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Search results (15)

« Back to Publications

BACTERIOPHAGE, international patent#WO2023203063A9

Ababi M. et al, (2025)

Retroviral vectors, patent #WO2025158155A1 (GB)

Tridgett M. et al, (2025)

A Novel Lentiviral Vector Cargo Gene Silencing System to Benefit Manufacturing of Cell Therapies

Johny S. et al, (2025), MOLECULAR THERAPY, 33

SILENCING LENTIVIRAL VECTOR CARGO GENE TO AID CELL THERAPY MANUFACTURING

Liu Q. et al, (2025), CYTOTHERAPY, 27

Lentiviral vector packaging and producer cell lines yield titers equivalent to the industry-standard four-plasmid process.

Tridgett M. et al, (2024), Mol Ther Methods Clin Dev, 32

Lentiviral Vector Packaging and Producer Cell Lines Yield Titres Equivalent to the Industry-Standard Four-Plasmid Process

Tridgett M. et al, (2024), MOLECULAR THERAPY, 32, 224 - 225

Lentiviral Vector Cargo Gene Silencing During Manufacturing

Johny SP. et al, (2024), MOLECULAR THERAPY, 32, 461 - 461

LentiVEX™ Producer Cell Lines: Transfection-Free Production of Lentiviral Vectors Encoding Therapeutically Relevant Transgenes

Tridgett M. et al, (2023), MOLECULAR THERAPY, 31, 676 - 676

LentiVEX Packaging Cell Line v2.0 Yields Comparable LVV Titres to the 4-plasmid Process

Mulet M. et al, (2023), MOLECULAR THERAPY, 31, 393 - 393

Lambda Red Recombineering of Bacteriophage in the Lysogenic State.

Tridgett M. et al, (2022), 2479, 11 - 19

Scarless Recombineering of Phage in Lysogenic State.

Ababi M. et al, (2022), Methods Mol Biol, 2479, 1 - 9

Lambda Red Recombineering of Bacteriophage in the Lysogenic State. In Methods in Molecular Biology

Tridgett M. et al, (2022), Methods in molecular biology (Clifton, N.J.)

Engineering Bacteria to Produce Pure Phage-like Particles for Gene Delivery.

Tridgett M. et al, (2021), ACS Synth Biol, 10, 107 - 114

GeneORator: An Effective Strategy for Navigating Protein Sequence Space More Efficiently through Boolean OR-Type DNA Libraries.

Currin A. et al, (2019), ACS Synth Biol, 8, 1371 - 1378

Computing exponentially faster: implementing a non-deterministic universal Turing machine using DNA.

Currin A. et al, (2017), J R Soc Interface, 14