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R-50×8™

Catalogue No.

R-50×8™
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  • Graph Details

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MaxCyte

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Catalogue No.

R-50×8™

R-50×8™

Small-scale RUO Processing Assemblies
Static electroporation processing assemblies for research applications in small volume scales with both single-well and multi-well options.

Research Use Only (RUO) Processing assemblies aid the discovery and development of applications at small scales. These static electroporation consumables are made from high-grade, inert materials to protect precious cells with additional design features for easy sample loading and recovery.

R-50×8™

  • 8-wells for increased throughput; lower cost per transfection
  • U-shaped well design for efficient cell loading and recovery
  • Sample tracking with A-H lettering and front writing space

Configuration: 8-well, 55 µL maximum volume per well
Cell Range: 2.25×105– 1.1×107 per well
Volume Range: 45 – 55 µL per well
Application: Research Use Only
Catalog: ER050U8-03

Compatible with ATx™ and STx™

Download Catalogue
Request a Quote
  • Description
  • Graph Details
Description icon

Small-scale RUO Processing Assemblies
Static electroporation processing assemblies for research applications in small volume scales with both single-well and multi-well options.

Research Use Only (RUO) Processing assemblies aid the discovery and development of applications at small scales. These static electroporation consumables are made from high-grade, inert materials to protect precious cells with additional design features for easy sample loading and recovery.

R-50×8™

  • 8-wells for increased throughput; lower cost per transfection
  • U-shaped well design for efficient cell loading and recovery
  • Sample tracking with A-H lettering and front writing space

Configuration: 8-well, 55 µL maximum volume per well
Cell Range: 2.25×105– 1.1×107 per well
Volume Range: 45 – 55 µL per well
Application: Research Use Only
Catalog: ER050U8-03

Compatible with ATx™ and STx™

Graph Details icon

R-50x8-Viability-Data@2x

Graph Details: K562 cells at 5×107 cells/mL were electroporated with plasmid DNA encoding GFP at low energy (Opt-1) and high energy (Opt-10). Four R-50×8 PAs and eight OC-100 PAs were evaluated at each energy level for both GFP expression and cell viability 48 hours post-transfection via flow cytometry analysis. Results are an average of 16 wells for the R-50×8 and 8 wells for the OC-100 for each energy level.

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