interest Humming- bird DNA fragments Recombinant plasmidsNonrecombinant plasmid Bacteria carrying plasmids Colony carrying non- recombinant plasmid with intact lacZ gene Colony carrying recombinant plasmid with disrupted lacZ gene One of many bacterial clones

12 Figure 20.4b RESULTS Bacteria carrying plasmids Colony carrying non- recombinant plasmid with intact lacZ gene Colony carrying recombinant plasmid with disrupted lacZ gene One of many bacterial clones

13 Restriction fragments of DNA can be sorted by size 12.10 Gel electrophoresis sorts DNA molecules by size Figure 12.10 Mixture of DNA molecules of different sizes Power source Gel Glass plates Longer molecules Shorter molecules Completed gel

14 Screening a Library for Clones Carrying a Gene of Interest A clone carrying the gene of interest can be identified with a nucleic acid probe having a sequence complementary to the gene This process is called nucleic acid hybridization © 2011 Pearson Education, Inc.

15 A probe can be synthesized that is complementary to the gene of interest For example, if the desired gene is – Then we would synthesize this probe © 2011 Pearson Education, Inc. 5 3  CTCAT CACCGGC  5 3 G A G T A G T G G C C GG A G T A G T G G C C G

16 The DNA probe can be used to screen a large number of clones simultaneously for the gene of interest Once identified, the clone carrying the gene of interest can be cultured © 2011 Pearson Education, Inc.

17 Problems with expressing Eukaryotic genes in Bacteria Eventhough bacteria are capable of transcribing and translating eukaryotic genes, they do not have the capacity to splice exons and get rid of introns. So in order for them to be able to make a protein, an in intronless gene has to be inserted into bacteria

18 Figure 20.6-5 DNA in nucleus mRNAs in cytoplasm mRNA Reverse transcriptase Poly-A tail DNA strand Primer DNA polymerase cDNA 5 5 5 5 5 5 5 5 3 3 3 3 3 3 3 3 A A A T T T T T

19 Scientists can compare DNA sequences of different individuals based on the size of the fragments 12.11 Restriction fragment analysis is a powerful method that detects differences in DNA sequences Figure 12.11A Allele 1Allele 2 w x y Cut z y DNA from chromosomes

20 Figure 12.11B 12 Longer fragments Shorter fragments

21 DNA fingerprinting can help solve crimes 12.15 Connection: DNA technology is used in courts of law OTHER APPLICATIONS OF DNA TECHNOLOGY Figure 12.15A, B Defendant’s blood Blood from defendant’s clothes Victim’s blood

22 The polymerase chain reaction (PCR) can quickly clone a small sample of DNA in a test tube 12.12 The PCR method is used to amplify DNA sequences Figure 12.12 Initial DNA segment 1248 Number of DNA molecules

23 Recombinant cells and organisms are used to manufacture useful proteins 12.16 Connection: Recombinant cells and organisms can mass-produce gene products Table 12.16

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