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Literature DB >> 26443215

Design, Assembly, and Characterization of TALE-Based Transcriptional Activators and Repressors.

Pratiksha I Thakore¹, Charles A Gersbach^2,3,4.

Abstract

Transcription activator-like effectors (TALEs) are modular DNA-binding proteins that can be fused to a variety of effector domains to regulate the epigenome. Nucleotide recognition by TALE monomers follows a simple cipher, making this a powerful and versatile method to activate or repress gene expression. Described here are methods to design, assemble, and test TALE transcription factors (TALE-TFs) for control of endogenous gene expression. In this protocol, TALE arrays are constructed by Golden Gate cloning and tested for activity by transfection and quantitative RT-PCR. These methods for engineering TALE-TFs are useful for studies in reverse genetics and genomics, synthetic biology, and gene therapy.

Entities: CellLine Chemical Disease Gene Species

Keywords: Gene activation; Gene regulation; Gene repression; Genome engineering; Protein engineering; Synthetic biology; Transcription factors

Mesh：

Substances：

Year: 2016 PMID： 26443215 PMCID： PMC4922632 DOI： 10.1007/978-1-4939-2932-0_7

Source DB: PubMed Journal: Methods Mol Biol ISSN： 1064-3745

38 in total

1. Analysis of relative gene expression data using real-time quantitative PCR and the 2(-Delta Delta C(T)) Method.

Authors: K J Livak; T D Schmittgen
Journal: Methods Date: 2001-12 Impact factor: 3.608

2. A simple cipher governs DNA recognition by TAL effectors.

Authors: Matthew J Moscou; Adam J Bogdanove
Journal: Science Date: 2009-12-11 Impact factor: 47.728

3. FLASH assembly of TALENs for high-throughput genome editing.

Authors: Deepak Reyon; Shengdar Q Tsai; Cyd Khayter; Jennifer A Foden; Jeffry D Sander; J Keith Joung
Journal: Nat Biotechnol Date: 2012-05 Impact factor: 54.908

4. Efficient design and assembly of custom TALEN and other TAL effector-based constructs for DNA targeting.

Authors: Tomas Cermak; Erin L Doyle; Michelle Christian; Li Wang; Yong Zhang; Clarice Schmidt; Joshua A Baller; Nikunj V Somia; Adam J Bogdanove; Daniel F Voytas
Journal: Nucleic Acids Res Date: 2011-04-14 Impact factor: 16.971

5. SAPTA: a new design tool for improving TALE nuclease activity.

Authors: Yanni Lin; Eli J Fine; Zhilan Zheng; Christopher J Antico; Richard A Voit; Matthew H Porteus; Thomas J Cradick; Gang Bao
Journal: Nucleic Acids Res Date: 2014-01-16 Impact factor: 16.971

6. Transcription activator-like effector hybrids for conditional control and rewiring of chromosomal transgene expression.

Authors: Yi Li; Richard Moore; Michael Guinn; Leonidas Bleris
Journal: Sci Rep Date: 2012-11-28 Impact factor: 4.379

7. Engineering synthetic TAL effectors with orthogonal target sites.

Authors: Abhishek Garg; Jason J Lohmueller; Pamela A Silver; Thomas Z Armel
Journal: Nucleic Acids Res Date: 2012-05-11 Impact factor: 16.971

8. Reading frame correction by targeted genome editing restores dystrophin expression in cells from Duchenne muscular dystrophy patients.

Authors: David G Ousterout; Pablo Perez-Pinera; Pratiksha I Thakore; Ami M Kabadi; Matthew T Brown; Xiaoxia Qin; Olivier Fedrigo; Vincent Mouly; Jacques P Tremblay; Charles A Gersbach
Journal: Mol Ther Date: 2013-06-04 Impact factor: 11.454

9. RNA-guided gene activation by CRISPR-Cas9-based transcription factors.

Authors: Pablo Perez-Pinera; D Dewran Kocak; Christopher M Vockley; Andrew F Adler; Ami M Kabadi; Lauren R Polstein; Pratiksha I Thakore; Katherine A Glass; David G Ousterout; Kam W Leong; Farshid Guilak; Gregory E Crawford; Timothy E Reddy; Charles A Gersbach
Journal: Nat Methods Date: 2013-07-25 Impact factor: 28.547