SLAS 2019
SLAS 2019 Booth # 1545 Washington DC February 2-6 https://www.slas2019.org
5th Annual Biologics Manufacturing India
5th Annual Biologics Manufacturing India 2019 Booth # 8 Hyderabad, India. Feb 12-14, 2019 https://www.imapac.com/business_conference/biologics-manufacturing-india/
BrainXell forms Uniform, Single 3D Spheroids using Human iPSC-induced Spinal Motor Neurons and Cortical Glutamatergic Neurons with S-BIO PrimeSurface plates
BrainXell and S-BIO form Uniform, Single 3D Spheroids using Human iPSC-induced Spinal Motor Neurons and Cortical Glutamatergic Neurons.
SFN 2018 Conference
BrainXell Inc and S-BIO will be participating at SFN 2018 conference and present "3D spheroid culture workflow using iPSC-derived human neurons" Abstract Number: 16056 Abstract Title: 3D spheroid culture workflow using iPSC-derived human neurons Session Title: Stem Cells and Neural Differentiation Session Number: 196 Session Time: 11/4/2018 1:00:00 PM - 11/4/2018 5:00:00 PM Presentation Number: 196.29 Presentation Time: Sun, Nov. 4, 2018, [...]
Biologics Manufacturing India 2018
Meet us at 4th Annual Biologics Manufacturing India 2018. Booth # 12, Hyatt Regency, Pune, India. Feb 20-21, 2018 http://www.imapac.com/business_conference/biologics-manufacturing-india-2018/
Biotherapeutics Analytical Summit, 2018
Meet us at Biotherapeutics Analytical Summit Booth # 4 Sheraton Inner Harbor Hotel | Baltimore, MD March 12-16, 2018 Biotherapeutics Analytical Summit Homepage
SLAS 2018 – San Diego
Meet us at SLAS 2018: Booth: 651 San Diego Convention Center Feb 3-7, 2018 https://www.slas2018.org/
Brightfield and Fluorescence Imaging using 3D PrimeSurface® Ultra-Low Attachment Microplates
Culturing cells in three-dimensions (3D) has become a well established approach as it is more representative of the in vivo environment than traditional two-dimensional (2D) cultures. Allowing cells to interact with each other in a spheroid creates a micro-environment which mimics in vivo tissue and is a better model for examining the effect of drugs [...]
OZAWA, Masayuki (2015). The N-cadherin cytoplasmic domain confers anchorage-independent growth and the loss of contact inhibition. Scientific Reports. 5: 1-16.
Madin-Darby canine kidney cell: MDCK T23 cells, anchorage independence growth of tumor cells, Immunoprecipitation and immunoblotting Flow cytometry Anoikis assay Fluorescence microscopy WST-1 cell pr liferation assay Soft agar colony assay Gene expression microarray and data analysis, Phase contrast micrograph Fluorescence microscopy, anchorage independence growth of tumor cells E-cadherin N-cadherin YAP/TAZ signaling, Doxorubicin (DOX), PrimeSurface