Antibodies and antigen binding fragments that specifically bind to gp120 and neutralize HIV-1 are disclosed. Nucleic acids encoding these antibodies, vectors and host cells are also provided. Methods for detecting HIV-1 using these antibodies are disclosed. In addition, the use of these antibodies, antigen binding fragment, nucleic acids and vectors to prevent and/or treat an HIV-1 infection is disclosed.

The present invention encompasses TAT peptide binding proteins. Specifically, the invention relates to antibodies that specifically bind to a TAT protein transduction domain. An antibody of the invention can be a full-length antibody or an antigen-binding portion thereof. Methods of making and methods of using the antibodies of the invention for detection, quantification, purification and isolation of TAT protein transduction domain, e.g., a TAT fusion molecule comprising a TAT protein transduction domain, as well as methods of diagnosis and monitoring of HIV and AIDS are also provided herein.

This invention concerns compositions and methods of treating or diagnosing inflammatory disorders and other disorders, as well as compositions and methods of treating HIV.

The present disclosure relates to novel modular methods for generating a diversity of N-glycans of high mannose, hybrid and complex types. The present disclosure also relates to exemplary arrays of the synthesized N-glycans spotted onto aluminium oxide coated slides. These arrays can be used to detect and analyze binding interactions between the synthesized N-glycans and glycan binding molecules, such as HIV-1 neutralizing antibodies. The present disclosure also relates to methods for identifying agents that bind to various types of molecules on the arrays and to defining the structural elements of the molecules on the arrays that bind to those agents. The arrays and methods provided herein may be used for general epitope identification, drug discovery and as analytical tools. The present disclosure also provides useful glycans and epitope determinants that are useful in detecting, diagnosing, recurrence monitoring and preventing pathological diseases such as HIV.

Provided are methods for identifying whether a compound inhibits entry of a virus into a cell. The method may include obtaining nucleic acid encoding a viral envelope protein from a patient infected by the virus and co-transfecting it into a first cell along with a viral expression vector which lacks a nucleic acid encoding the envelope protein. The method may further include contacting the viral particles produced by the first cell with a second cell to which the virus binds in the absence and presence of the compound and measuring the amount of signal produced by the second cell.

The present invention relates to the use of a nucleic acid molecule encoding a first reporter gene, bordered by at least one first pair and one second pair of sequences targeting a site-specific recombinase in order to detect cells of a mammal infected with a virus responsible for an immunodeficiency.

The present application provides stable peptide-based antibody capture agents and methods of use as detection and diagnosis agents. The application further provides methods of manufacturing antibody capture agents using iterative on-bead in situ click chemistry.

The application relates to methods of treating chronic viral infection by modulating Tim-3 activity. In addition, the present application relates to methods of diagnosing or monitoring immune system activity or function, chronic viral infection and inflammatory disease using Tim-3 expression.

The present invention relates to an immunogenic composition comprising an antigenic peptide of formula (I) below: Nt-S-X1-X2-X3-K-X4-Ct (I) [SEQ ID No 1], wherein —Nt consists of a peptide having from 0 to 50 amino acids in length, —Ct consists of a peptide having from 0 to 50 amino acids in length, —each of X1 to X4 consists of an amino acid residue, wherein: —(i) X1 means the specific amino acid W or (ii) X1 means any amino acid residue excepted W, —(i) X2 means the specific amino acid S or (ii) X2 means any amino acid residue excepted S, —(i) X3 means the specific amino acid N or (ii) X3 means any amino acid residue excepted N, —(i) X4 means the specific amino acid S or (ii) X4 means any amino acid residue excepted S, with the proviso that —three out of the four amino acid residues X1, X2, X3 and X4 mean the specific amino acid defined in their respective meaning (i) above, and —the remaining amino acid residue among X1 to X4 means any amino acid residue excepted the specific amino acid residue defined in its meaning (i), for preventing and/or treating an infection of an individual with an HIV-1 virus.

This disclosure describes a subunit vaccine for a flavivirus, methods of making the vaccine, and methods of using the vaccine. The flavivirus may include, is a mosquito-borne flavivirus, for example, Zika virus (ZIKV), dengue virus (DENV), Yellow Fever (YF) virus, and West Nile Virus (WNV). The subunit vaccine may be administered with an adjuvant.