Add to ORKGABSTRACT: Advanced gene regulatory systems are necessary for scientific research, synthetic biology, and gene-based medicine. An ideal system would allow facile spatiotemporal manipulation of gene expression within a cell population that is tunable, reversible, repeatable, and can be targeted to diverse DNA sequences. To meet these criteria, a gene regulation system was engineered that combines light-sensitive proteins and programmable zinc finger transcription factors. This system, light-inducible transcription using engineered zinc finger proteins (LITEZ), uses two light-inducible dimerizing proteins from Arabidopsis thaliana, GIGANTEA and the LOV domain of FKF1, to control synthetic zinc finger transcription factor activity in human cell...
Regulation of endogenous gene expression has been achieved using synthetic zinc finger proteins fuse...
The dynamic nature of gene expression enables cellular programming, homeostasis, and environmental a...
We describe methods for generating artificial transcription factors capable of up- or downregulating...
Advanced gene regulatory systems are necessary for scientific research, synthetic biology, and gene-...
The dynamic nature of gene expression enables cellular programming, homeostasis and environmental ad...
The dynamic nature of gene expression enables cellular programming, homeostasis and environmental ad...
The dynamic nature of gene expression enables cellular programming, homeostasis and environmental ad...
Recent progress in the design and selection of novel zinc finger proteins with desired DNA binding s...
Modulating gene expression directly at the DNA level represents a novel approach to control cellular...
CONSPECTUS: The understanding of gene regulation and the structure and function of the human genome ...
Modulating gene expression directly at the DNA level represents a novel approach to control cellular...
Photocaging provides a method to spatially and temporally control biological function and gene expre...
We have developed a method with prokaryotic organisms that uses randomized libraries of zinc finger-...
We have developed a method in which randomized libraries of zinc finger-containing artificial transc...
The expression of a gene to a protein is one of the most vital biological processes. The use of ligh...
Regulation of endogenous gene expression has been achieved using synthetic zinc finger proteins fuse...
The dynamic nature of gene expression enables cellular programming, homeostasis, and environmental a...
We describe methods for generating artificial transcription factors capable of up- or downregulating...
Advanced gene regulatory systems are necessary for scientific research, synthetic biology, and gene-...
The dynamic nature of gene expression enables cellular programming, homeostasis and environmental ad...
The dynamic nature of gene expression enables cellular programming, homeostasis and environmental ad...
The dynamic nature of gene expression enables cellular programming, homeostasis and environmental ad...
Recent progress in the design and selection of novel zinc finger proteins with desired DNA binding s...
Modulating gene expression directly at the DNA level represents a novel approach to control cellular...
CONSPECTUS: The understanding of gene regulation and the structure and function of the human genome ...
Modulating gene expression directly at the DNA level represents a novel approach to control cellular...
Photocaging provides a method to spatially and temporally control biological function and gene expre...
We have developed a method with prokaryotic organisms that uses randomized libraries of zinc finger-...
We have developed a method in which randomized libraries of zinc finger-containing artificial transc...
The expression of a gene to a protein is one of the most vital biological processes. The use of ligh...
Regulation of endogenous gene expression has been achieved using synthetic zinc finger proteins fuse...
The dynamic nature of gene expression enables cellular programming, homeostasis, and environmental a...
We describe methods for generating artificial transcription factors capable of up- or downregulating...