Project description:Definition using LAM-PCR of the insertion profile of IFP2 transposons containing a NeoR using the murine PGBD5 isoform, Mm523.

Project description:Definition using LAM-PCR of the insertion profile of IFP2 transposons containing a NeoR using the wild type PB transposase.

Project description:Definition using LAM-PCR of the insertion profile of IFP2 transposons containing a NeoR using the wild type CRD-less PB transposase (1-558)

Project description:Definition using LAM-PCR of the insertion profile of Tcr-pble transposons containing a NeoR using murine PGBD5 isoform Mm523.

Project description:Definition using LAM-PCR of the insertion profile of IFP2 transposons containing a NeoR using the wild type CRD-less PB transposase (1-558) N-terminally fused with a SV40 NLS

Project description:Definition of the insertion profile of Tcr-pble transposons containing a NeoR using G401 cells expressing PGBD5 Hs524 using LAM-PCR.

Project description:Genomic rearrangements are a hallmark of childhood cancers, but the mutational processes underlying most of these variants remain unknown. We identified piggyBac transposable element derived 5 (PGBD5) as a highly expressed, enzymatically active domesticated human DNA transposase in a large subset of pediatric solid tumors, including rhabdoid tumors. Ectopic expression of PGBD5 in primary human cells was sufficient to induce fully penetrant cell transformation both in vitro and in immunodeficient mice in vivo. This activity required specific catalytic aspartic acid residues in the PGBD5 transposase domain as well as cellular non-homologous end-joining DNA repair, and was associated with distinct structural rearrangements defined by specific DNA sequence motifs. Similar genomic alterations, some recurrent, were found in primary human rhabdoid tumors. Thus, PGBD5 represents a new class of developmental oncogenic mutators in childhood solid tumors.

Project description:Induction of somatic oncogenic mutations by the domesticated DNA transposase PGBD5 in cerebellar progenitor cells promotes medulloblastoma development.

Project description:We have developed a microarray intended for use in finding all transposons in a region of interest. By selectively amplifying and hybridizing transposon flanking DNA to our array, we can localize all transposons in the region present on our TIP-chip, a dense tiling array. We have tested our technology in yeast and have been successful. Keywords: transposon insertion profiling, genomic DNA, yeast

Project description:The Sleeping Beauty (SB) transposon system is an efficient non-viral gene transfer tool in mammalian cells, but its broad use has been hampered by uncontrolled transposase gene activity from DNA vectors, posing a risk of genome instability, and by the inability to use the transposase protein directly. In this study, we used rational protein design based on the crystal structure of the hyperactive SB100X variant to create an SB transposase (high-solubility SB, hsSB) with enhanced solubility and stability. We demonstrate that hsSB can be delivered with transposon DNA to genetically modify cell lines and embryonic, hematopoietic and induced pluripotent stem cells (iPSCs), overcoming uncontrolled transposase activity. We used hsSB to generate chimeric antigen receptor (CAR) T cells, which exhibit potent antitumor activity in vitro and in xenograft mice. We found that hsSB spontaneously penetrates cells, enabling modification of iPSCs and generation of CAR T cells without the use of transfection reagents. Titration of hsSB to modulate genomic integration frequency achieved as few as two integrations per genome.