Welcome Guest
Sign In
Register
Products
Popular Categories
Antibody Search
ELISA Kit Search
Biomolecules
Flow Cytometers
Thermal Cyclers
Microscopes
Transfection Reagents
Featured Products
New Products
Research Areas
ELISA
Western Blot
3D Cell Culture
Digital PCR
Quantitative PCR
Cell and Gene Therapy
In Vivo Models
Resources
eBooks
Bench Tips
Tech Insights
Editorial Articles
News
Product Reviews
Future Lab
White Papers
Infographics
Events
Promotions
Multimedia
Biocompare Webinars
Technologies Transforming Precision Medicine
Immunotherapy
Reproducibility
Transformative Technologies
Podcasts
Bench Tip Videos
All Videos and Webinars
Life Science Webinars
Write a Review
Antibodies
Kits/Reagents
Equipment
Services
Register
Sign In
Biocompare
Products
Cloning and Expression
Cell Culture / Tissue Culture
Primary Cells, Cell Lines and Microorganisms
Cells and Microorganisms
C8-B4
C8-B4 from ATCC
Be the first to write a review!
Citations:
(5)
Supplier Page
Supplier Page from
ATCC for
C8-B4
Request Info
Description
C8-B4 is a microglial cell line that was isolated from the cerebellum of an 8-day-old mouse. This cell line was deposited by B Pessac, and D Trisler. It can be used in immunology and neuroscience research
Product Specs
Company Info
Citations
Reviews
Product Specs
Item
C8-B4
Company
ATCC
Price
$417.00
Supplier Page
View Company Product Page
Catalog Number
CRL-2540
Species
Mus musculus
Type
Cell Biology
Cell Type
monocyte also macrophage also microglial cell
Age
8 days
Tissue
Cerebellum, Brain
Add to Compare List
ATCC
10801 University Boulevard
Manassas
,
Virginia
20110-2209
United States
Phone
: (703) 365-2700
Fax: (703) 365-2701
Company Profile
Website:
http://www.atcc.org
Citations (5)
(1)
Mettl14-mediated m6A modification modulates neuron apoptosis during the repair of spinal cord injury by regulating the transformation from pri‐mir‐375 to miR-375
Cell & Bioscience
December 1, 2021
Haoyu Wang, Jing Yuan, Xiaoqian Dang, Zhibin Shi, Wenrui Ban, Dong Ma
NIH). Establishment of SCI cell model Murine
astrocytes
C8-D1A (Cat No.
CRL-2541
) and
C8-B4
(Cat No.
CRL-2540
) purchased from
ATCC
were cultured in
Dulbecco’s modified Eagle’s medium (DMEM
,
ATCC
, Manassas, VA,
(2)
Functional NHE1 expression is critical to blood brain barrier integrity and sumatriptan blood to brain uptake
PloS one
January 1, 2020
Liktor-Busa E, Blawn KT, Kellohen KL, Wiese BM, Verkhovsky V, Wahl J, Vivek A, Palomino SM, Davis TP, Vanderah TW,
et al
.
astrocyte
-conditioned media harvested from confluent
C8-D1A
flasks.
C8-D1A
(
CRL-2541
,
ATCC
) and
C8-B4
(
CRL-2540
,
ATCC
) cells were maintained in
DMEM
(Gibco, 11995–065), supplemented with 10% fetal bovine serum (Gibco,
(3)
MicroRNA-223 Regulates Retinal Function and Inflammation in the Healthy and Degenerating Retina
Frontiers in cell and developmental biology
January 1, 2020
Fernando N, Wong JHC, Das S, Dietrich C, Aggio-Bruce R, Cioanca AV, Wooff Y, Chu-Tan JA, Schumann U, Ngo C,
et al
.
CRL-2302
;
ATCC
, Manassas, VA, United States (Dunn et al., 1996)],
microglia
-like cells [
mouse
C8B4,
CRL-2540
;
ATCC
(Alliot et al., 1996)], and Müller-like cells [
human
MIO-M1; Moorfield’s Institute of Ophthalmology,
(4)
Model Senescent Microglia Induce Disease Related Changes in α-Synuclein Expression and Activity
Biomolecules
August 1, 2018
Angelova DM, Brown DR.
line generated was as previously described [26]. The
microglial cell
line used in this study was C8B4 (
CRL2540
, American Type Culture Collections (
ATCC
),
mouse
). The cell line was grown in
DMEM
with 10% FBS, and
(5)
Vapor deposition of polyionic nanocoatings for reduction of microglia adhesion†
RSC Advances
January 24, 2018
Bin Zhi, Qing Song, Yu Mao
purchased from Acros.
Micro BCA Protein Assay Kit
was purchased from
Pierce
.
Mouse
C8-B4
microglia
(
CRL-2540
) and
Dulbecco's Modified Eagle's Medium (DMEM
) were purchased from
ATCC
. Penicillin–streptomycin,
Fetal Bovine Serum (FBS
<<
<
>
>>
Reviews
Be the First to Write a Review!
C8-B4 from ATCC
Supplier Page
View Company Product Page
$417.00
Product Specs
Company Info
Citations
Reviews
Back To Top