The present invention relates to a virus-derived particle comprising one or more Cas protein(s), as well as to kits and methods using the same for altering a target nucleic acid.

The present invention relates to a virus-derived particle comprising one or more Cas protein(s), as well as to kits and methods using the same for altering a target nucleic acid.

Disclosed herein are virus-like particle (VLP)-based bivalent vaccine compositions. The compositions may comprise a spherical retroviral Group-specific Antigen (Gag) protein core and at least two Ebola glycoproteins. The at least two Ebola glycoproteins may be located at the exterior surface of the spherical Gag protein core, such that the VLP-based vaccine presents at least two Ebola glycoprotein antigens. In one aspect, the at least two Ebola glycoproteins are a Zaire (EBOV) glycoprotein, and a Sudan (SUDV) glycoprotein.

The present invention relates to an adenoviral vector capable of encoding a virus-like particle (VLP), said VLP displaying an inactive immune-suppressive domain (ISD). The vaccine of the invention shows an improved immune response from either of both of the response pathways initiated by CD4 T cells or CD8 T cells.

The present invention relates to a method of quantifying the amount of Mock Virus Particles (MVP) removed from a solution as a result of processing that solution through a purification technique. This method involves the steps of adding MVP to a solution, processing the solution through a purification technique, quantifying the amount of MVP removed from the solution. The present invention also relates to a kit that can be used in conjunction with the method. This kit will comprise at least one stock solution of MVP and at least one quantification solution.

Methods and compositions for altering a genome at one or more locations in a host cell, tissue, or subject are disclosed.

Described herein are virus-like particles (VLPs) and minimal human-derived virus-like particles (mhVLPs), comprising a membrane comprising a phospholipid bilayer with one or more human-derived envelope glycoproteins (env) on the external side. Optionally, a biomolecule cargo is disposed in the core of the VLP or mhVLP on the inside of the membrane. Preferably, the mhVLPs do not comprise any exogenous virally derived proteins, e.g., proteins from viral gag, pro, or pol, or other viral proteins that reside inside of enveloped particles (unless the cargo comprises the viral protein(s)). In some embodiments, the mhVLPs do not comprise any human endogenous retroviral (HERV) proteins other than the env (hENV), e.g., do not comprise gag, pol, or pro that was exogenously introduced into producer cells. In some embodiments, the VLPs include a targeting domain, either fused at the N or C terminus or internally into the hENV, or as a separate membrane-anchored targeting domain. Also described are methods of use of the VLPs or mhVLPs for delivery of the biomolecule cargo to cells.

The present invention relates to an adenoviral vector capable of encoding a virus-like particle (VLP), said VLP displaying an inactive immune-suppressive domain (ISD). The vaccine of the invention shows an improved immune response from either of both of the response pathways initiated by CD4 T cells or CD8 T cells.

The present invention relates to methods for preparing virus-like particles comprising immunogenic cyclic dinucleotides and its use for treating cancer.

The present invention relates to a virus-derived particle comprising one or more Cas protein(s), as well as to kits and methods using the same for altering a target nucleic acid.