Cellular Engineering Technologies

Cellular Engineering Technologies

Products (34)

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  • Human Gaucher's Type 1 iPS Cells

    Cellular Engineering Technologies

    Cell line was derived from a single male doner of African American descent diagnosed with Gaucher disease type 1. Donor was one year of age. Gaucher Type 1 is a genetic disorder caused by a defective enzyme called glucocerebrosidase (GCase), which breaks down a glucocerebroside a sphingolipid that...

  • Human HepG2 Hepatocellular Carcinoma Cells

    Cellular Engineering Technologies

    HepG2 is a human cell line isolated from a hepatocellular carcinoma of [donor information] with liver cancer. HepG2 cells are used in a wide range of studies, from the oncogenesis to the cytoxicity of substances on the liver These cells can be used for (i) the study of carcinogenesis as a surrogate...

  • Human Alzheimer's Presenilin-1 Mutation iPS Cells

    Cellular Engineering Technologies

    Cell line was derived from a single male done with Alzheimer's disease with onset occurring at the age of 45. The donor cells were collected via skin biopsy of the forearm ante-mortem. The cell morphology is fibroblast-like. Vial contains 500,000 cells. Shipped with dry ice. Mutations in the PSEN1...

  • Human Cystinosis iPS Cells

    Cellular Engineering Technologies

    Cell line was derived from single, 14-year old male donor. Cystinosis is a genetic, lysosomal storage disease characterized by the abnormal accumulation of cystine. Mutuations in the CTNS gene that codes for cystinosin, a lysosomal membrane-specific transporter for cystine. Accumulation of free...

  • Human Lung Cancer Associated Fibroblast Expansion Media

    Lung cancer associated fibroblast expansion media is designed to support the robust growth of LCAF cells. Media is compatible with available animal-origin serum, which is supplemented separately according to the customer preference. Media is shipped with gel packs.

  • Human Niemann Pick Type C (Female) iPS Cells

    Cellular Engineering Technologies

    Target cell line was derived from an 8 year old female [and sibling [with NPC1 mutation]]. The affected donor had evidence of splenomegaly without neurological symptoms at time of presentation and subsequently received intravenous and intrathecal cyclodextrin. Vial contains 500,000 cells. Shipped...

  • Human Niemann Pick Type C (Male) iPS Cells

    Cellular Engineering Technologies

    Target cell line was derived from an 11 year old man with NPC1 mutation. The donor was clinically affected with splenomegaly and supranuclear palsy and subsequently received intravenous and intrathecal cyclodextrin. Other subsequent features included uncoordinated movements and seizures. Vial...

  • Cryopreservation Media

    Cellular Engineering Technologies

    This media is extremely versatile and can be used to cryopreserve both adherent and suspension cells. Media has been tested with hematopoietic stem cells, mesenchymal stem cells, amniotic epithelial stem cells, cancer cell, endothelial cells, fibroblasts and immune cells. Contains 10% DMSO. Media is...

  • iPS Cell Passaging Solution

    Cellular Engineering Technologies

    This xeno-free and feeder-free media is uniquely formulated for the growth and expansion of induced pluripotent stem cells. This formulation was developed and refined over decades of bench work using CET's proprietary cell lines. This media has been shown to support iPSC growth for up 20 passages...

  • Human Alpha 1 Anti-Trypsin Deficiency iPS Cells

    Cellular Engineering Technologies

    Target cell line was derived from an 57 year old female donor with two copies of the SERPINA1 gene that produces an abnormal type of Alpha-1 protein. Donor cells were isolated and then programmed using our patented virus-free method using episomal DNA and our proprietary mix of vectors, excluding...

  • Human HepG2 Hepatocellular Carcinoma Expansion Media

    HepG2 Human Hepatocellular Carcinoma Expansion Media is designed specifically for the robust growth of HepG2 cells. Media is compatible with available animal-origin serum, which is supplemented separately according to the customer preference. Media is shipped with gel packs.

  • Human Osteogenic Differentiation Media

    Cellular Engineering Technologies

    Osteogenic Differentiation Media is designed to support differentiation of adipose or bone marrow-derived mesenchymal stem cells into osteogenic or bone producing cells. Media is compatible with available animal-origin serum, which is supplemented separately according to the customer preference....

  • Human Keratinocyte Growth Media

    Cellular Engineering Technologies

    Human Keratinocyte Growth Media is designed to support robust growth keratinocyte proliferation. When using this media keratinocyte cells have been observed to retain cuboidal morphology and a 48 hour doubling time. Media is shipped with gel packs.

  • Human HACAT Keratinocyte Cells

    Cellular Engineering Technologies

    Human keratinocyte cells isolated from a normal human foreskin. These cells are frozen at the first passage and exhibit robust growth characteristics in cell culture with fast doubling times and consistent morphology. Keratinocyte cells are widely used in iPSC reprogramming workflows, cell therapy...

  • iPS Cell Reprogramming Media Kit

    Cellular Engineering Technologies

    Specifically designed to increase the efficiency of all iPS cell reprogramming methods that are currently utilized. This kit requires a media change every 48 hours saving researchers hands-on time and media consumption. Target cells that are mitotically active and in a low passage state are highly...

  • Human Panc-1 Expansion Media

    Cellular Engineering Technologies

    Pan-1 Expansion Media is designed to support the robust growth of human pancreatic carcinoma cells. When used with our proprietary Panc-1 cell line, this media forms a complete solution for researchers. Media is shipped with gel packs.

  • Human Cystic Fibrosis iPS Cells

    Cellular Engineering Technologies

    Cell line was derived from a single, caucasian male donor diagnosed with Cystic Fibrosis. Cystic fibrosis is caused by the presence of mutuations of the gene encoding the cystic fibrosis transmembrane conductance regulator (CFTR) protein, which is involved in the production of mucus. This genetic...

  • Human CD34+ iPS Cells

    Cellular Engineering Technologies

    Cells isolated from mononuclear cord blood and then programmed using our patented virus-free method using episomal DNA and our proprietary mix of vectors, excluding Myc and Lin28 transcription factors. The cell line was validated for pluripotency based on colony morphology, alkaline phosphatase...

  • Human Multipotent Unrestricted Somatic Stem Cell Expansion Media

    Multipotent unrestricted somatic expansion media is designed to support the robust growth of cord blood stem cells. Media has been shown to maintain stem cells in an undifferentiated state for [x] months. Media is compatible with available animal-origin serum, which is supplemented separately...

  • iPS Cell Episomal Reprogramming Kit

    Cellular Engineering Technologies

    Proprietary episomal plasmid mix where individual reprogramming factors (RFs) are placed in EBNA-1 containing vectors containing a CMV promoter with appropriate poly A sequences. This kit allows for high levels of expression of RFs such as Oct-4, Sox-2 and Klf-4, while avoiding oncogenic potential...

  • Human Mesenchymal Stem Cell Expansion Media

    Cellular Engineering Technologies

    This media specifically designed for high density growth of mesenchymal stem cells and undifferentiated somatic stem cells. This media is promotes robust growth and will maintain stem cells in an undifferentiated state. Media is shipped with gel packs.

  • Human Adipogenic Differentiation Media

    Cellular Engineering Technologies

    Adipogenic Differentiation Media is designed to support differentiation of adipose or bone marrow-derived mesenchymal stem cells into adipose or fat producing cells. Media is compatible with available animal-origin serum, which is supplemented separately according to the customer preference. Media...

  • Human Multipotent iPS Cells

    Cellular Engineering Technologies

    Cells isolated from cord blood and which contain a lower level of MHC Class II molecules and then programmed using our patented virus-free method using episomal DNA and our proprietary mix of vectors, excluding Myc and Lin28 transcription factors. The cell line was validated for pluripotency based...

  • Human Adipose-Derived Mesenchymal Stem Cells

    Cellular Engineering Technologies

    Cells derived from adult human lipoaspirate tissue collected during elective surgical liposuction procedures and then programmed using our patented virus-free method using episomal DNA and our proprietary mix of vectors, excluding Myc and Lin28 transcription factors. Adipose-derived mesenchymal...

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