Zinc finger chimera
Encyclopedia
Zinc finger protein chimera are chimeric proteins composed of a DNA-binding zinc finger protein
domain and another domain through which the protein exerts its effect. The effector domain may be a transcriptional activator (A) or repressor (R), a methylation domain (M) or a nuclease
(N).
Modification of the endogenous DNA-binding zinc finger domain is the basis of the most advanced field in construction of gene-specific artificial transcription factors. Linking together six ZFPs produces a target-site of 18-19 bp. Assuming specificity to that one sequence and that the sequence of the genome is random, 18 bp is long enough to be unique in all known genomes Indeed, the spacing between subsites becomes part of the target sequence due to restrictions in the flexibility of the protein which can be controlled. Targeting sites as small as 9 bp provides some degree of specificity, almost certainly attributable in some part to chromatin occlusion.
strategies have been described, involving either parallel, sequential or bipartite selection of the constituent zinc fingers.
at a number of target sequences, as discussed later. If necessary, it may be possible to surmount the problem of target site overlap by randomising the amino acid residues at the interface of two zinc fingers at which it occurs.
The main drawback of this approach is the necessity to produce a separate library for each zinc finger, which exceeds the capacity of most laboratories.
In order to keep the library size within reasonable limits, this technique is restricted to randomisation of only the key residues involved in base recognition. Furthermore, unlike in parallel selection, this technique requires multiple pannings before a novel ZFP can be constructed.
Work is typically performed using the murine ZFP-TF Zif268
or one of its derivatives, as the basis of the zinc finger sequence modifications since it is the most well characterised of all zinc finger proteins. Its derivatives C7
or C7.GAT, are often used for their superior binding affinity and specificity. C7.GAT has been used to investigate the 5'-ANN-3' and 5'-CNN-3' families of sequences since the third finger of C7 defines a guanine or thymine in the 5' position of the finger two sequence (target site overlap) . Filamentous
helper phage and the DNA from lambda phage are utilised in phage display. Due to limitations in the size of libraries that can be routinely constructed, randomisation may be limited to the most influential amino acids in the ZFP sequence as inferred by X-ray crystallography
. The positions were identified as helix positions -1, 2, 3, 4, 5 and 6 in fingers one and three, and positions -2, -1, 1, 2, 3 and 4 in finger two in a study published by Wu et al. (1995), however another study by Segal et al. (1999) suggests the importance of all positions from -2 to 6 due to the unspecific affinity of some amino acids and the ability of others to stabilise adjacent interactions.
used may be synthesised to include a primary n‑hexyl amino group at its 5' end, later utilised to attach bovine serum albumin
(BSA). In this case, the conjugate is used to precoat a microtitre well, before applying ~1013 colony-forming units of phage. Following incubation, the phage are removed and the plate washed with buffer containing 0.5% Tween 20
to remove non-adherent phage. Using an acidic elution buffer, the adherent phage are removed and neutralised with Tris base. Further rounds of panning are completed to ensure enrichment of the sample, by infecting bacterial cells with the eluted phage and helper phage and then collecting the [ZFP-displaying] phage produced for the next round of panning. As an alternative to BSA, the hairpin target DNA may be biotin
ylated and later extracted using streptavidin
-coated magnetic beads (streptavidin forms very strong bonds with biotin).
To increase the specificity of the selected phage, especially where larger libraries are being investigated, competitor oligonucleotides are used to sequester those zinc finger proteins of lesser specificity before the biotinylated target oligonucleotide is added. Sheared herring sperm DNA for example, will bind phage with a non-specific adherence to DNA. Subsequent rounds of panning involve increasing concentrations of specifically synthesised non-target oligonucleotides where all but the sequence of the target subsite remains the same, down to a single nucleotide difference. In particular, the target sequence of the original ZFP which was subject to mutagenesis is used in high quantity to select against 'parental phage' contaminating the library. The binding of streptavidin-coated magnetic beads can be blocked by blotto and antibody-displaying (irrelevant) phage so that binding only occurs to molecules with such a high affinity as biotin. Non-specific phage are removed as before, using a buffer including dilute Tween 20. Bound phage are collected by virtue of the magnetic beads and may be eluted by incubation with trypsin
. Only those phage displaying highly specific ZFPs will thus be selected.
After elution, the phage can be plated and DNA extracted from individual plaque forming units, restricted and the appropriately sized fragments extracted after separation by PAGE. The DNA can then be sequenced to discover the protein primary structure that produces adherence to the target sequence. This process is repeated for each of the 5'-NNN-3' single finger subsites being investigated.
into a modified bacterial expression vector, pMal-c2, linking it to a sequence coding the maltose binding protein
. The recombinant is then transformed into XL1-Blue cells and expression is induced by the addition of isopropyl β-D-thiogalactoside (IPTG). Freeze/thaw extracts may then be purified for use in the following experiments. Whilst purification is not necessary for multitarget ELISA, it is essential for measuring binding affinity by plasmon resonance and DNase footprints. It can be performed using a Heparin-Sepharose FPLC column equilibrated with zinc buffer followed by confirmation of homogeneity by SDS PAGE gel densitometry The same techniques are used to examine the binding properties of completed polydactyl ZFP chimera
is added and allowed to bind, followed by washing to remove antibody, if it is not bound to zinc fingers. Alkaline phosphatase substrate is added and after stopping the reaction, the optical density at 405 nm (OD405) is determined by spectrophotometry
The reading from the spectrophotometer is dependent on the amount of alkaline phosphatase present in the well, which in turn is proportional to the binding of the ZFP in question. If the ZFP binds to a sequence for which it was not selected with too great an affinity, it is not specific enough for most medical purposes and will most likely be rejected.
These assays are repeated using different target oligonucleotides. When investigating zinc fingers binding 5'-XNN-3' sequences for example, all 16 of the possible oligonucleotide sequences will need to be investigated. Further, to test specificity to the 5' nucleotide, the full complement of the four 5'-ANN-3', 5'-CNN-3', 5'-GNN-3'. 5'-TNN-3' families are used as targets in four separate reactions and the relative binding in each is compared
. The surface of the sensor chip is coated with affinity purified streptavidin before application of biotinylated oligonucleotides which also adhere to the surface. The association rate (kon) is calculated by measuring the rate of ZFP binding to the surface using several different protein concentrations whilst the dissociation rate (koff) can be calculated by increasing the rate of flow after association. The mathematics is performed by software provided with the instrument.
Alternatively, Kd can be calculated from a gel mobility shift assay in which the same purified protein is incubated with serial dilutions of gel-purified, 32P-end-labelled target oligonucleotide. The incubation reactions are then resolved, over a short period, on a polyacrylamide gel and quantitated using a commercially available imager and software. Kd is calculated via Scatchard analysis using the binding isotherm equation; θb = [peptide]/([peptide] + Kd).
values
, capable of introducing double-stranded breaks at the locus of any sequence to which the zinc finger protein domain binds.
Zinc finger protein
A zinc finger protein is a DNA-binding protein domain consisting of zinc fingers ranging from two in the Drosophila regulator ADR1, the more common three in mammalian Sp1 up to nine in TFIIIA...
domain and another domain through which the protein exerts its effect. The effector domain may be a transcriptional activator (A) or repressor (R), a methylation domain (M) or a nuclease
Nuclease
A nuclease is an enzyme capable of cleaving the phosphodiester bonds between the nucleotide subunits of nucleic acids. Older publications may use terms such as "polynucleotidase" or "nucleodepolymerase"....
(N).
Modification of the endogenous DNA-binding zinc finger domain is the basis of the most advanced field in construction of gene-specific artificial transcription factors. Linking together six ZFPs produces a target-site of 18-19 bp. Assuming specificity to that one sequence and that the sequence of the genome is random, 18 bp is long enough to be unique in all known genomes Indeed, the spacing between subsites becomes part of the target sequence due to restrictions in the flexibility of the protein which can be controlled. Targeting sites as small as 9 bp provides some degree of specificity, almost certainly attributable in some part to chromatin occlusion.
Production of zinc finger protein domain
Depending upon the requirements of the investigation, there are several techniques available to define a DNA-recognition domain that will confer the specificity of a ZFP-based transcription factor. Three phage displayPhage display
Phage display is a method for the study of protein–protein, protein–peptide, and protein–DNA interactions that uses bacteriophages to connect proteins with the genetic information that encodes them. Phage Display was originally invented by George P...
strategies have been described, involving either parallel, sequential or bipartite selection of the constituent zinc fingers.
Parallel selection
The parallel selection (Fig. 1 (A)) approach assumes that the individual zinc finger domains are functionally independent. On this basis, existing predetermined domains should be usable with no additional design or selection, making it a rapid and accessible technique to any laboratory. This is not true in every case, such that this strategy is liable to suffer issues related to target-site overlapTarget-site overlap
In a zinc finger protein, certain sequences of amino acid residues are able to recognise and bind to an extended target-site of four or even five nucleotides When this occurs in a ZFP in which the three-nucleotide subsites are contiguous, one zinc finger interferes with the target-site of the zinc...
at a number of target sequences, as discussed later. If necessary, it may be possible to surmount the problem of target site overlap by randomising the amino acid residues at the interface of two zinc fingers at which it occurs.
Sequential selection
Sequential selection (Fig. 1 (B)), put forward by the Pabo group in 1997 embraces the cooperative binding between zinc fingers to produce DNA-binding domains of great affinity and specificity. As suggested by the name, each finger is selected from a randomised library in the context of the previously selected finger. The techniques used in selection are similar to those described below except that the target oligonucleotide used in selection contains the entire target sequence. As shown in Fig. 1, a library is created in which finger three contains the randomised alpha-helix. The domain with the best binding characteristics is selected and then included in another library in which the finger-one anchor is removed and another randomised finger is added to the opposite end. This continues and results in a DNA-binding domain in which all fingers were selected in the context of the neighbouring finger and since each round of selection is applied to the same final target sequence, target site overlap still occurs but is an asset rather than a hindrance.The main drawback of this approach is the necessity to produce a separate library for each zinc finger, which exceeds the capacity of most laboratories.
Bipartite selection
The bipartite selection (Fig 1 (C)) method was proposed by Isalan et al., 2001 as a compromise between the parallel and sequential selection strategies. The first and last 5 bp of the 9 bp target site are selected in parallel and combined to produce a library from which the final ZFP is chosen.In order to keep the library size within reasonable limits, this technique is restricted to randomisation of only the key residues involved in base recognition. Furthermore, unlike in parallel selection, this technique requires multiple pannings before a novel ZFP can be constructed.
Zinc finger selection by phage display
In order to determine the most appropriate sequence of amino acids in the alpha-helix of a zinc finger for binding to a given DNA sequence, a technique involving phage display may be employed. By altering the genome of selected bacteriophage, it is possible to create a phage that will display a ZFP as part of its protein coat. Such phage can subsequently be tested for adherence, via the attached zinc fingers, to an oligonucleotide containing the sequence of interest, whilst other, non-adherent phage are washed away. The DNA within the phage codes for the ZFPs expressed, so extracting and sequencing the DNA of bound phage provides information as to suitable amino acid configurations for binding a specific sequence. This forms the basis of the investigation of ZFPs binding by phage display.Work is typically performed using the murine ZFP-TF Zif268
Zif268
EGR-1 also known as Zif268 or NGFI-A is a protein that in humans is encoded by the EGR1 gene....
or one of its derivatives, as the basis of the zinc finger sequence modifications since it is the most well characterised of all zinc finger proteins. Its derivatives C7
C7
C7, C07 or C-7 may refer to:* C-7 Caribou, a military transport aircraft* Nokia C7-00, a touch screen mobile from Nokia* C7 protein, engineered transcription factors* C7 , a song by Japanese band GO!GO!7188...
or C7.GAT, are often used for their superior binding affinity and specificity. C7.GAT has been used to investigate the 5'-ANN-3' and 5'-CNN-3' families of sequences since the third finger of C7 defines a guanine or thymine in the 5' position of the finger two sequence (target site overlap) . Filamentous
Filamentous phage
A filamentous phage is a type of bacteriophage shaped like a rod filament. Filamentous phages usually contain a genome of single-stranded DNA and infect Gram-negative bacteria.-Types of filamentous phage:*Ff phages - these infect E...
helper phage and the DNA from lambda phage are utilised in phage display. Due to limitations in the size of libraries that can be routinely constructed, randomisation may be limited to the most influential amino acids in the ZFP sequence as inferred by X-ray crystallography
X-ray crystallography
X-ray crystallography is a method of determining the arrangement of atoms within a crystal, in which a beam of X-rays strikes a crystal and causes the beam of light to spread into many specific directions. From the angles and intensities of these diffracted beams, a crystallographer can produce a...
. The positions were identified as helix positions -1, 2, 3, 4, 5 and 6 in fingers one and three, and positions -2, -1, 1, 2, 3 and 4 in finger two in a study published by Wu et al. (1995), however another study by Segal et al. (1999) suggests the importance of all positions from -2 to 6 due to the unspecific affinity of some amino acids and the ability of others to stabilise adjacent interactions.
In vitro selection of zinc fingers
A short (~34 nt) hairpin DNA containing the ZFP binding site with alterations occurring in a single subsite is used as the target. The oligonucleotideOligonucleotide
An oligonucleotide is a short nucleic acid polymer, typically with fifty or fewer bases. Although they can be formed by bond cleavage of longer segments, they are now more commonly synthesized, in a sequence-specific manner, from individual nucleoside phosphoramidites...
used may be synthesised to include a primary n‑hexyl amino group at its 5' end, later utilised to attach bovine serum albumin
Bovine serum albumin
Bovine serum albumin is a serum albumin protein derived from cows. It is often used as a protein concentration standard....
(BSA). In this case, the conjugate is used to precoat a microtitre well, before applying ~1013 colony-forming units of phage. Following incubation, the phage are removed and the plate washed with buffer containing 0.5% Tween 20
Tween 20
Polysorbate 20 is a polysorbate surfactant whose stability and relative non-toxicity allows it to be used as a detergent and emulsifier in a number of domestic, scientific, and pharmacological applications...
to remove non-adherent phage. Using an acidic elution buffer, the adherent phage are removed and neutralised with Tris base. Further rounds of panning are completed to ensure enrichment of the sample, by infecting bacterial cells with the eluted phage and helper phage and then collecting the [ZFP-displaying] phage produced for the next round of panning. As an alternative to BSA, the hairpin target DNA may be biotin
Biotin
Biotin, also known as Vitamin H or Coenzyme R, is a water-soluble B-complex vitamin discovered by Bateman in 1916. It is composed of a ureido ring fused with a tetrahydrothiophene ring. A valeric acid substituent is attached to one of the carbon atoms of the tetrahydrothiophene ring...
ylated and later extracted using streptavidin
Streptavidin
Streptavidin is a 60000 dalton protein purified from the bacterium Streptomyces avidinii. Streptavidin homo-tetramers have an extraordinarily high affinity for biotin . With a dissociation constant on the order of ≈10-14 mol/L, the binding of biotin to streptavidin is one of the strongest...
-coated magnetic beads (streptavidin forms very strong bonds with biotin).
To increase the specificity of the selected phage, especially where larger libraries are being investigated, competitor oligonucleotides are used to sequester those zinc finger proteins of lesser specificity before the biotinylated target oligonucleotide is added. Sheared herring sperm DNA for example, will bind phage with a non-specific adherence to DNA. Subsequent rounds of panning involve increasing concentrations of specifically synthesised non-target oligonucleotides where all but the sequence of the target subsite remains the same, down to a single nucleotide difference. In particular, the target sequence of the original ZFP which was subject to mutagenesis is used in high quantity to select against 'parental phage' contaminating the library. The binding of streptavidin-coated magnetic beads can be blocked by blotto and antibody-displaying (irrelevant) phage so that binding only occurs to molecules with such a high affinity as biotin. Non-specific phage are removed as before, using a buffer including dilute Tween 20. Bound phage are collected by virtue of the magnetic beads and may be eluted by incubation with trypsin
Trypsin
Trypsin is a serine protease found in the digestive system of many vertebrates, where it hydrolyses proteins. Trypsin is produced in the pancreas as the inactive proenzyme trypsinogen. Trypsin cleaves peptide chains mainly at the carboxyl side of the amino acids lysine or arginine, except when...
. Only those phage displaying highly specific ZFPs will thus be selected.
After elution, the phage can be plated and DNA extracted from individual plaque forming units, restricted and the appropriately sized fragments extracted after separation by PAGE. The DNA can then be sequenced to discover the protein primary structure that produces adherence to the target sequence. This process is repeated for each of the 5'-NNN-3' single finger subsites being investigated.
Investigating binding characteristics
These investigations require the use of soluble ZFPs, since attachment to phage can alter the binding characteristics of the zinc fingers. Once a ZFP has been selected, its sequence is subcloned from pComb3HPComb3H
pComb3H, a derivative of pComb3 optimized for expression of human fragments, is a phagemid used to express proteins such as zinc finger proteins and antibody fragments on phage pili for the purpose of phage display selection....
into a modified bacterial expression vector, pMal-c2, linking it to a sequence coding the maltose binding protein
Maltose binding protein
Maltose-Binding Protein is a part of the maltose/maltodextrin system of Escherichia coli, which is responsible for the uptake and efficient catabolism of maltodextrins. It is a complex regulatory and transport system involving many proteins and protein complexes...
. The recombinant is then transformed into XL1-Blue cells and expression is induced by the addition of isopropyl β-D-thiogalactoside (IPTG). Freeze/thaw extracts may then be purified for use in the following experiments. Whilst purification is not necessary for multitarget ELISA, it is essential for measuring binding affinity by plasmon resonance and DNase footprints. It can be performed using a Heparin-Sepharose FPLC column equilibrated with zinc buffer followed by confirmation of homogeneity by SDS PAGE gel densitometry The same techniques are used to examine the binding properties of completed polydactyl ZFP chimera
Specificity testing
The specificity of ZFPs selected by phage display, is tested using a multitarget enzyme-linked immunsorbant assay (ELISA). The ZFPs are applied to microtitre wells coated with streptavidin and a biotinylated target oligonucleotide. After incubation, the wells are washed to remove zinc fingers if they are not adherent to the target sequence, followed by the application of mouse anti-MBP (maltose binding protein) antibody and incubation. Goat anti-mouse antibody coupled to alkaline phosphataseAlkaline phosphatase
Alkaline phosphatase is a hydrolase enzyme responsible for removing phosphate groups from many types of molecules, including nucleotides, proteins, and alkaloids. The process of removing the phosphate group is called dephosphorylation...
is added and allowed to bind, followed by washing to remove antibody, if it is not bound to zinc fingers. Alkaline phosphatase substrate is added and after stopping the reaction, the optical density at 405 nm (OD405) is determined by spectrophotometry
Spectrophotometry
In chemistry, spectrophotometry is the quantitative measurement of the reflection or transmission properties of a material as a function of wavelength...
The reading from the spectrophotometer is dependent on the amount of alkaline phosphatase present in the well, which in turn is proportional to the binding of the ZFP in question. If the ZFP binds to a sequence for which it was not selected with too great an affinity, it is not specific enough for most medical purposes and will most likely be rejected.
These assays are repeated using different target oligonucleotides. When investigating zinc fingers binding 5'-XNN-3' sequences for example, all 16 of the possible oligonucleotide sequences will need to be investigated. Further, to test specificity to the 5' nucleotide, the full complement of the four 5'-ANN-3', 5'-CNN-3', 5'-GNN-3'. 5'-TNN-3' families are used as targets in four separate reactions and the relative binding in each is compared
Kinetic analysis
Kinetic analysis provides information regarding both the affinity and the specificity of zinc finger adherence to the target. It can be performed using commercially available equipment utilising surface plasmon resonanceSurface plasmon resonance
The excitation of surface plasmons by light is denoted as a surface plasmon resonance for planar surfaces or localized surface plasmon resonance for nanometer-sized metallic structures....
. The surface of the sensor chip is coated with affinity purified streptavidin before application of biotinylated oligonucleotides which also adhere to the surface. The association rate (kon) is calculated by measuring the rate of ZFP binding to the surface using several different protein concentrations whilst the dissociation rate (koff) can be calculated by increasing the rate of flow after association. The mathematics is performed by software provided with the instrument.
Alternatively, Kd can be calculated from a gel mobility shift assay in which the same purified protein is incubated with serial dilutions of gel-purified, 32P-end-labelled target oligonucleotide. The incubation reactions are then resolved, over a short period, on a polyacrylamide gel and quantitated using a commercially available imager and software. Kd is calculated via Scatchard analysis using the binding isotherm equation; θb = [peptide]/([peptide] + Kd).
DNase I footprint analysis
To determine the space occupied by a ZFP when bound to its DNA target, a fragment of the target gene is amplified by PCR and mixed with a 32P-end-labelled promoter fragment. This reaction is then incubated with several different concentrations of ZFP produced and purified using one of the previously described overexpression (e.g. pMal-c2 and XL1-Blue) and purification methods. Digestion with DNase I will produce fragments of varying lengths, but where the ZFP has been allowed to bind at high concentration, the corresponding fragment lengths will not be present in the mixture, since DNase activity has been occluded by the ZFP at these locations. The samples are separated on an acrylamide (~6%), urea (8 M) gel, used to expose phosphorimaging plates and recorded by a commercially available phosphorimaging machine. Software analysis can also be used to produce KTarget-site overlap
Certain sequences of amino acid residues are able to recognise and are specific to an extended target-site of four or even five nucleotides When this occurs in a ZFP in which the three-nucleotide subsites are contiguous, one zinc finger interferes with the target-site of the zinc finger adjacent to it, a situation known as target-site overlap.Zinc finger protein transcription factors
ZFP-TFs, consisting of activators and repressors are transcription factors composed of a zinc finger protein domain and any of a variety of transcription-factor effector-domains which exert their modulatory effect around any sequence to which the ZFP domain binds.Zinc finger nucleases
Zinc finger nucleases include a nuclease domain such as FokIFokI
The enzyme FokI, naturally found in Flavobacterium okeanokoites, is a bacterial type IIS restriction endonuclease consisting of an N-terminal DNA-binding domain and a non-specific DNA cleavage domain at the C-terminal...
, capable of introducing double-stranded breaks at the locus of any sequence to which the zinc finger protein domain binds.
See also
- Zinc finger proteinZinc finger proteinA zinc finger protein is a DNA-binding protein domain consisting of zinc fingers ranging from two in the Drosophila regulator ADR1, the more common three in mammalian Sp1 up to nine in TFIIIA...
- Zinc finger nucleaseZinc finger nucleaseZinc-finger nucleases are artificial restriction enzymes generated by fusing a zinc finger DNA-binding domain to a DNA-cleavage domain. Zinc finger domains can be engineered to target desired DNA sequences and this enables zinc-finger nucleases to target unique sequences within complex genomes...
- Zinc finger protein transcription factorZinc finger protein transcription factorZinc finger protein transcription factors or ZFP-TFs, consisting of activators and repressors are transcription factors composed of a zinc finger protein domain and any of a variety of transcription-factor effector-domains which exert their modulatory effect in the vicinity of any sequence to...
- Gene therapyGene therapyGene therapy is the insertion, alteration, or removal of genes within an individual's cells and biological tissues to treat disease. It is a technique for correcting defective genes that are responsible for disease development...