Zinc Finger Nuclease (ZFN)
Introduction
Zinc finger nucleases (ZFNs) are proteins composed of a DNA binding-domain and a DNA cleaving-domain. One zinc “finger” binding domain recognizes and binds to a three nucleotide sequence, one can thus increase the binding specificity of a ZFN by adding more zinc fingers. The DNA cleaving-domain (Fok 1 nuclease) can then be used to create a double-stranded break in DNA at the desired point (Fig. 1).
After a double stranded break, DNA is repaired by non-homologous end joining. This often causes small insertions or deletions in the DNA, resulting frame-shift mutations. These frame-shifts result in nonsense mutations or nonsense-mediated decay. These effects are therefore very useful for creating knockout genes.
Additionally, genetic material such as DNA plasmids can be integrated into a gene after a double stranded break. A desired donor plasmid will contain arms of DNA which are homologous to the ZFN cut site. The donor plasmid and ZFNs can then be added simultaneously to the cell, the genetic material will be successfully incorporated after a double stranded cut and subsequent homologous recombination. Though homologous recombination is a rare event in most cells, double stranded breaks from ZFNs greatly increase the frequency of such events, facilitating gene insertion.
This makes ZFNs very useful tools for creating transgenic organisms and genetic engineering.
History
While other gene targeting procedures have existed for quite some time, the success of earlier methods were dependent on several factors including homologous recombination. Also, while genetic changes were observed in fungi like Saccharomyces cerevisiae and bacteria, most methods did not work on eukaryotic organisms. However, when studies in the 80s revealed that double-stranded DNA breaks greatly increased the frequency of recombination and thus successful genetic modifiactions, tools such as ZFNs became favored. Previously, stem cells were required (Rudin et. al.).
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Legend/credit: Diagram of a zinc finger nuclease. The zinc fingers are part of the binding-domain and have precisely identified and bound to a group of matching nucleobases in the DNA sequence. The cleaving-domains are Fok 1, which make a break in the DNA in both strands. Image credit to Stewart, C. N. and Burris, J. Jr.
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Using ZFNs to create knockout cells
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Using ZFNs to insert genes into an existing genomic site
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Section 3
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Conclusion
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