CnT-Prime Epithelial Proliferation Medium, EGF/FGF-Free

CnT-PR-EF

Frozen medium

500 mL

CHF 299.00

Description

CnT-PR-EF is a chemically defined, animal component-free medium designed for the expansion and differentiation of human induced pluripotent stem cells (iPSCs) and embryonic stem cells (ESCs) into Eyel epithelial lineages. The formulation contains low levels of growth factors and is completely free of EGF and FGF, ensuring conditions that promote the desired differentiation pathway. It does not contain antibiotics or antimycotics.
CnT-PR-EF provides a controlled environment for guiding stem cells toward Eyel epithelial fate. For detailed instructions on how to supplement this medium to induce differentiation into Eyel epithelium, please refer to Nature Protocols (Hayashi et al., 2017).

Category Media

Highlights

Succeed in Eyel iPSC/ESC differentiation

High efficiency expansion and differentiation of human iPSC and ESC down Eyel lineages

Fully defined

Chemically defined, contains no components of animal or human origin, supports 3R principles

Maximize standardization and convenience

Fully supplemented, one bottle ready-to-go after addition of serum. Maximize convenience, minimize variability and error

Clinically upgradable

Realize a seamless transition from lab to clinical trial and ATMP-development

CnT-PR-EF

CnT-30

Tissue type

Eye

Cell type

Epithelial Cells, Keratinocytes

Species

Human, may also work for other species

Workflow Steps

–

Serum Level

Serum-free

BPE Level

BPE-free

ACF Status

Free of animal and human components

Contains animal components

Chemically defined

Yes

Clinically upgradable

–

Volume

500 mL

Component(s)

–

Quality Level

Research Grade

Scientific Literature

Downloads

CnT-Prime Epithelial Proliferation Medium, EGF/FGF-Free Datasheet

Download

CnT-Prime Epithelial Proliferation Medium, EGF/FGF-Free SDS

Download

General thawing, passaging, and freezing protocol

Download

Related Products

Please see related product recommendations below or browse our products hub.

CnT-PR

Isolation and expansion of epithelial cells from multiple tissue types. Chemically defined, contains no components of animal or human origin.

CnT-30

Differentiation of human iPSC and ESC down Eyel lineages in a chemically defined medium.

CnT-NX-E

Isolation and rapid expansion of primary epithelial cells from multiple tissue types, iPSC derived cells, and cell lines. Chemically defined, contains no components of animal or human origin.

CnT-PR-H

Low growth factor medium for homeostatic maintenance of epithelial cells.

CnT-PR-BM.1

a basal medium used in all the CnT-Prime range of media and containing a low calcium concentration specifically chosen for optimal long-term proliferation of epithelial progenitor cells.

CnT-PR-CA

a custom-made fully defined medium, containing only residual amounts of Calcium. It is intended for use in circumstances where a reduced calcium concentration is desired.

CnT-PR-CSF

Custom-made, fully defined medium which is free of corticosteroids. CnT-PR-CSF is intended for use in experiments or applications, for which a corticosteroid-free environment is specifically desired.

CnT-PR-3D

Optimal differentiation of primary human epidermal keratinocytes and other epithelial tissues in 3D airlift culture.

CnT-Prime Epithelial Proliferation Medium, EGF/FGF-Free

Description

Highlights

Succeed in Eyel iPSC/ESC differentiation

Fully defined

Maximize standardization and convenience

Clinically upgradable

CnT-PR-EF

CnT-30

Scientific Literature

Ryuhei Hayashi et al.

(2017)

— Nat Protoc

Coordinated generation of multiple ocular-like cell lineages and fabrication of functional corneal epithelial cell sheets from human iPS cells

Ryuhei Hayashi et al.

(2022)

— Nature

Generation of 3D lacrimal gland organoids from human pluripotent stem cells

Shun Shibata et al.

(2018)

— Cell Rep

Selective Laminin-Directed Differentiation of Human Induced Pluripotent Stem Cells into Distinct Ocular Lineages

Shun Shibata et al.

(2019)

— Regenerative Ther

The secretome of adipose-derived mesenchymal stem cells attenuates epithelial-mesenchymal transition in human corneal epithelium

Yuki Kobayashi et al.

(2020)

— Stem Cell Res

Ocular Surface Ectoderm Instigated by WNT inhibition and BMP4

Kimihito Nomi et al.

(2021)

— Cell Rep

Generation of functional conjunctival epithelium, including goblet cells, from human iPSCs

Shinya Watanabe et al.

(2021)

— iScience

Human iPS cells engender corneal epithelial stem cells with holoclone-forming capabilities

Masahiro Kitao et al.

(2023)

— iScience

Identification of BST2 as a conjunctival epithelial stem/progenitor cell marker

Downloads

CnT-Prime Epithelial Proliferation Medium, EGF/FGF-Free Datasheet

Download

CnT-Prime Epithelial Proliferation Medium, EGF/FGF-Free SDS

Download

General thawing, passaging, and freezing protocol

Download

Related Products

CnT-PR

CnT-30

CnT-NX-E

CnT-PR-H

CnT-PR-BM.1

CnT-PR-CA

CnT-PR-CSF

CnT-PR-3D

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