Provided are use of an Echovirus 25 (ECHO25) or a modified form thereof, or a nucleic acid molecule comprising a genomic sequence or cDNA sequence of the ECHO25 or a modified form thereof, or a complementary sequence of the genomic sequence or cDNA sequence, in treatment of a tumor in a subject, and in the manufacture of a medicament for treatment a tumor in a subject.

Disclosed herein are recombinant polypeptides derived from FBP1 and FBP2. Also disclosed herein are recombinant expression vectors and recombinant host cells for producing the aforesaid recombinant polypeptides. The recombinant polypeptides are proven to be useful and effective in producing a picornavirus with a type I internal ribosome entry site (IRES), so as to facilitate the preparation of a viral vaccine.

Provided is an Enterovirus D68 adapted to propagate to high titers in Vero cells and method of adaptation thereof. Also provided is a suitable vaccine composition including inactivated Enterovirus D68 antigen.

This disclosure provides complexes for prime editing comprising an RNA-guided nuclease, a fusion protein comprising a reverse transcriptase domain linked to a nucleic acid binding protein, and a guide RNA (gRNA) comprising at least one protein-recruiting stem-loop nucleic acid sequence, wherein the protein-recruiting stem-loop nucleic acid sequence binds to the nucleic acid binding protein. Also provided are systems, methods, and compositions for site-specific genetic engineering using Programmable Addition via Site-Specific Targeting Elements (PASTE) with integration enzymes paired with the prime editing complex.

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.

This document provides methods and materials related to using infectious nucleic acid encoding viruses to reduce the number of viable cancer cells within a mammal. For example, methods for using infectious nucleic acid to treat cancer, engineered viral nucleic acid, and methods for making engineered viral nucleic acid are provided.

Provided are use of an Echovirus 25 (ECHO25) or a modified form thereof, or a nucleic acid molecule comprising a genomic sequence or cDNA sequence of the ECHO25 or a modified form thereof, or a complementary sequence of the genomic sequence or cDNA sequence, in treatment of a tumor in a subject, and in the manufacture of a medicament for treatment a tumor in a subject.

Disclosed herein are recombinant polypeptides derived from FBP1 and FBP2. Also disclosed herein are recombinant expression vectors and recombinant host cells for producing the aforesaid recombinant polypeptides. The recombinant polypeptides are proven to be useful and effective in producing a picornavirus with a type I internal ribosome entry site (IRES), so as to facilitate the preparation of a viral vaccine.

A gene-modified coxsackievirus that is to be used in oncolytic virotherapy and is improved in safety and/or aggressiveness is provided. A gene-modified coxsackievirus that contains a mutated genome with a coxsackievirus B3 wild-type (CVB3-WT) genome inserted with at least one polynucleotide constituted of a target sequence for at least one of either of miR-34a and miR-34c and is suppressed in proliferation in normal cells is provided.

The invention provides chimeric Enterovirus virus-like particles (VLPs) for protection and/or treatment against infection by more than one Enterovirus. More specifically, the present invention provides chimeric EV-A71 virus-like particles displaying CV-A16 VP1 polypeptides and at the same time maintaining important neutralizing antibody epitopes of EV-A71 itself. More specifically, the present invention provides chimeric CV-A16 virus-like particles displaying EV-A71 VP1 polypeptides. Thus, the present invention provides a bivalent vaccine comprising the chimeric virus-like particles which elicit an immune response and/or neutralizing antibody response to both EV-A71 and CVA-16 for the treatment of Hand, Foot and Mouth Disease.