Team:Freiburg/Project/Intro
From 2012.igem.org
Pablinitus (Talk | contribs) (→Introduction) |
Pablinitus (Talk | contribs) (→Introduction) |
||
Line 187: | Line 187: | ||
<html> | <html> | ||
- | <div align="justify">Originally, TAL proteins are virulence factors of the plant-pathogenic | + | <div align="justify">Originally, TAL proteins are virulence factors of the plant-pathogenic Xanthomonas spp. that are injected into plant cells via a type III secretion system in order to modulate transcription<sup>1</sup>. For this purpose, their c-terminal end contains a nuclear localisation signal (NLS) and an acidic activation domain. The central part of the TAL protein contains a number of almost similar repeats that mediate specific binding to target loci in the genome (see figure 10). |
In 2009, two groups have simultaneously pointed out that each of these repeats specifically binds to one base of the target DNA via two amino acids (aa 12 and 13), named the repeat variable diresidues (RVD)<sup>2</sup>. Moreover, it has been shown that DNA binding of these proteins is highly modular, i.e. the number bases or sequence of the target DNA can be changed by adjusting the number or order of the repeats in the TAL protein, respectively. | In 2009, two groups have simultaneously pointed out that each of these repeats specifically binds to one base of the target DNA via two amino acids (aa 12 and 13), named the repeat variable diresidues (RVD)<sup>2</sup>. Moreover, it has been shown that DNA binding of these proteins is highly modular, i.e. the number bases or sequence of the target DNA can be changed by adjusting the number or order of the repeats in the TAL protein, respectively. | ||
It is still unclear, how the sequence of DNA binding modules and TALE activity correlate. The minimal condition for TALE activity is a thymine at the 5’ end of the target sequence. Further target sequence requirements that allow for one TALEN pair binding site every 35 bp (published by the Voytas lab in 2011<sup>3</sup>) have recently been questioned by Reyon et al.<sup>4</sup> In summary, it is very likely that you can find a potential TALE binding site in any sequence you want to target. | It is still unclear, how the sequence of DNA binding modules and TALE activity correlate. The minimal condition for TALE activity is a thymine at the 5’ end of the target sequence. Further target sequence requirements that allow for one TALEN pair binding site every 35 bp (published by the Voytas lab in 2011<sup>3</sup>) have recently been questioned by Reyon et al.<sup>4</sup> In summary, it is very likely that you can find a potential TALE binding site in any sequence you want to target. |
Revision as of 16:28, 9 October 2012
Introduction
-
October 2009
Two research groups publish the TAL Effector codes in the same issue of Science: Amino acid 12 and 13 of every DNA binding module specifically binds to one nucleotide
-
October 2010
Voytas Lab develops TALENs. These fusion proteins of FokI and a TAL protein cut as dimers and allow researchers to cut virtually anywhere in the genome. Since double strand breaks increase efficiency of homologous recombination, TALENS are a powerful tool for genetic engineering and gene therapy
-
February 2011
Based on an exclusive licensing agreement with the University of Minnasota, Cellectis bioresearch launches its TAL effector product line. One TALEN pair currently costs 5000 Euro (6454 US$, 26.10.12).
-
October 2011
The iGEM team from Harvard University employed fancy and expensive techniques to find up to 15 new zinc fingers (each of which binds to 3 bp). There has to be a better way…
-
December 2011
Nature chooses TALENs as the 2011 Method of the year.
-
February 2012
The first two crystal structures of TALE modules bound to DNA published in the same issue of Science. The protein literally wraps itself around the DNA double helix and forms these beautiful symmetric shapes.
-
April 2012
Joung lab publishes FLASH assembly in Nature Biotechnology. This first automatable TAL assembly platform facilitates assembly of 96 TAL DNA fragments in less than a day using a pipeting robot.
-
October 2012
The Freiburg iGEM team makes TALE technology available to everyone by introducing the GATE assembly kit. For TALEs targeting 14 bp, this platform is currently the fastest, cheapest and easiest method in the world.
References:
1. Scholze, H. & Boch, J. TAL effectors are remote controls for gene activation. Current Opinion in Microbiology 14, 47–53 (2011).
2. Moscou, M. J. & Bogdanove, A. J. A Simple Cipher Governs DNA Recognition by TAL Effectors. Science 326, 1501–1501 (2009).
3. Cermak, T. et al. Efficient design and assembly of custom TALEN and other TAL effector-based constructs for DNA targeting. Nucleic Acids Res 39, e82 (2011).
4. Reyon, D. et al. FLASH assembly of TALENs for high-throughput genome editing. Nature Biotechnology 30, 460–465 (2012).
5. Zhang, F. et al. Efficient construction of sequence-specific TAL effectors for modulating mammalian transcription. Nature biotechnology 29, 149–153 (2011).
6. Miller, J. C. et al. A TALE nuclease architecture for efficient genome editing. Nature Biotechnology 29, 143–148 (2010).
7. Boch, J. et al. Breaking the Code of DNA Binding Specificity of TAL-Type III Effectors. Science 326, 1509–1512 (2009). 8. Liu, J. et al. Efficient and Specific Modifications of the Drosophila Genome by Means of an Easy TALEN Strategy. Journal of Genetics and Genomics 39, 209–215 (2012).
9. Wood, A. J. et al. Targeted Genome Editing Across Species Using ZFNs and TALENs. Science 333, 307–307 (2011).
10. Sander, J. D. et al. Targeted gene disruption in somatic zebrafish cells using engineered TALENs. Nat Biotechnol 29, 697–698 (2011).
11. Tesson, L. et al. Knockout rats generated by embryo microinjection of TALENs. Nature Biotechnology 29, 695–696 (2011).
12. Hockemeyer, D. et al. Genetic engineering of human pluripotent cells using TALE nucleases. Nature Biotechnology 29, 731–734 (2011)