The present disclosure provides, in some aspects, in vitro transcription systems (including, for example, nucleic acid constructs and polymerases), the use of which increases transcription efficiency while reducing the amount of truncated single-stranded ribonucleic acid transcript produced during an in vitro transcription reaction.

Transcriptional units encoding Zika virus (ZIKV) premembrane (prM) and envelope (E) proteins, which upon translation form Zika virus-like particles (VLPs), are described. Use of the transcriptional units and VLPs in three different ZIKV vaccine platforms is described. Immunoassay-based detection methods using ZIKV VLPs are described for the diagnosis of ZIKV infection.

The present invention relates to the field of genetic engineering, preferably the expression of recombinant proteins (RP). In particular, the invention relates to a promoter and variants thereof having an equal function and more than 90% sequence identity. The promoter comprises a fragment of 1147 base pairs (bp) of a first promoter, promoter of the -actin gene of the Cricetulus griseus genome, enriched in cytosine-guanine dinucleotides (RegCG). The first promoter can be upstream of a second promoter, cytomegalovirus (CMV) promoter. The invention also relates to vectors, transfected cellular lines and a method for producing RP in mammal cells that have been transfected with vectors containing said promoter or variants thereof.

The present disclosure relates to chimeric post-transcriptional regulatory elements (PRE) and vectors useful for expressing a protein in a cell. The PRE contains alpha, beta and optionally gamma subelements selected from different native PRE sequences and are discovered to be more potent than their native counterparts.

The present invention provides nucleic acid, vectors, viruses, and recombinant cells comprising triple-stranded structures, such as those resulting from central initiation and termination of HIV-1 reverse transcription at the center of HIV-1 linear DNA genomes. These triplex structures can act as a cis-determinant of HIV-1 DNA nuclear import, allowing infection of non-dividing target cells. In one aspect, the presence of the DNA triplex sequence in an HIV vector strongly stimulates gene transfer in hematopoietic stem cells. The invention also provides methods of using these triplex structures for making recombinant cells, as well as methods of using the recombinant cells to express proteins of interest both in vitro and in vivo.

A non-integrating viral delivery system is disclosed. The system includes a viral carrier, wherein the viral carrier contains a defective integrase gene; a heterologous viral episomal origin of replication; a sequence encoding at least one initiator protein specific for the heterologous viral episomal origin of replication, wherein expression of the sequence encoding the at least one initiator protein specific for the heterologous viral episomal origin of DNA replication is inducible; and at least one gene, gene product, shRNA, siRNA, miRNA, or other RNA of interest.

A non-integrating viral delivery system is disclosed. The system includes a viral carrier, wherein the viral carrier contains a defective integrase gene; a heterologous viral episomal origin of replication; a sequence encoding at least one initiator protein specific for the heterologous viral episomal origin of replication, wherein expression of the sequence encoding the at least one initiator protein specific for the heterologous viral episomal origin of DNA replication is inducible; and at least one gene, gene product, shRNA, siRNA, miRNA, or other RNA of interest.

Strategies, systems, methods, reagents, and kits for phage-assisted continuous evolution are provided herein. These include strategies, systems, methods, reagents, and kits allowing for stringency modulation to evolve weakly active or inactive biomolecule variants, negative selection of undesired properties, and/or positive selection of desired properties.

A non-integrating viral delivery system is disclosed. The system includes a viral carrier, wherein the viral carrier contains a defective integrase gene; a heterologous viral episomal origin of replication; a sequence encoding at least one initiator protein specific for the heterologous viral episomal origin of replication, wherein expression of the sequence encoding the at least one initiator protein specific for the heterologous viral episomal origin of DNA replication is inducible; and at least one gene, gene product, shRNA, siRNA, miRNA, or other RNA of interest.

A modified adenovirus, in particular Enadenotucirev (EnAd), armed with at least two bispecific T cell engager (BiTE?) each comprising at least two binding domains, wherein at least one of the domains is specific for a surface antigen on an immune cell of interest, such as a T-cell of interest. Also provided are a composition, such as a pharmaceutical formulation comprising the virus, use of the virus and virus formulations for treatment, such as in the treatment of cancer. The disclosure also extends to processes for preparing the virus.