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SCC049

Sigma-Aldrich

O9-1 Mouse Cranial Neural Crest Cell Line

Mouse

Synonym(s):

Multipotent mesenchymal cells

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About This Item

UNSPSC Code:
41106514
eCl@ss:
32011203
NACRES:
NA.81

product name

O9-1 Mouse Cranial Neural Crest Cell Line, stably expresses stem cell markers and neural crest markers

biological source

mouse

Quality Level

technique(s)

cell culture | stem cell: suitable

shipped in

liquid nitrogen

General description

Cranial neural crest cells give rise to ectomesenchymal derivatives such as cranial bones, cartilage, smooth muscle, dentin, as well as melanocytes, corneal endothelial cells, and neurons and glial cells of the peripheral nervous system. Previous studies have suggested that although multipotent stem-like cells may exist during the course of cranial neural crest development, they are transient, undergoing lineage restriction early in embryonic development.

Whole-genome expression profiling of O9-1 cells revealed that this line stably expresses stem cell markers (CD44, Sca-1, and Bmi1) and neural crest markers (AP-2a, Twist1, Sox9, Myc, Ets1, Dlx1, Dlx2, Crabp1, Epha2, and Itgb1). O9-1 cells are capable of contributing to cranial mesenchymal (osteoblast and smooth muscle) neural crest fates when injected into E13.5 mouse cranial tissue explants and chicken embryos. These results suggest that O9-1 cells represent multipotent mesenchymal cranial neural crest cells. The O9-1 cell line should serve as a useful tool for investigating the molecular properties of differentiating cranial neural crest cells. The O9-1 cell line can be propagated and passaged for at least 10 passages, and can differentiate into osteoblasts, chondrocytes, smooth muscle cells, and glial cells (Ishii, 2012).

Ishii, M., et al. (2012) A stable cranial neural crest cell line from mouse. Stem Cells Dev. 21(17): 3069-3080.

Cell Line Description

Neural Lineage Cells

Application

Research Category
Neuroscience

Stem Cell Research
This product is intended for sale and sold solely to academic institutions for internal academic research use per the terms of the “Academic Use Agreement” as detailed in the product documentation. For information regarding any other use, please contact licensing@emdmillipore.com.

Components

1) ≥1X106 viable O9-1 Mouse Cranial Neural Crest Cell Line: (Catalog No. SCC049). Derived from mass cultures of Wnt1-Cre; R26R-GFP reporter-expressing cranial neuronal crest cells from E8.5 mouse embryos.

Quality

• Each vial contains ≥ 1X106 viable cells at passage 20 -22
• Cells tested negative for infectious disease by a murine PCR panel (Mouse Essential CLEAR Panel by Charles River Animal Diagnostic Services)
• Cells tested negative for mycoplasma contamination

Physical form

Product is supplied frozen in 10% DMSO and 90% expansion medium.

Storage and Stability

O9-1 cells should be stored in liquid nitrogen. The cells can be passage for at least 10 passages without significantly affecting the cell marker expression and functionality.

Storage Class Code

10 - Combustible liquids

WGK

WGK 1

Flash Point(F)

Not applicable

Flash Point(C)

Not applicable


Certificates of Analysis (COA)

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Shun Yan et al.
Proceedings of the National Academy of Sciences of the United States of America, 117(46), 28847-28858 (2020-11-01)
CHD7 encodes an ATP-dependent chromatin remodeling factor. Mutation of this gene causes multiple developmental disorders, including CHARGE (Coloboma of the eye, Heart defects, Atresia of the choanae, Retardation of growth/development, Genital abnormalities, and Ear anomalies) syndrome, in which conotruncal anomalies
Archana Kamalakar et al.
Cellular signalling, 54, 130-138 (2018-12-12)
During craniofacial development, cranial neural crest (CNC) cells migrate into the developing face and form bone through intramembranous ossification. Loss of JAGGED1 (JAG1) signaling in the CNC cells is associated with maxillary hypoplasia or maxillary bone deficiency (MBD) in mice
Fernanda Bajanca et al.
Nature communications, 10(1), 1518-1518 (2019-04-05)
When migrating in vivo, cells are exposed to numerous conflicting signals: chemokines, repellents, extracellular matrix, growth factors. The roles of several of these molecules have been studied individually in vitro or in vivo, but we have yet to understand how
Archana Kamalakar et al.
Bone, 143, 115657-115657 (2020-09-28)
Craniofacial bone loss is a complex clinical problem with limited regenerative solutions. Currently, BMP2 is used as a bone-regenerative therapy in adults, but in pediatric cases of bone loss, it is not FDA-approved due to concerns of life-threatening inflammation and
Angelica Mastandrea Amanso et al.
Journal of cellular biochemistry, 122(5), 538-548 (2021-01-23)
The development of bone requires carefully choregraphed signaling to bone progenitors to form bone. Our group recently described the requirement of transforming growth factor beta receptor 3 (TGFβR3), a receptor involved in TGFβ pathway signaling, during osteoblast lineage commitment in

Protocols

Step-by-step culture protocols for neural stem cell culture including NSC isolation, expansion, differentiation and characterization.

Step-by-step culture protocols for neural stem cell culture including NSC isolation, expansion, differentiation and characterization.

Step-by-step culture protocols for neural stem cell culture including NSC isolation, expansion, differentiation and characterization.

Step-by-step culture protocols for neural stem cell culture including NSC isolation, expansion, differentiation and characterization.

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