The invention relates to HIV-1 envelope polypeptides comprising the consensus envelope of SEQ ID NO: 35, compositions comprising these envelopes and methods for using same.

Therapeutic compositions and methods for treating HIV including identification and manipulation of particular domains associated with immunogenicity.

The present application relates to polypeptides derived from the soluble part of the glycoprotein of the enveloped virus of Primate T-cell leukemia virus (PTLV), or fragments or variants thereof named receptor binding domain ligands (RBD) selected for their ability to bind specifically to the nutrient transporter GLUT1.

This disclosure relates to the use of size exclusion chromatography and/or size exclusion chromatography with multi-angle light scattering technology to characterize viral particles such as adeno-associated virus and lentivirus particles. The disclosed methods are also useful for estimating the titer of viral particles, determining the integrity of the viral particles and estimating the amount of DNA encapsidated in the viral particle.

The present relation relates to a transgenic Vero cell line expressing CD4 and CCR5. The present invention encompasses the preparation and purification of immunogenic compositions which are formulated into the vaccines of the present invention.

The subject invention pertains to materials and methods for detecting, preventing and treating retroviral infections in humans and other animals susceptible to infection by retrovirus. It has been discovered that FIV can be transmitted from cats to humans and that the FIV can infect human cells in vivo and that antibodies generated by the infected person cross-react with HIV antigens. Thus, the methods and compositions of the subject invention can be used to detect, prevent and treat FIV infection in humans and other non-feline animals that are susceptible to FIV infection. The methods and compositions of the invention can also be used to prevent and treat infection by HIV in humans.

The present invention relates to a cell membrane penetrating peptide and an intracellular delivery carrier including the same. The intracellular delivery carrier of the present invention has an advantage of efficiently transferring substances into cells even at a low concentration thereof compared with the existing cell membrane penetrating peptide derived from the virus.

The present invention provides for methods to obtain transcriptome-wide multiple information-rich samples from living cells while minimally disrupting the cell. The subject matter disclosed herein is generally related to nucleic acid constructs for continuous monitoring of live cells. Specifically, the subject matter disclosed herein is directed to nucleic acid constructs that encode a fusion protein and a construct RNA sequence that induce live cells to self-report cellular contents while maintaining cell viability. The present invention may be used to monitor gene expression in single cells while maintaining cell viability.

Provided are a method of producing a modified T cell comprising introducing into a precursor T cell a first nucleic acid encoding a Nef protein, wherein the Nef protein upon expression results in down-modulation of the endogenous T cell receptor (TCR) in the modified T cell, wherein the modified T cell furthermore expresses a functional exogenous receptor, such as an engineered TCR (e.g., chimeric TCR), T cell antigen coupler (TAC), TAC-like chimeric receptor, or a chimeric antigen receptor (CAR), the modified cell obtained by the method and the pharmaceutical composition comprising the modified T cell. Also provided is a non-naturally occurring Nef protein comprising one or more mutations.

The present invention relates to the development of a method for the manufacturing of LVV vectors in a packed bed bioreactor by multi-plasmid transient DNA transfection. More particularly, the present invention discloses and claims a process in which steps applied in perfusion or in batch mode are combined to obtain an effective process. Moreover, the invention identifies an effective range of total DNA to be successfully used in the step of transient transfection in a packed bed bioreactor for the manufacturing of lentiviral vectors.