Three proteins, BCL-G (BCL2L14), CMPK2, and LAMP3, were discovered to independently restrict HIV-1 replication both in-vivo and in-vitro. Methods are described wherein subjects are given an effective amount of a pharmaceutical composition comprising a protein selected from the group consisting of BCL-G, CMPK2, LAMP3, functional parts thereof, recombinant proteins thereof, and combinations thereof, for the purpose of treating or preventing HIV.

Disclosed herein are Notch transcriptional activation complex kinase (“NACK”) inhibitors, and methods for their use in treating or preventing diseases, such as cancer. The inhibitors described herein include compounds of Formula (la) and pharmaceutically acceptable salts thereof: wherein the substituents are as described.

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The invention provides methods for genetically engineering T cells in vivo comprising administering to the subject a cytokine or nucleic acid molecule encoding a cytokine to recruit the subject's T cells to the administration site; followed by administration of a nucleic acid molecule encoding an antigen receptor. In some instances, the method also includes administering an integrase or nucleic acid molecule encoding an integrase to integrate the sequence encoding the antigen receptor into the DNA of the recruited T cells.

The present invention provides polynucleotide vectors for high expression of heterologous genes. Some vectors further comprise novel transposons and transposases that further improve expression. Further disclosed are vectors that can be used in a gene transfer system for stably introducing nucleic acids into the DNA of a cell. The gene transfer systems can be used in methods, for example, gene expression, bioprocessing, gene therapy, insertional mutagenesis, or gene discovery.

Compositions and methods for creating plants exhibiting enhanced resistance to abiotic stresses, especially cold stress are disclosed.

The invention is in the field of regulation of enzymatic activity in nucleic acid modifying reactions. It describes a method of regulating enzymatic activity by adding chelating agents to the reaction composition and exploits the fact that both the binding of divalent cations to these chelating agents and the pH of commonly used buffers is temperature dependent. PCR experiments that are hampered by non-specific side products can be regulated such that the target sequence is amplified in a more specific manner.

The present invention provides polynucleotide vectors for high expression of heterologous genes. Some vectors further comprise novel transposons and transposases that further improve expression. Further disclosed are vectors that can be used in a gene transfer system for stably introducing nucleic acids into the DNA of a cell. The gene transfer systems can be used in methods, for example, gene expression, bioprocessing, gene therapy, insertional mutagenesis, or gene discovery.

The invention is in the field of regulation of enzymatic activity in nucleic acid modifying reactions. It describes a method of regulating enzymatic activity by adding chelating agents to the reaction composition and exploits the fact that both the binding of divalent cations to these chelating agents and the pH of commonly used buffers is temperature dependent. PCR experiments that are hampered by non-specific side products can be regulated such that the target sequence is amplified in a more specific manner.

Compositions and methods for creating plants exhibiting enhanced resistance to abiotic stresses, especially cold stress are disclosed.

The present invention provides polynucleotide vectors for high expression of heterologous genes. Some vectors further comprise novel transposons and transposases that further improve expression. Further disclosed are vectors that can be used in a gene transfer system for stably introducing nucleic acids into the DNA of a cell. The gene transfer systems can be used in methods, for example, gene expression, bioprocessing, gene therapy, insertional mutagenesis, or gene discovery.