| scholarly article | Q13442814 |
| P6179 | Dimensions Publication ID | 1023839866 |
| P356 | DOI | 10.1038/NMETH.1805 |
| P698 | PubMed publication ID | 22205514 |
| P5875 | ResearchGate publication ID | 51977580 |
| P2093 | author name string | Mark Isalan | |
| P2860 | cites work | Targeting DNA double-strand breaks with TAL effector nucleases | Q24605087 |
| A rapid, generally applicable method to engineer zinc fingers illustrated by targeting the HIV-1 promoter | Q24649794 | ||
| Rapid "open-source" engineering of customized zinc-finger nucleases for highly efficient gene modification | Q24651280 | ||
| A combinatorial approach to create artificial homing endonucleases cleaving chosen sequences | Q24670002 | ||
| Design and selection of novel Cys2His2 zinc finger proteins | Q28200747 | ||
| Highly efficient endogenous human gene correction using designed zinc-finger nucleases | Q28243157 | ||
| Revealing off-target cleavage specificities of zinc-finger nucleases by in vitro selection | Q28245039 | ||
| Unexpected failure rates for modular assembly of engineered zinc fingers | Q28278303 | ||
| Directed evolution of an enhanced and highly efficient FokI cleavage domain for zinc finger nucleases | Q28281488 | ||
| An improved zinc-finger nuclease architecture for highly specific genome editing | Q28307951 | ||
| Structure-based redesign of the dimerization interface reduces the toxicity of zinc-finger nucleases | Q28307957 | ||
| Comprehensive DNA recognition through concerted interactions from adjacent zinc fingers | Q32028923 | ||
| Stimulation of homologous recombination through targeted cleavage by chimeric nucleases | Q33927812 | ||
| p53 Gene repair with zinc finger nucleases optimised by yeast 1-hybrid and validated by Solexa sequencing | Q33939746 | ||
| ZiFiT (Zinc Finger Targeter): an updated zinc finger engineering tool | Q33957629 | ||
| Targeted chromosomal cleavage and mutagenesis in Drosophila using zinc-finger nucleases | Q34615432 | ||
| Targeted gene addition into a specified location in the human genome using designed zinc finger nucleases | Q35645641 | ||
| Sequence-specific recognition of double helical nucleic acids by proteins | Q35987597 | ||
| Synergy between adjacent zinc fingers in sequence-specific DNA recognition | Q36152818 | ||
| Surrogate reporters for enrichment of cells with nuclease-induced mutations | Q39461040 | ||
| An unbiased genome-wide analysis of zinc-finger nuclease specificity | Q39493921 | ||
| Mammalian gene targeting with designed zinc finger nucleases | Q40371944 | ||
| Adding fingers to an engineered zinc finger nuclease can reduce activity | Q41901647 | ||
| A bacterial one-hybrid system for determining the DNA-binding specificity of transcription factors | Q43159884 | ||
| Transient cold shock enhances zinc-finger nuclease-mediated gene disruption. | Q45142353 | ||
| P433 | issue | 1 | |
| P304 | page(s) | 32-34 | |
| P577 | publication date | 2011-12-28 | |
| P1433 | published in | Nature Methods | Q680640 |
| P1476 | title | Zinc-finger nucleases: how to play two good hands | |
| P478 | volume | 9 |
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| Q37260380 | An alternative novel tool for DNA editing without target sequence limitation: the structure-guided nuclease |
| Q36079071 | Balancing between affinity and speed in target DNA search by zinc-finger proteins via modulation of dynamic conformational ensemble |
| Q40383923 | Compact designer TALENs for efficient genome engineering |
| Q35145824 | Comparison of T7E1 and surveyor mismatch cleavage assays to detect mutations triggered by engineered nucleases |
| Q37237181 | Deimmunization for gene therapy: host matching of synthetic zinc finger constructs enables long-term mutant Huntingtin repression in mice |
| Q26785684 | Dissecting diabetes/metabolic disease mechanisms using pluripotent stem cells and genome editing tools |
| Q36491274 | EENdb: a database and knowledge base of ZFNs and TALENs for endonuclease engineering |
| Q46398292 | Gene Editing and Human Pluripotent Stem Cells: Tools for Advancing Diabetes Disease Modeling and Beta-Cell Development |
| Q26742051 | Genome-edited human stem cell-derived beta cells: a powerful tool for drilling down on type 2 diabetes GWAS biology |
| Q34437293 | Genomic editing tools to model human diseases with isogenic pluripotent stem cells |
| Q92124016 | High throughput, efficacious gene editing & genome surveillance in Chinese hamster ovary cells |
| Q58552591 | High-throughput ‘On Chip’ Protein and Nucleic Acid Transfection |
| Q36618495 | Magnetic separation and antibiotics selection enable enrichment of cells with ZFN/TALEN-induced mutations |
| Q39126523 | May I Cut in? Gene Editing Approaches in Human Induced Pluripotent Stem Cells |
| Q52651990 | Minimum length of direct repeat sequences required for efficient homologous recombination induced by zinc finger nuclease in yeast. |
| Q24631042 | Newer gene editing technologies toward HIV gene therapy |
| Q37982821 | Oligonucleotide-directed gene-editing technology: mechanisms and future prospects. |
| Q57270855 | Opportunities and challenges for metabolic engineering of secondary metabolite pathways for improved human health characters in fruit and vegetable crops |
| Q36255019 | Pluripotent stem cell applications for regenerative medicine |
| Q47429556 | Prediction of DNA-binding specificity in zinc finger proteins |
| Q30537588 | Quantifying the transcriptional output of single alleles in single living mammalian cells |
| Q34428260 | Rescue the failed half-ZFN by a sensitive mammalian cell-based luciferase reporter system |
| Q40456729 | Speed-stability paradox in DNA-scanning by zinc-finger proteins. |
| Q36815087 | Structural basis for specific single-stranded RNA recognition by designer pentatricopeptide repeat proteins |
| Q31135225 | Structure based design of protein linkers for zinc finger nuclease |
| Q35974993 | Targeted In Situ Gene Correction of Dysfunctional APOE Alleles to Produce Atheroprotective Plasma ApoE3 Protein |
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| Q37523791 | Thermodynamic Additivity for Impacts of Base-Pair Substitutions on Association of the Egr-1 Zinc-Finger Protein with DNA. |
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