The disclosure is directed to an isolated polynucleotide encoding a modified picornavirus 3C protease, wherein the modified picornavirus 3C protease includes an altered secondary structure and one or more amino acid substitution(s) located at one or more amino acid position(s) corresponding to positions 16-25, 99-100 and 115-130 of a wild-type Fool-and-Mouth Disease Virus (FMDV) 3C protease, wherein the isolated polynucleotide encoding the modified picornavirus 3C protease, when transformed into and co-expressed in a host cell, enhances transgene expression of a P1 precursor polypeptide in comparison to an amount of P1 precursor polypeptide transgene expression exhibited in a host cell transformed and co-expressed with a control picornavirus 3C protease, wherein the one or more corresponding amino acid position(s) is/are identified by an alignment of the modified picornavirus 3C protease with the one or more of the wild type FMDV 3C protease(s). Methods for processing a picornavirus P1 precursor polypeptide into picornavirus viral proteins and/or virus-like particles using the isolated polynucleotides are also provided.

A method of treating cancer in a subject in need thereof includes administering in situ to the cancer a therapeutically effective amount of a virus or virus-like particle.

The present invention relates to killed/inactivated and/or recombinant Senecavirus A immunogenic compositions and vaccines, and methods of preventing or treating animals in need of with such an immunogenic compositions and vaccines.

The present disclosure relates to a recombinant nucleic acid molecule based on point mutation of translation initiation element and use thereof in the preparation of circular RNA, and in particular to a recombinant nucleic acid molecule for preparing circular RNA, a recombinant expression vector, circular RNA, a composition, a method for preparing circular RNA, a method for expressing a target polypeptide in a cell, a method for preventing or treating a disease, a method for editing a translation initiation element sequence, and a system for editing a translation initiation element sequence. The recombinant nucleic acid molecule provided by the present disclosure provides a novel Clean PIE system for the in vitro preparation of circular RNA, which can avoid introducing additional exon sequences into circular RNA, improve sequence accuracy of circular RNA molecules, reduce changes in a secondary structure of circular RNA, and then reduce immunogenicity of circular RNA, and has a good application prospect in the fields of nucleic acid vaccines, expression of therapeutic proteins, gene therapy, etc.

A method of treating cancer in a subject in need thereof includes administering in situ to the cancer a therapeutically effective amount of a virus or virus-like particle.

The disclosure relates, in some aspects, to compositions and methods for treatment of diseases associated with aberrant lysosomal function, for example Parkinson's disease and Gaucher disease. In some embodiments, the disclosure provides expression constructs comprising a transgene encoding one or more inhibitory nucleic acids targeting SCNA or a portion thereof, TMEM106B or a portion thereof, or any combination of the foregoing. In some embodiments, the disclosure provides methods of Parkinson's disease by administering such expression constructs to a subject in need thereof.

Provided are genetically engineered induced pluripotent stem cells (iPSCs) and derivative cells thereof expressing a polyethylene glycol (PEG) receptors and methods of using the same. Also provided are compositions, polypeptides, vectors, and methods of manufacturing.

The present invention is directed to novel nucleotide sequences of Senecavirus A (“SVA”), including novel genotypes thereof, which are useful as live attenuated and other vaccine compositions for treating and preventing diseases in swine and other animals. Vaccines provided according to the practice of the invention are effective against multiple swine SVA genotypes and isolates. Diagnostic and therapeutic sequences are also a feature of the present invention, as are infectious clones useful in the propagation of the virus and in the preparation of vaccines. Particularly important aspects of the invention include polynucleotide constructs that replicate in tissue culture and in host swine. The invention also provides for novel full length SVA genomes that can replicate efficiently in host animals and tissue culture.

The present invention relates to a pseudotyped insect baculovirus gene transfer system and a virus for shrimps, and a construction method and use thereof. The present invention belongs to the technical field of genetic engineering. The pseudotyped insect baculovirus gene transfer system for shrimps disclosed in the present invention includes a Bac-to-Bac insect baculovirus expression system, an expression plasmid carrying shrimp virus envelope protein gene and an insect packaging cell. The present invention can achieve stable and efficient transfer and expression of a foreign gene in a shrimp tissue and cell.

A method of treating cancer in a subject in need thereof includes administering in situ to the cancer a therapeutically effective amount of a virus or virus-like particle.