Abstract: The present invention is related to nucleic acid sequences that can be used in the field of virus diagnostics, more specifically the diagnosis of infections with the AIDS causing Human Immuno-deficiency Virus (HIV). With the present invention nucleotide sequences are provided that can be used as primers and probes in the amplification and detection of HIV-1 nucleic acid. The oligonucleotide sequences provided with the present invention are located in the LTR part of the HIV viral genome. It has been found that, by using the sequences of the present invention in methods for the amplification and detection of nucleic acid a sensitive and specific detection of HIV-1 can be obtained. The benefit of the sequences of the present invention primarily resides in the fact that, with the aid of primers and probes comprising the sequences according to the invention the nucleic acid of all presently known subtypes of HIV-1 can be detected with high accuracy and sensitivity.

Abstract: The present invention is related to nucleic acid sequences that can be used in the field of virus diagnostics, more specifically the diagnosis of infections with the AIDS causing Human Immuno-deficiency Virus (HIV). With the present invention nucleotide sequences are provided that can be used as primers and probes in the amplification and detection of HIV-1 nucleic acid. The oligonucleotide sequences provided with the present invention are located in the LTR part of the HIV viral genome. It has been found that, by using the sequences of the present invention in methods for the amplification and detection of nucleic acid a sensitive and specific detection of HIV-1 can be obtained. The benefit of the sequences of the present invention primarily resides in the fact that, with the aid of primers and probes comprising the sequences according to the invention the nucleic acid of all presently known subtypes of HIV-1 can be detected with high accuracy and sensitivity.

Abstract: The invention is related to a nucleic acid molecule comprising a polynucleotide encoding a modified filovirus glycoprotein (GP) having at least one amino acid change located in a relatively conserved region of said GP that decreases in vitro cytotoxicity and retains immunogenicity when compared to in vitro cytotoxicity and immunogenicity of a wild type filovirus GP, and related modified filovirus GPs, plasmid DNAs, recombinant viruses, adenoviruses, pharmaceutical compositions, vaccine compositions, antibodies that are specifically reactive with the modified filovirus GPs, and related methods of making and using the same.

Abstract: The present invention is related to nucleic acid sequences that can be used in the field of virus diagnostics, more specifically the diagnosis of infections with the AIDS causing Human Immuno-deficiency Virus (HIV). With the present invention nucleotide sequences are provided that can be used as primers and probes in the amplification and detection of HIV-1 nucleic acid. The oligonucleotide sequences provided with the present invention are located in the LTR part of the HIV viral genome. It has been found that, by using the sequences of the present invention in methods for the amplification and detection of nucleic acid a sensitive and specific detection of HIV-1 can be obtained. The benefit of the sequences of the present invention primarily resides in the fact that, with the aid of primers and probes comprising the sequences according to the invention the nucleic acid of all presently known subtypes of HIV-1 can be detected with high accuracy and sensitivity.

Abstract: The present invention is related to nucleic acid sequences that can be used in the field of virus diagnostics, more specifically the diagnosis of infections with the AIDS causing Human Immuno-deficiency Virus (HIV). With the present invention nucleotide sequences are provided that can be used as primers and probes in the amplification and detection of HIV-1 nucleic acid. The oligonucleotide sequences provided with the present invention are located in the LTR part of the HIV viral genome. It has been found that, by using the sequences of the present invention in methods for the amplification and detection of nucleic acid a sensitive and specific detection of HIV-1 can be obtained. The benefit of the sequences of the present invention primarily resides in the fact that, with the aid of primers and probes comprising the sequences according to the invention the nucleic acid of all presently known subtypes of HIV-1 can be detected with high accuracy and sensitivity.

Abstract: Provided are recombinant adenovirus vectors (serotype 26 and serotype 35) encoding filovirus antigens. The adenovirus vectors can be used to induce protective immune responses against filovirus infection.

Abstract: The invention is related to a nucleic acid molecule comprising a polynucleotide encoding a modified filovirus glycoprotein (GP) having at least one amino acid change located in a relatively conserved region of said GP that decreases in vitro cytotoxicity and retains immunogenicity when compared to in vitro cytotoxicity and immunogenicity of a wild type filovirus GP, and related modified filovirus GPs, plasmid DNAs, recombinant viruses, adenoviruses, pharmaceutical compositions, vaccine compositions, antibodies that are specifically reactive with the modified filovirus GPs, and related methods of making and using the same.

Abstract: The present invention provides compositions of binding molecules specifically binding to a coronavirus such as SARS-CoV and capable of neutralizing an infection caused by the virus. The compositions are suitable for diagnosing, preventing and/or treating a condition resulting from a coronavirus such as SARS-CoV.

Abstract: The invention is related to a nucleic acid molecule comprising a polynucleotide encoding a modified filovirus glycoprotein (GP) having at least one amino acid change located in a relatively conserved region of said GP that decreases in vitro cytotoxicity and retains immunogenicity when compared to in vitro cytotoxicity and immunogenicity of a wild type filovirus GP, and related modified filovirus GPs, plasmid DNAs, recombinant viruses, adenoviruses, pharmaceutical compositions, vaccine compositions, antibodies that are specifically reactive with the modified filovirus GPs, and related methods of making and using the same.

Abstract: Described are vaccine regimens in which specific prime/boost regimens are applied using low-neutralized recombinant adenoviral vectors harboring nucleic acids encoding antigens from Plasmodium falciparum and purified recombinant protein vaccines such as RTS,S, in the context of appropriate adjuvants.

Abstract: Described are binding molecules that specifically bind to SARS-CoV, nucleic acid molecules encoding the binding molecules, compositions comprising the binding molecules, and methods of identifying or producing the binding molecules. The binding molecules are capable of specifically binding to SARS-CoV, and can be used in the diagnosis, prophylaxis, and/or treatment of a condition resulting from SAR.

Abstract: The present invention provides binding molecules that specifically bind to SARS-CoV, nucleic acid molecules encoding the binding molecules, compositions comprising the binding molecules and methods of identifying or producing the binding molecules. The binding molecules are capable of specifically binding to SARS-CoV and can be used in the diagnosis, prophylaxis and/or treatment of a condition resulting from SARS-CoV.

Abstract: Described are vaccine regimens in which specific prime/boost regimens are applied using low-neutralized recombinant adenoviral vectors harboring nucleic acids encoding antigens from Plasmodium falciparum and purified recombinant protein vaccines such as RTS,S, in the context of appropriate adjuvants.

Abstract: Described are vaccines containing (whole-inactivated) West Nile Viruses and/or West Nile viral proteins derived therefrom, produced on human cells, wherein the human cells comprise a sequence encoding at least one early region-1 (E1) gene product of an adenovirus. The cells are preferably cultured in suspension to very high densities and under serum-free conditions. Herein, it is disclosed that use of such cells results in high titers of West Nile Virus produced.

Abstract: The present invention relates to novel vaccines containing (whole-inactivated) West Nile Viruses and/or West Nile viral proteins derived therefrom, produced on human cells, wherein the human cells comprise a sequence encoding at least one early region-1 (E1) gene product of an adenovirus. The cells are preferably cultured in suspension to very high densities and under serum-free conditions. Herein, it is disclosed that use of such cells results in high titers of West Nile Virus produced.

Abstract: The present invention relates to novel vaccines containing (whole-inactivated) West Nile Viruses and/or West Nile viral proteins derived therefrom, produced on human cells, wherein the human cells comprise a sequence encoding at least one early region-1 (E1) gene product of an adenovirus. The cells are preferably cultured in suspension to very high densities and under serum-free conditions. Herein, it is disclosed that use of such cells results in high titers of West Nile Virus produced.

Abstract: The invention relates to novel vaccine regimens in which specific prime/boost regimens are applied using low-neutralized recombinant adenoviral vectors harboring nucleic acids encoding antigens from Plasmodium falciparum and purified recombinant protein vaccines such as RTS,S, in the context of appropriate adjuvants.

Abstract: The present invention provides compositions of binding molecules specifically binding to a coronavirus such as SARS-CoV and capable of neutralizing an infection caused by the virus. The compositions are suitable for diagnosing, preventing and/or treating a condition resulting from a coronavirus such as SARS-CoV.

Abstract: The invention relates to methods for easily separating single stranded nucleic acid material from double stranded nucleic acid material in a sample containing both. By the right choice of at lease one chaotropic agent, preferably a guanidine salt, at a selected concentration and other suitable conditions such a chelating agents, pH and the like, it is possible to bind double stranded material to a solid phase such as silica particles, whereas single stranded material will not bind under those circumstances. By separating the silica particles from the sample the double stranded nucleic acid material is removed. It can easily be eluted from the silica particles. In a second step the single stranded material may be bound to a solid phase by selecting a different set of conditions. The particles can again be separated from the sample and the single stranded material may now be eluted. For very efficent separations, the process may be repeated.

Abstract: The present invention pertains to antigenic peptides of SARS-CoV and their use in diagnostic test methods and in the treatment of condition resulting from SARS-CoV. Furthermore, this invention provides antibodies capable of specifically recognizing the peptides of the invention. The antibodies can also advantageously be used in diagnostic test methods and in the treatment of condition resulting from SARS-CoV.