| scholarly article | Q13442814 |
| P50 | author | Frédéric Pâques | Q28324701 |
| P2093 | author name string | Amélie Patin | |
| Emmanuel Lacroix | |||
| Jean-Charles Epinat | |||
| Patrick Chames | |||
| Sophie Guillier | |||
| P2860 | cites work | I-SceI-induced gene replacement at a natural locus in embryonic stem cells | Q24522393 |
| Mutations altering the cleavage specificity of a homing endonuclease | Q24537781 | ||
| Homing endonucleases: keeping the house in order | Q24545192 | ||
| A rapid, generally applicable method to engineer zinc fingers illustrated by targeting the HIV-1 promoter | Q24649794 | ||
| Induction of homologous recombination in mammalian chromosomes by using the I-SceI system of Saccharomyces cerevisiae | Q24652685 | ||
| The homing endonuclease I-CreI uses three metals, one of which is shared between the two active sites | Q27630852 | ||
| DNA recognition and cleavage by the LAGLIDADG homing endonuclease I-CreI | Q27765995 | ||
| Asymmetrical recognition and activity of the I-SceI endonuclease on its site and on intron-exon junctions | Q27934634 | ||
| Design and selection of novel Cys2His2 zinc finger proteins | Q28200747 | ||
| Highly efficient endogenous human gene correction using designed zinc-finger nucleases | Q28243157 | ||
| Development of zinc finger domains for recognition of the 5'-CNN-3' family DNA sequences and their use in the construction of artificial transcription factors | Q28267768 | ||
| Engineering of large numbers of highly specific homing endonucleases that induce recombination on novel DNA targets | Q28283796 | ||
| Genetic manipulation of genomes with rare-cutting endonucleases | Q28297326 | ||
| Double strand break-induced recombination in Chlamydomonas reinhardtii chloroplasts | Q29041806 | ||
| Transformation of yeast by lithium acetate/single-stranded carrier DNA/polyethylene glycol method | Q29547550 | ||
| Custom DNA-binding proteins come of age: polydactyl zinc-finger proteins | Q30699677 | ||
| Assessing the plasticity of DNA target site recognition of the PI-SceI homing endonuclease using a bacterial two-hybrid selection system | Q31029529 | ||
| Homing endonucleases: structure, function and evolution | Q33732879 | ||
| Analysis of gene targeting and intrachromosomal homologous recombination stimulated by genomic double-strand breaks in mouse embryonic stem cells | Q33774945 | ||
| Genetic analysis of the Chlamydomonas reinhardtii I-CreI mobile intron homing system in Escherichia coli | Q33971499 | ||
| Gene conversion tracts from double-strand break repair in mammalian cells | Q33995776 | ||
| An intron-encoded protein is active in a gene conversion process that spreads an intron into a mitochondrial gene | Q34193487 | ||
| A novel engineered meganuclease induces homologous recombination in yeast and mammalian cells | Q34200585 | ||
| Endonuclease-induced, targeted homologous extrachromosomal recombination in Xenopus oocytes. | Q34734999 | ||
| Double-strand breaks at the target locus stimulate gene targeting in embryonic stem cells | Q34784813 | ||
| Direct selection of a human antibody fragment directed against the tumor T-cell epitope HLA-A1-MAGE-A1 from a nonimmunized phage-Fab library. | Q35173245 | ||
| Chromosomal double-strand breaks induce gene conversion at high frequency in mammalian cells | Q36573445 | ||
| Two different but related mechanisms are used in plants for the repair of genomic double-strand breaks by homologous recombination | Q37613877 | ||
| An in vivo selection system for homing endonuclease activity | Q39538487 | ||
| A detailed study of the substrate specificity of a chimeric restriction enzyme. | Q39726873 | ||
| Markerless gene replacement in Escherichia coli stimulated by a double-strand break in the chromosome | Q39729563 | ||
| Cleavage and recognition pattern of a double-strand-specific endonuclease (I-creI) encoded by the chloroplast 23S rRNA intron of Chlamydomonas reinhardtii | Q42603591 | ||
| Introduction of double-strand breaks into the genome of mouse cells by expression of a rare-cutting endonuclease | Q42832099 | ||
| Phage display methods for selecting zinc finger proteins with novel DNA-binding specificities | Q56897252 | ||
| Gene targeting by homologous recombination in Drosophila | Q73901087 | ||
| P433 | issue | 20 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | e178 | |
| P577 | publication date | 2005-01-01 | |
| P1433 | published in | Nucleic Acids Research | Q135122 |
| P1476 | title | In vivo selection of engineered homing endonucleases using double-strand break induced homologous recombination | |
| P478 | volume | 33 |
| Q24670002 | A combinatorial approach to create artificial homing endonucleases cleaving chosen sequences |
| Q28307951 | An improved zinc-finger nuclease architecture for highly specific genome editing |
| Q24671370 | Catalytic domain of restriction endonuclease BmrI as a cleavage module for engineering endonucleases with novel substrate specificities |
| Q47127606 | Complex evolutionary footprints revealed in an analysis of reused protein segments of diverse lengths |
| Q44166529 | Crystallographic analyses illustrate significant plasticity and efficient recoding of meganuclease target specificity |
| Q25257169 | Engineering a rare-cutting restriction enzyme: genetic screening and selection of NotI variants |
| Q55359800 | Engineering altered protein-DNA recognition specificity. |
| Q27665420 | Evolution of I-SceI Homing Endonucleases with Increased DNA Recognition Site Specificity |
| Q27677268 | Expanding LAGLIDADG endonuclease scaffold diversity by rapidly surveying evolutionary sequence space |
| Q33281731 | Flow cytometric analysis of DNA binding and cleavage by cell surface-displayed homing endonucleases |
| Q38592859 | From Genomics to Gene Therapy: Induced Pluripotent Stem Cells Meet Genome Editing |
| Q38296493 | Generation and analysis of mesophilic variants of the thermostable archaeal I-DmoI homing endonuclease |
| Q37874216 | Generation of novel nucleases with extended specificity by rational and combinatorial strategies. |
| Q39549372 | Germline excision of transgenes in Aedes aegypti by homing endonucleases |
| Q37421080 | High-resolution profiling of homing endonuclease binding and catalytic specificity using yeast surface display |
| Q24674606 | Homing endonuclease I-CreI derivatives with novel DNA target specificities |
| Q36709717 | Homing endonucleases catalyze double-stranded DNA breaks and somatic transgene excision in Aedes aegypti. |
| Q42000691 | Homing endonucleases from mobile group I introns: discovery to genome engineering |
| Q37633432 | Homing endonucleases: from basics to therapeutic applications. |
| Q35621488 | Homing endonucleases: from genetic anomalies to programmable genomic clippers |
| Q37827234 | Homing endonucleases: from microbial genetic invaders to reagents for targeted DNA modification |
| Q34198887 | Improved modeling of side-chain--base interactions and plasticity in protein--DNA interface design |
| Q26748886 | In Vivo Delivery Systems for Therapeutic Genome Editing |
| Q24655431 | Minimotif miner 2nd release: a database and web system for motif search |
| Q35174685 | Native homing endonucleases can target conserved genes in humans and in animal models |
| Q24611750 | Precision editing of large animal genomes |
| Q35101254 | Protein structural modularity and robustness are associated with evolvability. |
| Q42072101 | Rational engineering of type II restriction endonuclease DNA binding and cleavage specificity |
| Q38025056 | Recent advances in targeted genome engineering in mammalian systems |
| Q37606980 | Reprogramming homing endonuclease specificity through computational design and directed evolution |
| Q37581606 | Targeted approaches for gene therapy and the emergence of engineered meganucleases |
| Q24655166 | Targeted genome editing in human cells with zinc finger nucleases constructed via modular assembly |
| Q42920176 | Thermodynamics of DNA target site recognition by homing endonucleases. |
| Q37948867 | Towards artificial metallonucleases for gene therapy: recent advances and new perspectives |
Search more.