Add to ORKGGrowth and differentiation of multicellular systems is orchestrated by spatially restricted gene expression programs in specialized subpopulations. The targeted manipulation of such processes by synthetic tools with high-spatiotemporal resolution could, therefore, enable a deepened understanding of developmental processes and open new opportunities in tissue engineering. Here, we describe the first red/far-red light-triggered gene switch for mammalian cells for achieving gene expression control in time and space. We show that the system can reversibly be toggled between stable on- and off-states using short light pulses at 660 or 740 nm. Red light-induced gene expression was shown to correlate with the applied photon number and was compatib...
Advanced gene regulatory systems are necessary for scientific research, synthetic biology, and gene-...
Genetically-encodable optical reporters, such as Green Fluorescent Protein, have revolutionized the ...
Protein trafficking in and out of the nucleus represents a key step in controlling cell fate and fun...
Growth and differentiation of multicellular systems is orchestrated by spatially restricted gene exp...
The emergence and future of mammalian synthetic biology depends on technologies for orchestrating an...
Optogenetic gene switches allow gene expression control at an unprecedented spatiotemporal resolutio...
Optogenetics and photopharmacology enable the spatio-temporal control of cell and animal behavior by...
The ever-increasing complexity of synthetic gene networks and applications of synthetic biology requ...
Optogenetic gene expression systems can control transcription with spatial and temporal detail unequ...
Summary: Gene expression and its network structure are dynamically altered in multicellular systems ...
Optogenetics is the genetic approach for controlling cellular processes with light. It provides spat...
During development, gene expression profiles are tightly regulated in order to ensure the correct as...
In optogenetics, as in nature, sensory photoreceptors serve to control cellular processes by light. ...
Light-switchable gene expression systems provide transient, non-invasive and reversible means to con...
Optogenetic technologies employ light to control biological processes within targeted cells in vivo ...
Advanced gene regulatory systems are necessary for scientific research, synthetic biology, and gene-...
Genetically-encodable optical reporters, such as Green Fluorescent Protein, have revolutionized the ...
Protein trafficking in and out of the nucleus represents a key step in controlling cell fate and fun...
Growth and differentiation of multicellular systems is orchestrated by spatially restricted gene exp...
The emergence and future of mammalian synthetic biology depends on technologies for orchestrating an...
Optogenetic gene switches allow gene expression control at an unprecedented spatiotemporal resolutio...
Optogenetics and photopharmacology enable the spatio-temporal control of cell and animal behavior by...
The ever-increasing complexity of synthetic gene networks and applications of synthetic biology requ...
Optogenetic gene expression systems can control transcription with spatial and temporal detail unequ...
Summary: Gene expression and its network structure are dynamically altered in multicellular systems ...
Optogenetics is the genetic approach for controlling cellular processes with light. It provides spat...
During development, gene expression profiles are tightly regulated in order to ensure the correct as...
In optogenetics, as in nature, sensory photoreceptors serve to control cellular processes by light. ...
Light-switchable gene expression systems provide transient, non-invasive and reversible means to con...
Optogenetic technologies employ light to control biological processes within targeted cells in vivo ...
Advanced gene regulatory systems are necessary for scientific research, synthetic biology, and gene-...
Genetically-encodable optical reporters, such as Green Fluorescent Protein, have revolutionized the ...
Protein trafficking in and out of the nucleus represents a key step in controlling cell fate and fun...