Posters

Derivation and applications of human pluripotent stem cells

This poster presents an overview of current approaches to isolate, culture and use human pluripotent stem cells.

Produced with support from STEMCELL Technologies
View this poster as a high-resolution PDF
Nature Reviews Molecular Cell Biology and Nature Protocols take complete responsibility for the editorial content.

 

Guidance for quantitative confocal microscopy

May 2020 Vol 15 No 5

This poster guides researchers through all aspects of acquiring quantitative confocal microscopy images. It provides recommendations from sample preparation to data acquisition and discusses common experimental and instrumentation pitfalls.

Produced with support from Carl Zeiss Microscopy GmbH.
View this poster as a high-resolution PDF
Nature Protocols takes complete responsibility for the editorial content.

 

Production of chimeric antigen receptor (CAR) T cells

April 2017 Vol 12 No 4

T cells engineered to express Chimeric Antigen Receptors (CARs) induce high rates of clinical responses in patients with relapsed or refractory hematologic malignancies, and have demonstrated early indications of clinical activity in solid tumors. The manufacture of CAR T cell therapies is complicated. This poster overviews the production of CAR T cells, discussing the significant and unique challenges of the production process.

Produced with support from STEMCELL Technologies
View this poster as a high-resolution PDF (9.6 MB) 
Nature Protocols takes complete responsibility for the editorial content.

 

Roles for mesenchymal stem cells as medicinal signaling cells

Jan 2016 Vol 11 No 1

Understanding the in vivo identity and function of mesenchymal stem cells (MSCs) is vital to fully exploiting their therapeutic potential. New data are emerging that demonstrate previously undescribed roles of MSCs in vivo. Understanding the behavior of MSCs in vivo is crucial as recent results suggest these additional roles enable MSCs to function as medicinal signaling cells. This poster focuses on the characteristics of MSCs that have been demonstrated to be similar to those of pericytes located around the microvasculature, defined as perivascular MSCs (pMSCs).

Produced with support from STEMCELL Technologies
View this poster as a high-resolution PDF (6.01 MB) 
Nature Protocols takes complete responsibility for the editorial content.

Correction
In the version of this poster initially published, a purple MSC1 cell in the top right-hand corner of the poster was labeled as an "Activated anti-inflammatory MSC1." This cell should have been labeled as an "Activated pro-inflammatory MSC1." In addition, the following information "DOCUMENT #900280 | VERSION 1.0.0" was later inserted at the bottom of the poster. The errors have been corrected in the PDF file as of 29 January and 16 June 2016, respectively.