Polynucleotide constructs that express an engineered foot-and-mouth disease (FMDV) P1 precursor protein and a non-FMDV TEV protease and methods for safe and efficient recombinant production of FMDV antigens and immunogens. Recombinant production of FMDV antigens avoids the need to culture highly-infectious FMDV, while conventional culture methods for producing FMDV antigens rely on the native FMDV 3C protease which exerts toxic effects on host cells. The inventors have developed a new system that efficiently and safely processes FMDV P1 precursor without the FMDV 3C protease, thus avoiding the toxic effects associated with use of the 3C protease. The invention is also directed to the FMDV antigens and virus-like particles produced by this system as well as to FMDV vaccines, diagnostics and other biologics.

The subject technology relates generally to compositions and methods for producing plasmid DNA of a desired quality. In addition, it relates to the discovery of Escherichia coli (E. coli) bacteria with a constitutive methylase gene stably incorporated into the chromosomal DNA and uses thereof.

Provided herein are compositions and methods for inducing protein function. For example, in some embodiments, provided herein are compositions and methods for pharmacological induction of protein function.

The present invention concerns a DNA-replication-associated (Rep) protein comprising an amino acid sequence as depicted in SEQ ID NO: 11 or 12; (b) a fragment of SEQ ID NOs:11 or 12 which is capable of binding an anti-Rep antibody specific for a protein having the amino acid sequence of SEQ ID NOs: 11 or 12; or (c) an amino acid sequence having a 90% or more homology to the amino acid sequence of (a) or (b) and is capable of binding an anti-Rep antibody specific for a protein having an amino acid sequence of SEQ ID NOs:11 or 12. The present invention further concerns a method of diagnosing MS or a predisposition for MS and a kit for use in such methods.

The technology described herein is directed to CAR polypeptides and systems comprising repressible proteases. In combination with a specific protease inhibitor, the activity of said CAR polypeptides and systems and cells comprising them can be modulated. Also described herein are methods of using said CAR polypeptides and systems, for example to treat various diseases and disorders.

Described herein are flavivirus virus-like particles (VLPs) that display on their surfaces antigenic flavivirus proteins. Also described are methods of making and using these VLPs.

This application is directed generally to foot-and-mouth disease virus (FMDV) 3C proteases that have been modified by mutating a polynucleotide sequence coding for the FMDV 3C protease. The modified FMDV proteases exhibit proteolytic activity on FMDV P1 precursor protein and exhibit a reduction in one or more toxic or inhibitory properties associated with an unmodified FMDV 3C protease on a host cell used to recombinantly produce it. Vectors carrying polynucleotides encoding modified FMDV 3C protease sequences can induce production of FMDV virus-like particles in a host cell when expressed in the host cell. The modified FMDV 3C proteases can generally be used to produce immunogenic FMDV preparations capable of inducing an immune response against FMDV.

This application is directed generally to foot-and-mouth disease virus (FMDV) 3C proteases that have been modified by mutating a polynucleotide sequence coding for the FMDV 3C protease. The modified FMDV proteases exhibit proteolytic activity on FMDV P1 precursor protein and exhibit a reduction in one or more toxic or inhibitory properties associated with an unmodified FMDV 3C protease on a host cell used to recombinantly produce it. Vectors carrying polynucleotides encoding modified FMDV 3C protease sequences can induce production of FMDV virus-like particles in a host cell when expressed in the host cell. The modified FMDV 3C proteases can generally be used to produce immunogenic FMDV preparations capable of inducing an immune response against FMDV.

This application is directed generally to foot-and-mouth disease virus (FMDV) 3C proteases that have been modified by mutating a polynucleotide sequence coding for the FMDV 3C protease. The modified FMDV proteases exhibit proteolytic activity on FMDV P1 precursor protein and exhibit a reduction in one or more toxic or inhibitory properties associated with an unmodified FMDV 3C protease on a host cell used to recombinantly produce it. Vectors carrying polynucleotides encoding modified FMDV 3C protease sequences can induce production of FMDV virus-like particles in a host cell when expressed in the host cell. The modified FMDV 3C proteases can generally be used to produce immunogenic FMDV preparations capable of inducing an immune response against FMDV.

The technology described herein is directed to regulated synthetic gene expression systems. In one aspect described herein are synthetic transcription factors (synTFs) comprising a DNA binding domain, a transcriptional effector domain, and a regulator protein. In other aspects described herein are gene expression systems comprising said synTFs and methods of treating diseases and disorders using said synTFs.