Temperature sensitive transcriptional bioswitches and related genetic circuits and in particular bandpass and/or multiplex genetic circuits, vectors, cells, compositions methods and systems are described.

Methods and expression systems are described herein that are useful for production of terpenes and terpenoids.

This disclosure concerns compositions and methods for increasing the expression of a polynucleotide of interest. Some embodiments concern novel transactivation polypeptides and variants thereof that have been identified in plants, and methods of using the same. Particular embodiments concern the use of at least one DNA-binding polypeptide in a fusion protein to target at least one transactivation polypeptide or variant thereof to a specific binding site on a nucleic acid comprising the polynucleotide of interest, such that its expression may be increased.

The present invention provides for a system comprising (a) first polynucleotide encoding a first promoter operatively linked to an open reading frame (ORF) encoding an endoribonuclease, or an enzymatic active fragment thereof, which cleaves a cognition sequence (cog), and (b) a second polynucleotide encoding a second promoter operatively linked to a nucleotide sequence encoding (i) a cog linked to a coding sequence of interest (COI), (ii) a cog linked to the 3′ end of a first COI and the 5′ end of a second COI, or (iii) a cog locating within a LS (or targeting sequence) linked to a COI.

This disclosure describes, in one aspect, a cell that includes a biocontainment system. Generally, the biocontainment system includes a coding region whose overexpression decreases growth of the cell, a transcription regulatory region that includes a silent mutation and is operably linked upstream of the coding region, and a polynucleotide that encodes a programmable transcription activator engineered to bind to the transcription regulatory region in the absence of the silent mutation. Thus, in the absence of the silent mutation, the programmable transcription activator induces overexpression of the coding region; in the presence of the silent mutation, the programmable transcription activator does not initiate overexpression of the coding region.

Embodiments disclosed herein provide artificial expression systems comprising multivalent transcription factor complexes for cooperative transcription factor assembly and modulating gene expression. More specifically, engineered synthetic transcription factors are recruited and structurally organized on synthetic gene circuits using molecular clamps, where the strength of intra-complex interactions can be modulated for fine tuning of gene expression as desired.

Embodiments disclosed herein provide artificial expression systems comprising multivalent transcription factor complexes for cooperative transcription factor assembly and modulating gene expression. More specifically, engineered synthetic transcription factors are recruited and structurally organized on synthetic gene circuits using molecular clamps, where the strength of intra-complex interactions can be modulated for fine tuning of gene expression as desired.

The present invention refers to methods for selectively recognizing a base pair in a DNA sequence by a polypeptide, to modified polypeptides which specifically recognize one or more base pairs in a DNA sequence and, to DNA which is modified so that it can be specifically recognized by a polypeptide and to uses of the polypeptide and DNA in specific DNA targeting as well as to methods of modulating expression of target genes in a cell.

The disclosure in the specification relates to an artificial recombinant chromosome and the use thereof, and more particularly to an artificial recombinant chromosome generated by the recombination of two or more chromosomes and a production of a transgenic animal using a cell including the same. Especially, in the disclosure in the specification, an interchromosomal exchange between the recipient chromosome and the donor chromosome has many merits to produce the artificial recombinant chromosome for producing the transgenic animal.

A method for designing a protein capable of binding in a DNA base selective manner or DNA base sequence specific manner is provided. According to the present invention, it was revealed that, with a protein that can bind in a DNA base-selective manner or a DNA base sequence-specific manner, which contains one or more, preferably 2 to 30, more preferably 5 to 25, most preferably 9 to 15, of PPR motifs having a structure of the following formula 1 (wherein, in the formula 1, Helix A is a part that can form an α-helix structure; X does not exist, or is a part consisting of 1 to 9 amino acids; Helix B is a part that can form an α-helix structure; and L is a part consisting of 2 to 7 amino acids), and having a specific combination of amino acids corresponding to a DNA base or DNA base sequence as amino acids of three positions of No. 1 A.A., No. 4 A.A., in Helix A of the formula 1 and No. “ii” (-2) A.A. contained in L of the formula 1, the aforementioned object could be achieved.

(Helix A)-X-(Helix B)-L  (Formula 1)