ATUM Launches Cell-Line Development Service
Expansion is Supported by four Broad Patents for Company’s Leap-In Transposase® Technology
(Newark, CA, April 10, 2017) ATUM (formerly DNA2.0) has announced an expansion of its services to include cell line development, which has been enabled by the company’s proprietary Leap-In Transposase genome engineering tools. ATUM has also begun construction of a new, 7,000 SF mammalian cell engineering laboratory at its Newark, CA headquarters. The new facility, slated to be fully operational by September 2017, will double ATUM's lab space dedicated to mammalian work, and will include a cGMP cell bank manufacturing facility that is expected to be fully validated by the end of the year.
"The Leap-In Transposases give us stable, highly productive cell lines in very short timeframes,” said Ferenc Boldog, Ph.D., director of cell line development at ATUM and former head of cell line development at Shire. “In the era of CRISPR/Cas9 and TALENs, making gene knock-outs has been simplified. Leap-In Transposase complements these tools by enabling us to rapidly insert DNA of unlimited size into a target genome. The availability of two independent transposons allows us to make sequential genome modifications. For example, we can add half a dozen genes to modify glycosylation pathways using one transposase, then integrate 4 new genes to produce a bispecific antibody with an improved glycosylation profile."
ATUM has so far been granted four patents by the U.S. Patent and Trademark Office (USTPO) for the company’s novel Leap-In Transposase technology: "Enhanced nucleic acid constructs for eukaryotic gene expression,” Patent Nos: 9,428,767; 9,574,209; 9,580,697 and 9,534,234.
"With Dr. Boldog’s leadership, we have turned Leap-In from a research tool into a cell line development powerhouse,” said Jeremy Minshull, CEO of ATUM. "We are finding that this novel technology significantly accelerates stable pool and cell-line generation for protein pharmaceutical production. We obtain high productivities when used in conjunction with metabolic selections such as dihydrofolate reductase (DHFR) and glutamine synthetase (GS) or more generic drug selections such as puromycin. Now that high yield stable pools are so quick and easy to make, our partners can move into their final production host earlier in the drug development process, thereby giving them added confidence about the properties of their molecules.”
About the Leap-In Transposase® Technology
ATUM has discovered, characterized and patented two new families of transposases. These have been engineered using ATUM's ProteinGPS technology for complex genome engineering of mammalian cells, including the rapid generation of high titer protein expression lines. The technology enables any recombinant DNA sequence to behave as a transposon -- a mobile genetic element -- and to efficiently transpose the cargo from delivery vectors to target cell chromosomes via a “cut & paste” mechanism. The Leap-In Transposase® rapidly catalyzes the stable, quasi-random integration of many copies of a transposon into the target genome. In contrast to more traditional "random integration" methods where the introduced DNA may be randomly fragmented and sequences lost, transposases integrate the entire transposon every time. Transposons thus produce more stable and higher producing lines, and greatly reduce the downstream screening burden.
ATUM, formerly DNA2.0, offers an integrated pipeline of tools including gene design, optimization and synthesis, expression vectors, and platforms for protein and strain engineering and production. ATUM exploits the dependence of biological activity on well-designed sequences. ATUM's tools and solutions are fueling the transformation of biology from a discovery science to an engineering discipline. By collaborating with clients, ATUM accelerates breakthroughs and moves research further faster. The company is privately held and is headquartered in Newark, California. For more information, please visit https://www.atum.bio.