Genetic Engineering

Key Words

Recombinant DNA- the genetic material from 2 species that has been combined

Transgenic Organism- an organism with DNA from another species introduced

Donor DNA- the DNA that is introduced

Host- the organism that has the DNA introduced

Transformed Cell- incorporated plasmid with a foreign gene

Restriction Endonuclease- bacterial enzymes that cut DNA at a specific nucleotide sequence

Sticky End- a sequence of unpaired bases on a double stranded DNA that readily base airs with a complementary strand

Reverse Transcriptase- an enzyme derived from a retrovirus that catalyses the synthesis of cDNA from an RNA template

Isolating the Gene

Restriction endonucleases are used to cut the DNA into many small fragments, to isolate specific genes. They usually leave a staggered cut, leaving a sticky end.

Example of restriction endonuclease: EcoR1 from E.coli, this breaks DNA where guanine is next to adenine. Leaves a sticky end. The sticky ends on each strand are in reverse order of each other (palindrome)

Drawbacks of using endonuclease:

• If the base sequence that the enzyme cuts is in the gene that needs to be isolated, then the gene will be broke into fragments that have no function

• Eukaryotic genes contains introns, normally intons are removed before mRNA moves to the cytoplasm. Bacteria do not have introns so may not have the appropriate enzymes to remove them, any protein translated will include the introns and won’t be functional

Reverse Transcriptase

Though cells only have 2 copies of the insulin gene, there may be many copies of the mRNA strand, especially in those cells that secrete insulin. This mRNA can be extracted.

The cDNA produced by reverse transcriptase is complementary to the RNA, therefore many copies of cDNA for insulin can be made.

Making Recombinant Plasmid

A bacterial cell won’t take in a gene spontaneously; it must be carried by a vector. In this case the vector is a plasmid, these move in and out the bacterial cells easily.

Isolating Plasmid:

To isolate the plasmid, the bacteria is treated with:

• EDTA-destabilises the cell walls

• Detergent-dissolves phospholipid cell membrane

• NaOH- creates alkaline environment to denature membrane proteins

The plasmid is cut open using the same restriction enzyme as the one used to isolate the gene. The vector and gene are mixed and the complementary base sequences base pair with each other. DNA Ligase is used to bind the sugar phosphate backbones together. The gene has been spliced into the vector. The plasmid is now recombinant DNA.

Transfer of DNA into Host Cell

To increase the rate of plasmids taken into the bacterial cells, calcium chloride is used, which binds to the negatively charged DNA backbone on the plasmid. The plasmid DNA passes into the cell with a heat shock, in which cells cooled to 4 °C are briefly heated to 42 °C.

Pros and Cons

Pros:

• Medical products: insulin, clotting factors to treat haemophilia, human growth hormone to treat types of dwarfism. These are safer then, which were purified in cadavers and could transmit disease.
• Prevention and treatment of disease: bacteria are modified to produce vaccines
• Crop Growth: modified molecules can secrete molecules that are toxic to plant pests