Abstract: The present disclosure provides compositions and methods for generating plants that can grow in saline conditions, or remove a salt or other impurity from water, for example plants that can remove sodium chloride from salt or sea water, and plants that can produce purified water from salt or sea water.

Abstract: The present disclosure provides compositions and methods for generating plants that can grow in saline conditions, or remove a salt or other impurity from water, for example plants that can remove sodium chloride from salt or sea water, and plants that can produce purified water from salt or sea water.

Abstract: The present disclosure provides compositions and methods for generating plants that can grow in saline conditions, or remove a salt or other impurity from water, for example plants that can remove sodium chloride from salt or sea water, and plants that can produce purified water from salt or sea water.

Abstract: Compositions and methods are provided for the detection of small molecules in a cell using biosensor molecules comprising conditionally active ligand binding domains. Compositions for conditionally activating transcription based on the presence of a small molecules in a cell are further provided, together with methods of designing, producing, and expressing biosensor molecules in cells.

Abstract: A eukaryotic input circuit: computationally designed receptors, synthetic eukaryotic signal transduction pathways, and a synthetic signal sensitive promoter that allow highly specific transcriptional induction in response to an externally provided ligand is disclosed. The input circuit is able to specifically bind a targeted substance and transmit a signal to the nucleus where transcription of a gene is activated. An output circuit serves as a simple readout system of the substance detected by the input circuit. The readout circuit exemplified here is a degreening circuit which causes plants to turn white. Activation of the degreening circuit can be detected by eye, or remotely with a variety of machines (hand-held, aircraft or satellite based) and is also resettable. When linked the input circuit if operably linked to the output circuit, produces a functional plant detector.

Abstract: A eukaryotic input circuit: computationally designed receptors, synthetic eukaryotic signal transduction pathways, and a synthetic signal sensitive promoter that allow highly specific transcriptional induction in response to an externally provided ligand is disclosed. The input circuit is able to specifically bind a targeted substance and transmit a signal to the nucleus where transcription of a gene is activated. An output circuit serves as a simple readout system of the substance detected by the input circuit. The readout circuit exemplified here is a degreening circuit which causes plants to turn white. Activation of the degreening circuit can be detected by eye, or remotely with a variety of machines (hand-held, aircraft or satellite based) and is also resettable. When linked the input circuit if operably linked to the output circuit, produces a functional plant detector.

Abstract: A eukaryotic input circuit: computationally designed receptors, synthetic eukaryotic signal transduction pathways, and a synthetic signal sensitive promoter that allow highly specific transcriptional induction in response to an externally provided ligand is disclosed. The input circuit is able to specifically bind a targeted substance and transmit a signal to the nucleus where transcription of a gene is activated. An output circuit serves as a simple readout system of the substance detected by the input circuit. The readout circuit exemplified here is a degreening circuit which causes plants to turn white. Activation of the degreening circuit can be detected by eye, or remotely with a variety of machines (hand-held, aircraft or satellite based) and is also resettable. When linked the input circuit if operably linked to the output circuit, produces a functional plant detector.

Abstract: A eukaryotic input circuit: computationally designed receptors, synthetic eukaryotic signal transduction pathways, and a synthetic signal sensitive promoter that allow highly specific transcriptional induction in response to an externally provided ligand is disclosed. The input circuit is able to specifically bind a targeted substance and transmit a signal to the nucleus where transcription of a gene is activated. An output circuit serves as a simple readout system of the substance detected by the input circuit. The readout circuit exemplified here is a degreening circuit which causes plants to turn white. Activation of the degreening circuit can be detected by eye, or remotely with a variety of machines (hand-held, aircraft or satellite based) and is also resettable. When linked the input circuit if operably linked to the output circuit, produces a functional plant detector.