Provided for herein are mutant VSV-G polypeptides, compositions comprising the same, and methods of using the same. Also provided for herein are polypeptides and compositions that bind to CD7 and uses thereof. Also provided for herein are polypeptides and compositions that bind to CD8 and uses thereof.

The invention is directed to a system comprising a lentivirus vector particle which encodes at least one guide RNA sequence that is complementary to a first DNA sequence in a host cell genome, a Cas9 protein, and optionally a donor nucleic acid molecule comprising a second DNA sequence. The invention also is directed to a method of altering a DNA sequence in a host cell using such a system, where the host cell can be in a human and the altered DNA can be of the human -globin gene. The invention also is directed to a fusion protein comprising a Cas9 protein and a cyclophilin A (CypA) protein. The invention also is directed to sequences of vectors that can be used in the system and method.

The present invention relates to compositions, methods, and uses employing lentiviral vector particles for induction of an immune response by administration to a human, wherein the lentiviral vector particles comprise a lentiviral vector, wherein the DNA of the lentiviral vector comprises a promoter directing expression of a HTLV-1 p12p30-Tax-HBZ fusion protein. The invention encompasses these vectors, methods of making the vectors, and methods of using them, including medicinal uses.

Disclosed herein are recombinant fusion proteins comprising transmembrane domains, a display polypeptides, and oligomerization domains wherein when the recombinant fusion protein is expressed on the surface of an enveloped particle, the recombinant fusion protein is displayed in an oligomeric format, and enveloped particles containing the same, and methods of usc.

Briefly described, virus-like particles, methods of preparing virus-like particles, immunogenic compositions that include virus-like particles, and methods of eliciting an immune response using immunogenic compositions that include virus-like particles are described herein. A virus-like particle (VLP) can include a viral core protein that can self assemble into the VLP core and at least one viral surface envelope glycoprotein expressed on the surface of the VLP. The VLP can also optionally include at least one adjuvant molecule expressed on the surface of the VLP.

Embodiments relate to a method comprising (a) expressing a vector comprising a PSGL-1 (P-selectin glycoprotein ligand-1) or a mutant thereof in a VPC (virus producing cell); and blocking a virus infection by inactivating an infectivity of a released virions from the VPC; or (b) expressing a glycoprotein or a mutant thereof in the VPC; blocking the virus infection by preventing binding of the released virions to a target cell; inactivating infectivity of the released virions; and targeting a viral infection. Other embodiments relate to (1) a broad-spectrum anti-viral product comprising: a vector expressing a glycoprotein or a mutant thereof in a VPC; and blocking a virus infection by inactivating infectivity of a released virion from the VPC; and (2) a vaccine comprising a viral particle is configured to a live attenuated or an inactivated or a non-infectious, wherein the viral particle are produced in a VPC.

In one aspect, the invention relates to methods and compositions for determining migration of a virus particle to the nucleus of a cell. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present invention.

Described herein are engineered paraneoplastic Ma protein (PNMA) capable of forming a capsid. In some embodiments, the engineered PNMA proteins comprise one or more modifications that enhance binding or loading of a cargo into the capsid, one or more modifications that modify cell-specificity of the capsid, one or more modifications that enhance intracellular delivery of the capsid, or a combination thereof. Also described herein are delivery systems comprising capsids comprising an engineered PNMA protein and a cargo.

Provided herein are methods of producing lipid membrane bound particles, such as lentiviral vectors, that contain one or more Paramyxovirus envelope proteins in the lipid bilayer. Also provided are lipid membrane bound particles containing one or more Paramyxovirus envelope proteins in the lipid bilayer. In some embodiments, the one or more Paramyxovirus envelope protein is a Nipah virus (NiV) protein G or F or a biologically active portion or retargeted fusion thereof. In some embodiments, the lipid membrane bound particle is a lentiviral vector. Also provided are related compositions, kits and systems in connection with the provided methods.

Provided herein are lipid particles, such as lentiviral particles, that incorporate or are pseudotyped with a variant Nipah Virus F (NiV-F) envelope glycoprotein, and in some aspects also an attachment glycoprotein (G) protein such as a NiV-G protein or a biologically active portion or variant thereof. Also provided are polynucleotides encoding the variant NiV-F and producer cells for preparation of the lipid particles, such as lentiviral particles, containing the variant NiV-F proteins, as well as methods for preparing and using the lipid particles, such as lentiviral particles.