The medium-throughput module for the 4D-Nucleofector® Platform suited for transfection of hard-to-transfect cell lines or primary cells in 96-well format
Enables the direct Nucleofection® of cells in adherence in 24-well culture plates
The controlling unit of the 4D-Nucleofector® System is suited to handle various functional units for efficient transfection of hard-to-transfect cell lines and primary cells in different formats.
Accessory reservoir when using the second input tubing of an LV Nucleocuvette® Cartridge
Next generation large-scale Nucleofector® Platform for closed, scalable transfection of up to 1 billion cells – from research to GMP manufacturing
For use of the 4D-Nucleofector® 96-well Unit in a liquid handling system
Supports Nucleofection® of various cell numbers in 100 µL cuvettes or 20 µL 16-well strips
Flow-through reaction vessel for the 4D-Nucleofector® LV Unit PRO for research and process development. Easily scalable to up to 1 billion cells. Use in combination with P3 Nucleofector® Solution LV Sets and 4D-Nucleofector® LV Reservoirs.
For rapid determination of Nucleofection conditions for cell lines lacking an Optimized Protocol for the 4D-Nucleofector® X Unit.
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Primary Liver Endothelial CellsImportance of passage number in measuring the uptake of large molecules
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Instructions - Human Liver Endothelial Cells (HLEC)Instructions for proper use and culture of Human Liver Endothelial Cells
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The Importance of Cell-subtype Selection in Creation of a 3D Liver Fibrosis ModelData sheet detailing 3D liver fibrosis model in collaboration with Visikol
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Engineering Culture Platforms to Mimic Liver DiseasesLearn from Dr. Salman Khetani, University of Illinois at Chicago, how multiple liver cell-types including hepatocytes, Kupffer, stellate, and endothelial cells can be engineered together to model human liver disease phenotypes in culture. -
Endothelial Cells Concentration Guide
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NPCs Hepatic Non-Parenchymal CellsThese additional liver cell types provide a complete building set supporting complex cell culture modeling. Applications include developing more physiologically relevant in vitro models for complex liver diseases and toxicity testing of new drugs and chemicals.
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Metabolism_Brochure_CoBrand_FormThis is a co-marketing form for distributors. There is a restricted space on the cover next to the Lonza logo and on the back below the market bar. Art for placement MUST be a PDF. In addition there is space on the back cover for a web address at the top and contact and disclaimers. Please look for the instruction PDF in the literature DB Article number CD-FO006Inst
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Tech/Instruction Sheet - Cond. Immo. HMVEC-BrTechnical information and instructions for culturing CloneticsTM Conditionally Immortalized Human Brain Microvascular Endothelial Cell
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TechSheet - Aortic Endothelial Cell SystemsTechnical information sheet for Clonetics™ Aortic Endothelial Cells
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A Novel In Vitro Liver Cell Culture Flow System Allowing Long-Term Metabolism and Hepatotoxicity Studies]Manuscript published in Applied In Vitro Toxicology journal describes improvement of CYP450 phenotype of primary cryopreserved hepatocytes using Quasi Vivo® System