Tak Biotech provides expert services in cell line development, specializing in creating customized cell lines.

Our comprehensive offerings include:

• Cell Line Engineering: We design and optimize cell lines tailored to specific research requirements, ensuring stability and high expression levels.

• Cell Line Characterization: We perform thorough characterization to verify the quality, functionality, and consistency of the cell lines.

• Production and Scaling: We manage the production and scaling of cell lines, from small-scale to large-scale applications, to support various stages of research and development.

Our goal at Tak Biotech is to deliver robust and reliable cell lines that meet the rigorous demands of modern immuno-oncology research, providing you with the support and expertise needed to advance your projects effectively.

Cell Line Solutions

Diverse Range of Pre-Validated Cell Lines

Cell lines are crucial for investigating a variety of biological processes, such as gene regulation, protein interactions, cellular signaling, and differentiation. They offer a more physiologically relevant alternative to cell-free assays and are applicable across many research domains.

Tak Biomed offers an extensive selection of pre-validated human cell lines, including those for studying receptors, ion channels, cell signaling pathways, phosphodiesterases, and CRE recombinase. Each line undergoes rigorous validation to ensure top-quality and dependable performance for your research needs.

Most Popular and Widely Used Cell Lines:

  • 1. HEK293 Human embryonic kidney cells, widely used in gene expression studies.
  • 2. HeLa The first immortal human cell line, from cervical cancer, used in cancer research.
  • 3. A549 Human lung carcinoma cells, commonly used in respiratory research.
  • 4. MCF-7 Breast cancer cells, used for studying hormonal responses and cancer treatments.
  • 5. PC-3 Prostate cancer cells, key in prostate cancer studies.
  • 6. CHO C hinese hamster ovary cells, important in recombinant protein production.
  • 7. Jurkat Human T lymphocyte cells, vital for immunological research. 
  • 8. U87-MG Human glioblastoma cells, used for studying brain cancer.
  • 9. C2C12 Mouse myoblasts, essential for muscle differentiation research.
  • 10. RAW 264.7 Mouse macrophage cells, used in immunology and inflammation studies.
  • 11. NIH/3T3 Mouse fibroblast cells, common in cancer and gene expression research.
  • 12. HCT116 Human colon cancer cells, widely used in colorectal cancer studies.
  • 13. SH-SY5Y Human neuroblastoma cells, used in neurobiology and neurological disorder studies.
  • 14. LNCaP Prostate cancer cells, used for androgen receptor research.
  • 15. 293 A derivative of HEK293, used in high-efficiency protein production.
  • 16. B16-F10 Mouse melanoma cells, used in skin cancer and metastasis research.
  • 17. U937 Human monocytic cells, vital for studies in leukemia and macrophage differentiation.
  • 18. MDCK Canine kidney epithelial cells, commonly used in virology.
  • 19. SK-N-SH Human neuroblastoma cells, important for neurobiological research.
  • 20. HT-29 Human colorectal adenocarcinoma cells, used in cancer and drug resistance studies.
  • 21. Saos-2 Human osteosarcoma cells, useful for bone cancer studies.
  • 22. Vero African green monkey kidney cells, extensively used in viral research.
  • 23. PANC-1 Human pancreatic carcinoma cells, critical in pancreatic cancer research.
  • 24. T47D Human breast cancer cells, used in hormone therapy research.
  • 25. K562 Human chronic myelogenous leukemia cells, used in leukemia and blood disease research.
  • 26. L929 Mouse fibroblasts, commonly used for cytotoxicity testing.
  • 27. MC3T3-E1 Mouse pre-osteoblast cells, vital for bone formation studies.
  • 28. THP-1 Human monocyte cells, essential in studying immune responses.
  • 29. Caco-2 Human colon carcinoma cells, used in intestinal permeability research.
  • 30. HepG2 Human liver carcinoma cells, commonly used for hepatotoxicity studies.
  • 31. Sf9 Insect ovarian cells from Spodoptera frugiperda, used for baculovirus expression systems.
  • 32. MDA-MB-231 Human breast cancer cells, important in studying triple-negative breast cancer.
  • 33. A375 Human melanoma cells, widely used in skin cancer research.
  • 34. CHO-K1 A derivative of CHO cells, used in genetic research and drug production.
  • 35. BV2 Mouse microglial cells, used in neuroinflammation and neurodegenerative studies.
  • 36. H9C2 Rat cardiomyocytes, vital for cardiovascular research.
  • 37. IMR-32 Human neuroblastoma cells, used in neurological and cancer research.
  • 38. N2A Mouse neuroblastoma cells, essential in neurobiology research.
  • 39. MRC-5 Human lung fibroblast cells, used in virology and vaccine production.
  • 40. J774A.1 Mouse macrophage cells, important for immunology and infection studies.
  • 41. COS-7 Monkey kidney fibroblasts, used in transfection and protein expression studies.
  • 42. KG-1 Human acute myelogenous leukemia cells, important for blood cancer studies.
  • 43. Hep3B Human liver carcinoma cells, used in liver cancer and gene expression research.
  • 44. V79 Chinese hamster lung cells, used in genetic toxicology testing.
  • 45. LLC-MK2 Monkey kidney epithelial cells, commonly used in virology.
  • 46. U2OS Human osteosarcoma cells, used in cancer and genetic research.
  • 47. HUVEC Human umbilical vein endothelial cells, key for vascular and angiogenesis research.
  • 48. INS-1 Rat insulinoma cells, used in diabetes and pancreatic research.
  • 49. RT4 Human bladder carcinoma cells, important for bladder cancer studies.
  • 50. Calu-3 Human lung adenocarcinoma cellsare used in research for respiratory and drug delivery.
  • more…