Genedata

Genedata
Industry	Bioinformatics; Biopharmaceutical; Life sciences;
Founded	1997; 27 years ago
Headquarters	Basel, Switzerland
Area served	Worldwide
Key people	Othmar Pfannes (Founder & CEO)
Products	https://www.genedata.com/products-services
Number of employees	~400
Website	https://www.genedata.com/

Genedata is a bioinformatics company that develops enterprise software solutions to accelerate biopharmaceutical research and development. Founded in 1997 by Othmar Pfannes, Genedata has since grown to approximately 400 employees. Genedata is headquartered in Basel, Switzerland with additional offices in Boston, London, Munich, San Francisco, Singapore, and Tokyo positioning the company in the heart of biopharma clusters around the globe.

Today, top 25 biopharmaceutical enterprises, innovative biotechnology companies, and scientific research institutions use the Genedata Biopharma Platform to increase the efficiency of their R&D operations. With its knowledgeable scientific experts, modular software portfolio, and collaborative approach, Genedata helps companies to more efficiently discover, develop, characterize, and manufacture innovative biotherapeutics of all modalities including antibodies, cell and gene therapies (CGTs), RNA, and vaccines.

Genedata's solutions drive digitalization, automation, standardization, and data FAIRness while complying with regulatory standards.^[1]

In July 2024, Genedata joined the Danaher Group.

Genedata Products

Genedata developed its first product for drug target discovery in 1998.The Genedata Biopharma Platform encompasses purpose-built workflow and analysis systems that support discovery, development, and translational research, as well as technology-focused analytical workflows. These systems can be used either individually or together to connect distinct data streams within organizations.^[2]

Screener – For assay data analytics and management in discovery and development ^[3]

Expressionist – For MS-based characterization and QC of biotherapeutics ^[4]

Selector – For NGS-based target discovery, bioprocess development, and QC of biotherapeutics^[5]

Biologics – For covering the end-to-end biotherapeutics discovery workflow for all modalities^[6]

Profiler – For translational research and precision medicine development ^[7]

Bioprocess – For bioprocess development workflows ^[8]

Chromatics – For integrated chromatography data management and analysis (To be released in 2025)

References

^ Fischer, Sascha (2023-04-18). "Accelerating time to market through digitalisation". Drug Discovery World (DDW).
^ "The Genedata Biopharma Platform". www.genedata.com.
^ Fang, Jie; Singh, Shivendra; Cheng, Changde; Natarajan, Sivaraman; Sheppard, Heather; Abu-Zaid, Ahmed; Durbin, Adam D.; Lee, Ha Won; Wu, Qiong; Steele, Jacob; Connelly, Jon P.; Jin, Hongjian; Chen, Wenan; Fan, Yiping; Pruett-Miller, Shondra M. (2023-07-06). "Genome-wide mapping of cancer dependency genes and genetic modifiers of chemotherapy in high-risk hepatoblastoma". Nature Communications. 14 (1): 4003. Bibcode:2023NatCo..14.4003F. doi:10.1038/s41467-023-39717-6. ISSN 2041-1723. PMC 10326052. PMID 37414763.
^ Dhenin, Jonathan; Lafont, Valérie; Dupré, Mathieu; Krick, Alain; Mauriac, Christine; Chamot-Rooke, Julia (2023-07-21). "Monitoring mAb proteoforms in mouse plasma using an automated immunocapture combined with top-down and middle-down mass spectrometry". Proteomics. 24 (3–4): e2300069. doi:10.1002/pmic.202300069. ISSN 1615-9853. PMID 37480175.
^ Schmieder, Valerie; Fieder, Juergen; Drerup, Raphael; Gutierrez, Erik Arango; Guelch, Carina; Stolzenberger, Jessica; Stumbaum, Mihaela; Mueller, Volker Steffen; Higel, Fabian; Bergbauer, Martin; Bornhoefft, Kim; Wittner, Manuel; Gronemeyer, Petra; Braig, Christian; Huber, Michaela (2022-04-10). "Towards maximum acceleration of monoclonal antibody development: Leveraging transposase-mediated cell line generation to enable GMP manufacturing within 3 months using a stable pool". Journal of Biotechnology. 349: 53–64. doi:10.1016/j.jbiotec.2022.03.010. ISSN 0168-1656.
^ Furtmann, Norbert; Schneider, Marion; Spindler, Nadja; Steinmann, Bjoern; Li, Ziyu; Focken, Ingo; Meyer, Joachim; Dimova, Dilyana; Kroll, Katja; Leuschner, Wulf Dirk; Debeaumont, Audrey; Mathieu, Magali; Lange, Christian; Dittrich, Werner; Kruip, Jochen (2021). "An end-to-end automated platform process for high-throughput engineering of next-generation multi-specific antibody therapeutics". mAbs. 13 (1): 1955433. doi:10.1080/19420862.2021.1955433. ISSN 1942-0870. PMC 8366542. PMID 34382900.
^ Hartwig, Christina; Müller, Jan; Klett, Hagen; Kouhestani, Dina; Mittelstädt, Anke; Anthuber, Anna; David, Paul; Brunner, Maximilian; Jacobsen, Anne; Glanz, Karolina; Swierzy, Izabela; Roßdeutsch, Lotta; Klösch, Bettina; Grützmann, Robert; Wittenberger, Timo (2024-02-02). "Discrimination of pancreato-biliary cancer and pancreatitis patients by non-invasive liquid biopsy". Molecular Cancer. 23 (1): 28. doi:10.1186/s12943-024-01943-x. ISSN 1476-4598. PMC 10836044. PMID 38308296.
^ PhD, Vivienne Raper (2024-03-06). "Pharma Companies Embrace Unified Record Keeping". GEN - Genetic Engineering and Biotechnology News.

[1] Fischer, Sascha (2023-04-18). "Accelerating time to market through digitalisation". Drug Discovery World (DDW).

[2] "The Genedata Biopharma Platform". www.genedata.com.

[3] Fang, Jie; Singh, Shivendra; Cheng, Changde; Natarajan, Sivaraman; Sheppard, Heather; Abu-Zaid, Ahmed; Durbin, Adam D.; Lee, Ha Won; Wu, Qiong; Steele, Jacob; Connelly, Jon P.; Jin, Hongjian; Chen, Wenan; Fan, Yiping; Pruett-Miller, Shondra M. (2023-07-06). "Genome-wide mapping of cancer dependency genes and genetic modifiers of chemotherapy in high-risk hepatoblastoma". Nature Communications. 14 (1): 4003. Bibcode:2023NatCo..14.4003F. doi:10.1038/s41467-023-39717-6. ISSN 2041-1723. PMC 10326052. PMID 37414763.

[4] Dhenin, Jonathan; Lafont, Valérie; Dupré, Mathieu; Krick, Alain; Mauriac, Christine; Chamot-Rooke, Julia (2023-07-21). "Monitoring mAb proteoforms in mouse plasma using an automated immunocapture combined with top-down and middle-down mass spectrometry". Proteomics. 24 (3–4): e2300069. doi:10.1002/pmic.202300069. ISSN 1615-9853. PMID 37480175.

[5] Schmieder, Valerie; Fieder, Juergen; Drerup, Raphael; Gutierrez, Erik Arango; Guelch, Carina; Stolzenberger, Jessica; Stumbaum, Mihaela; Mueller, Volker Steffen; Higel, Fabian; Bergbauer, Martin; Bornhoefft, Kim; Wittner, Manuel; Gronemeyer, Petra; Braig, Christian; Huber, Michaela (2022-04-10). "Towards maximum acceleration of monoclonal antibody development: Leveraging transposase-mediated cell line generation to enable GMP manufacturing within 3 months using a stable pool". Journal of Biotechnology. 349: 53–64. doi:10.1016/j.jbiotec.2022.03.010. ISSN 0168-1656.

[6] Furtmann, Norbert; Schneider, Marion; Spindler, Nadja; Steinmann, Bjoern; Li, Ziyu; Focken, Ingo; Meyer, Joachim; Dimova, Dilyana; Kroll, Katja; Leuschner, Wulf Dirk; Debeaumont, Audrey; Mathieu, Magali; Lange, Christian; Dittrich, Werner; Kruip, Jochen (2021). "An end-to-end automated platform process for high-throughput engineering of next-generation multi-specific antibody therapeutics". mAbs. 13 (1): 1955433. doi:10.1080/19420862.2021.1955433. ISSN 1942-0870. PMC 8366542. PMID 34382900.

[7] Hartwig, Christina; Müller, Jan; Klett, Hagen; Kouhestani, Dina; Mittelstädt, Anke; Anthuber, Anna; David, Paul; Brunner, Maximilian; Jacobsen, Anne; Glanz, Karolina; Swierzy, Izabela; Roßdeutsch, Lotta; Klösch, Bettina; Grützmann, Robert; Wittenberger, Timo (2024-02-02). "Discrimination of pancreato-biliary cancer and pancreatitis patients by non-invasive liquid biopsy". Molecular Cancer. 23 (1): 28. doi:10.1186/s12943-024-01943-x. ISSN 1476-4598. PMC 10836044. PMID 38308296.

[8] PhD, Vivienne Raper (2024-03-06). "Pharma Companies Embrace Unified Record Keeping". GEN - Genetic Engineering and Biotechnology News.

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