Newsletter
Stem Cell Services
Accelerate your research and discoveries by leveraging our extensive expertise in stem cell technology! We can provide physiologically relevant in vitro models derived from Pluripotent Stem Cells (PSC) for more predictive models of human disease and biology. ASC offers a comprehensive custom service platform for every aspect of stem cell-based research: iPSC generation/ ESC derivation, CRISPR/Cas9 genome editing and cell line model generation; differentiation to somatic lineage of choice, downstream assays to validate your cell line and for drug discovery and screening.
Stem Cell Services Categories
Faster, High-throughput
iPSCs from Patient Samples & Allogenic iPSCs
iPSC Characterization
Service
Microglia & Neural Stem Cell
Differentiation
T Cell, NK Cell
Differentiation
Hepatocytes
Differentiation
Cardiomyocytes
Differentiation
Retinal Pigment Epithelium
(RPE) Differentiation
iPSC Culture
Services
Products and Services
Support Materials
Publications
iPSC Generation
- Ilic, D. (2019). Latest developments in the field of stem cell research and regenerative medicine compiled from publicly available information and press releases from nonacademic institutions in October 2018. Regenerative medicine, 14(2), 85-92.
- Allende, M. L., Cook, E. K., Larman, B. C., Nugent, A., Brady, J. M., Golebiowski, D., ... & Proia, R. L. (2018). Cerebral organoids derived from Sandhoff disease induced pluripotent stem cells exhibit impaired neurodifferentiation. Journal of Lipid Research, jlr-M081323.
- Field, A. R., Jacobs, F. M., Fiddes, I. T., Phillips, A. P., Reyes-Ortiz, A. M., LaMontagne, E., ... & Hauessler, M. (2019). Structurally Conserved Primate LncRNAs Are Transiently Expressed during Human Cortical Differentiation and Influence Cell-Type-Specific Genes. Stem cell reports..
Safe Harbor Locus Master iPSC Generation with TARGATT™
- Karow, M., Chavez, C. L., Farruggio, A. P., Geisinger, J. M., Keravala, A., Jung, W. E., ... & Calos, M. P. (2011). Site‐Specific Recombinase Strategy to Create Induced Pluripotent Stem Cells Efficiently with Plasmid DNA. Stem Cells, 29(11), 1696-1704.
- Zhu, F., Gamboa, M., Farruggio, A. P., Hippenmeyer, S., Tasic, B., Schüle, B., ... & Calos, M. P. (2013). DICE, an efficient system for iterative genomic editing in human pluripotent stem cells. Nucleic acids research, 42(5), e34-e34.
iPSC Disease Modeling
- Ilic, D. (2019). Latest developments in the field of stem cell research and regenerative medicine compiled from publicly available information and press releases from nonacademic institutions in October 2018. Regenerative medicine, 14(2), 85-92.
- Simkin, D., Searl, T. J., Piyevsky, B. N., Forrest, M., Williams, L. A., Joshi, V., ... & Penzes, P. (2019). Impaired M-current in KCNQ2 Encephalopathy Evokes Dyshomeostatic Modulation of Excitability. bioRxiv, 538371. https://doi.org/10.1101/538371
- Jang, Y., Choi, J., Park, N., Kang, J., Kim, M., Kim, Y., & Ju, J. H. (2019). Development of immunocompatible pluripotent stem cells via CRISPR-based human leukocyte antigen engineering. Experimental & Molecular Medicine, 51(1), 3.
- Lizarraga, S. B., Maguire, A. M., Ma, L., van Dyck, L. I., Wu, Q., Nagda, D., ... & Cowen, M. H. (2018). Human neurons from Christianson syndrome iPSCs reveal allele-specific responses to rescue strategies. bioRxiv, 444232.
- Tanaka, H., Kondo, K., Chen, X., Homma, H., Tagawa, K., Kerever, A., ... & Fujita, K. (2018). The intellectual disability gene PQBP1 rescues Alzheimer’s disease pathology. Molecular Psychiatry, 1.
- Selvan, N., George, S., Serajee, F. J., Shaw, M., Hobson, L., Kalscheuer, V. M., ... & Schwartz, C. E. (2018). O-GlcNAc transferase missense mutations linked to X-linked intellectual disability deregulate genes involved in cell fate determination and signaling. Journal of Biological Chemistry, jbc-RA118.
- Chai, S., Wan, X., Ramirez-Navarro, A., Tesar, P. J., Kaufman, E. S., Ficker, E., ... & Deschênes, I. (2018). Physiological genomics identifies genetic modifiers of long QT syndrome type 2 severity. The Journal of clinical investigation, 128(3).
- Seigel, G. M., et al. (2014). Comparative Analysis of ABCG2+ Stem-Like Retinoblastoma Cells and Induced Pluripotent Stem Cells as Three-Dimensional Aggregates. Investigative Ophthalmology & Visual Science, 55(13), 3068-3068.
- Comley, J. (2016). CRISPR/Cas9 - transforming gene editing in drug discovery labs. Drug Discovery Weekly. Fall 2016; 33-48.
Teratoma Analysis, iPSC Characterization
Teratoma Formation Assay (Published reports of ASC's Teratoma Formation Analysis Reports can be found in the Certificate of Analysis "Induced Pluripotent Stem Cells (iPSCs)" by Coriell Institute for Medical Research.)
- DIABETES MELLITUS, JUVENILE-ONSET INSULIN-DEPENDENT; IDDM (Page 8-12)
- HUNTINGTON DISEASE; HD (Page 8-13)
- MUSCULAR DYSTROPHY, BECKER TYPE; BMD (Page 8-12)
- SEVERE COMBINED IMMUNODEFICIENCY, AUTOSOMAL RECESSIVE, T CELL-NEGATIVE, B CELL-NEGATIVE, NK CELL-NEGATIVE, DUE TO ADENOSINE DEAMINASE DEFICIENCY (Page 8-12)
- SPINAL MUSCULAR ATROPHY I; SMA1 (Page 8-15)
References
-
Ou, J., Ball, J. M., Luan, Y., Zhao, T., Miyagishima, K. J., Xu, Y., ... & Mallon, B. S. (2018). iPSCs from a Hibernator Provide a Platform for Studying Cold Adaptation and Its Potential Medical Applications. Cell, 173(4), 851-863. https://doi.org/10.1016/j.cell.2018.03.010
-
Teves, S. S., An, L., Bhargava-Shah, A., Xie, L., Darzacq, X., & Tjian, R. (2018). A stable mode of bookmarking by TBP recruits RNA Polymerase II to mitotic chromosomes. bioRxiv, 257451. DOI: 10.1101/257451
-
Hansen, A. S., Pustova, I., Cattoglio, C., Tjian, R., & Darzacq, X. (2017). CTCF and cohesin regulate chromatin loop stability with distinct dynamics. Elife, 6.
-
Vermilyea, S. C., Guthrie, S., Meyer, M., Smuga-Otto, K., Braun, K., Howden, S., ... & Golos, T. G. (2017). Induced Pluripotent Stem Cell-Derived Dopaminergic Neurons from Adult Common Marmoset Fibroblasts. Stem cells and development, 26(17), 1225-1235. https://doi.org/10.1089/scd.2017.0069.
-
Teves, S. S., An, L., Hansen, A. S., Xie, L., Darzacq, X., & Tjian, R. (2016). A dynamic mode of mitotic bookmarking by transcription factors. Elife, 5.
-
Laskowski, T. J., Van Caeneghem, Y., Pourebrahim, R., Ma, C., Ni, Z., Garate, Z., ... & Segovia, J. C. (2016). Gene correction of iPSCs from a Wiskott-Aldrich syndrome patient normalizes the lymphoid developmental and functional defects. Stem cell reports, 7(2), 139-148.
-
Boza-Morán, M. G., Martínez-Hernández, R., Bernal, S., Wanisch, K., Also-Rallo, E., Le Heron, A., ... & Tizzano, E. F. (2015). Decay in survival motor neuron and plastin 3 levels during differentiation of iPSC-derived human motor neurons. Scientific reports, 5, 11696.
-
Romero, I. G., Pavlovic, B. J., Hernando-Herraez, I., Zhou, X., Ward, M. C., Banovich, N. E., ... & Chavarria, C. I. (2015). A panel of induced pluripotent stem cells from chimpanzees: a resource for comparative functional genomics. Elife, 4.
-
Cheung, H. S., Pelaez, D., & Huang, C. C. (2015). U.S. Patent Application No. 14/382,287.
-
Chakravarti, D., Su, X., Cho, M. S., Bui, N. H. B., Coarfa, C., Venkatanarayan, A., ... & Leung, M. L. (2014). Induced multipotency in adult keratinocytes through down-regulation of ΔNp63 or DGCR8. Proceedings of the National Academy of Sciences, 111(5), E572-E581.
-
Lee, J., Kim, Y., Yi, H., Diecke, S., Kim, J., Jung, H., ... & Park, S. H. (2014). Generation of disease-specific induced pluripotent stem cells from patients with rheumatoid arthritis and osteoarthritis. Arthritis research & therapy, 16(1), R41.
-
Quang, T., Marquez, M., Blanco, G., & Zhao, Y. (2014). Dosage and cell line dependent inhibitory effect of bFGF supplement in human pluripotent stem cell culture on inactivated human mesenchymal stem cells. PloS one, 9(1), e86031.
-
Jumabay, M., Abdmaulen, R., Ly, A., Cubberly, M. R., Shahmirian, L. J., Heydarkhan-Hagvall, S., ... & Boström, K. I. (2014). Pluripotent stem cells derived from mouse and human white mature adipocytes. Stem cells translational medicine, 3(2), 161-171.
-
Sanders, L. H., Laganière, J., Cooper, O., Mak, S. K., Vu, B. J., Huang, Y. A., ... & Langston, J. W. (2014). LRRK2 mutations cause mitochondrial DNA damage in iPSC-derived neural cells from Parkinson's disease patients: reversal by gene correction. Neurobiology of disease, 62, 381-386.
-
Sun, N., & Zhao, H. (2014). Seamless correction of the sickle cell disease mutation of the HBB gene in human induced pluripotent stem cells using TALENs. Biotechnology and bioengineering, 111(5), 1048-1053.
-
Lee, P., Martin, N. T., Nakamura, K., Azghadi, S., Amiri, M., Ben-David, U., ... & Lowry, W. E. (2013). SMRT compounds abrogate cellular phenotypes of ataxia telangiectasia in neural derivatives of patient-specific hiPSCs. Nature communications, 4, 1824.
-
Buccini, S. M. (2013). Doctoral dissertation, University of Cincinnati.
-
Pelaez, D., Huang, C. Y. C., & Cheung, H. S. (2013). Isolation of pluripotent neural crest-derived stem cells from adult human tissues by connexin-43 enrichment. Stem cells and development, 22(21), 2906-2914.
-
Cassidy, L., Choi, M., Meyer, J., Chang, R., & Seigel, G. M. (2013). Immunoreactivity of Pluripotent Markers SSEA-5 and L1CAM in Human Tumors, Teratomas, and Induced Pluripotent Stem Cells. Journal of Biomarkers, 2013, 960862. http://doi.org/10.1155/2013/960862.
-
Cooper, O., Seo, H., Andrabi, S., Guardia-Laguarta, C., Graziotto, J., Sundberg, M., … Isacson, O. (2012). Familial Parkinson’s disease iPSCs show cellular deficits in mitochondrial responses that can be pharmacologically rescued. Science Translational Medicine, 4(141), 141ra90. http://doi.org/10.1126/scitranslmed.3003985.
-
Zheng, Z., Jian, J., Zhang, X., Zara, J. N., Yin, W., Chiang, M., ... & Soo, C. (2012). Reprogramming of human fibroblasts into multipotent cells with a single ECM proteoglycan, fibromodulin. Biomaterials, 33(24), 5821-5831.
-
Almeida, S., Zhang, Z., Coppola, G., Mao, W., Futai, K., Karydas, A., ... & Sena-Esteves, M. (2012). Induced pluripotent stem cell models of progranulin-deficient frontotemporal dementia uncover specific reversible neuronal defects. Cell reports, 2(4), 789-798.
-
Zhang, W. Y., de Almeida, P. E., & Wu, J. C. (2012). Teratoma formation: A tool for monitoring pluripotency in stem cell research. StemBook.
-
Jing, L., Christoforou, N., Leong, K. W., Setton, L. A., & Chen, J. (2012). Differentiation potential of human induced pluripotent stem cells (iPSCs) to nucleus pulposus-like cells in vitro. Global Spine Journal, 2(1_suppl), s-0032.
-
Valamehr, B., Abujarour, R., Robinson, M., Le, T., Robbins, D., Shoemaker, D., & Flynn, P. (2012). A novel platform to enable the high-throughput derivation and characterization of feeder-free human iPSCs. Scientific reports, 2, 213.
-
Chen, K. G., Mallon, B. S., Hamilton, R. S., Kozhich, O. A., Park, K., Hoeppner, D. J., ... & McKay, R. D. (2012). Non-colony type monolayer culture of human embryonic stem cells. Stem cell research, 9(3), 237-248.
-
Telugu, B. P. V. L., Ezashi, T., Sinha, S., Alexenko, A. P., Spate, L., Prather, R. S., & Roberts, R. M. (2011). Leukemia Inhibitory Factor (LIF)-dependent, Pluripotent Stem Cells Established from Inner Cell Mass of Porcine Embryos. The Journal of Biological Chemistry, 286(33), 28948–28953. http://doi.org/10.1074/jbc.M111.229468.
-
Deleidi, M., Hargus, G., Hallett, P., Osborn, T., & Isacson, O. (2011). Development of histocompatible primate induced pluripotent stem cells for neural transplantation. Stem Cells (Dayton, Ohio), 29(7), 1052–1063. http://doi.org/10.1002/stem.662
Karyotyping
- Zhao, L., Teklemariam, T., & Hantash, B. M. (2014). Heterelogous expression of mutated HLA-G decreases immunogenicity of human embryonic stem cells and their epidermal derivatives. Stem cell research, 13(2), 342-354.
- Sun, N., & Zhao, H. (2014). Seamless correction of the sickle cell disease mutation of the HBB gene in human induced pluripotent stem cells using TALENs. Biotechnology and bioengineering, 111(5), 1048-1053.
- An, M. C., Zhang, N., Scott, G., Montoro, D., Wittkop, T., Mooney, S., ... & Ellerby, L. M. (2012). Genetic correction of Huntington's disease phenotypes in induced pluripotent stem cells. Cell stem cell, 11(2), 253-263.
- Zheng, Z., Jian, J., Zhang, X., Zara, J. N., Yin, W., Chiang, M., ... & Soo, C. (2012). Reprogramming of human fibroblasts into multipotent cells with a single ECM proteoglycan, fibromodulin. Biomaterials, 33(24), 5821-5831.
FAQs
What are iPSCs?
What are stem cells?
What types of services do you offer in your stem cell platform?
Do you use feeder-dependent or feeder-free conditions?