Abstract: The present invention provides a method for determining the oxygen status of a cancer of an individual. The method comprise determining the transcriptional expression level of ADM (SEQ ID No:1), and/or at least one gene selected from ANKRD37 (SEQ ID NO.: 3), P4HA2 (SEQ ID NO.: 12), NDRG1 (SEQ ID NO: 10), SLC2A1 (SEQ ID NO:15), P4HA1 (SEQ ID NO.: 11), LOX (SEQ ID NO.: 9), C3orf28 (SEQ ID NO.: 6), BNIP3L (SEQ ID NO.: 5), BNIP3 (SEQ ID NO.:4), EGLN3 (SEQ ID NO.: 7), PDK1 (SEQ ID NO.: 13), PFKFB3 (SEQ ID NO.: 14), KCTD11 (SEQ ID NO.: 8), and/or ALDOA (SEQ ID NO.: 2), in a cancer sample. The transcriptional level is then correlated to the transcriptional level to at least one reference gene, and oxygen status 10 is then evaluated by comparing the correlated transcription level with a predetermined reference sample comprising cancer cells characterized by a high oxygen level.

Abstract: The present invention provides a method for determining the oxygen status of a cancer of an individual. The method comprise determining the transcriptional expression level of ADM (SEQ ID No:1), and/or at least one gene selected from ANKRD37 (SEQ ID NO.: 3), P4HA2 (SEQ ID NO.: 12), NDRG1 (SEQ ID NO: 10), SLC2A1 (SEQ ID NO:15), P4HA1 (SEQ ID NO.: 11), LOX (SEQ ID NO.: 9), C3orf28 (SEQ ID NO.: 6), BNIP3L (SEQ ID NO.: 5), BNIP3 (SEQ ID NO.:4), EGLN3 (SEQ ID NO.: 7), PDK1 (SEQ ID NO.: 13), PFKFB3 (SEQ ID NO.: 14), KCTD11 (SEQ ID NO.: 8), and/or ALDOA (SEQ ID NO.: 2), in a cancer sample. The transcriptional level is then correlated to the transcriptional level to at least one reference gene, and oxygen status 10 is then evaluated by comparing the correlated transcription level with a predetermined reference sample comprising cancer cells characterized by a high oxygen level.

Abstract: Immunogenic HIV-1 envelope polypeptides are provided, wherein specific amino acid residues are mutated to repress immunosuppression in GP41, thereby boosting the immune response against HIV-1. Specifically, mutation of those specific residues does not affect the fusogenic properties of the viral particle and/or the overall protein structure of the viral envelope protein. The invention further provides peptides and antigens based on the immunogenic HIV-1 envelopes as well as nucleic acid sequences and vectors encoding those. Moreover, biological entities such as viral particles are provided, as well as use of the provided components for preparation of a vaccine against HIV-1/AIDS.

Abstract: Modelling a molecule by means of a graph, said graph comprising vertices and edges, each edge having a specific type, and said graph having cyclic orderings on the half-edges about at least one of the vertices, said system comprising means for determining the cyclic orderings on the half-edges about said at least one vertex by means of the spatial coordinates of the constituent atoms of the molecule, and means for determining the type of each edge of the graph by means of the relative spatial location of the constituent atoms of the molecule. Thereby automatic classification, comparison, specification, analysis and/or prediction of molecular structures can be provided because these molecular structures are represented by explicit combinatorial objects, and descriptors can be derived from the graph constructed in this manner. The descriptors are automatically computable from molecular databases, such as PDB or CATH, with no qualitative human intervention or subjective criteria.