Latest How To Guides
How To Guide
Caring for Your Centrifuge
Download this guide to learn tips on balancing, choosing the correct tubes, training, maintenance and cleaning.
How To Guide
A Guide to RNA-Seq
Download this guide to learn more about what RNA-Seq is and the information it provides, advantages of RNA-Seq, the types of RNA-Seq available and what to consider when designing your experiment.
How To Guide
Biosample Management and Data Tracking: Setting Your LIMS Workflow Right
Download this guide to explore important aspects of the LIMS workflow, biosample management and data management.
How To Guide
High-Throughput Nanowell-Based Image Verified Cloning for Cell Line Development
High-throughput nanowell-based image-verified cloning technology (HT-NIC) is a new method allowing the fast generation of clonal pharmaceutical production cell lines.
How To Guide
Single Cell Buyer’s Guide
Cell heterogeneity is a key contributor to biological complexity that is often masked by bulk techniques, like RNA sequencing or microarray analysis.
How To Guide
Maintaining Water Quality in the Lab – Key Considerations
Download this guide to explore different water types and their uses, the implications of poor water quality and water storage.
How To Guide
Imaging Protocol Handbook
The ability to visualize cells is crucial for all scientists hoping to understand cell behavior. This handbook will take you through common imaging protocols, critical notes, tips for running a successful experiment and the supplies needed for each.
How To Guide
Seamless Science for 3D Cell Models
The journey to discovering novel drug targets starts with building a deep understanding of the underlying biology. To achieve this, researchers are increasingly looking to 3D cell cultures to bridge the gap between 2D cell cultures and in vivo animal models.
How To Guide
Tips for Improving Your qPCR
Download this guide to learn how you can improve your qPCR reagents, sample/template and quality control.
How To Guide
Cryogenically Storing Animal Cell Cultures
Maintaining the health of growing cell cultures is a demanding task made more difficult by the perpetual risk of loss through accidents or contamination. In addition, actively growing cell cultures are subject to age-related or environmentally-induced changes which can result in their ongoing evolution and potential loss.
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