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4D-Nucleofector® LV Unit

4D-Nucleofector® LV Unit

Catalog #: AAF-1002L

For closed, scalable large-scale transfection of up to 1x109 cells.

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Product Overview

Large-Scale Transfection Using the 4D-Nucleofector® LV Unit - Experience the latest functional unit for the 4D-Nucleofector® System which expands our proven system to larger-scale transfection.

The LV Unit allows for closed, scalable transfection of larger cell numbers in the range of 1x107 to 1x109 cells. Transfection protocols can be established in smaller scale using the X Unit and subsequently transferred to the LV Unit without the need for re-optimization. Transferability has been tested for various cell types, including human T cells, CHO-S, HEK293-S, or K-562.

Accompanied by GMP grade TheraPEAK® Consumables, a 21CFR part 11 compliant software and IQOQ services the LV Unit is suited to quickly translate research results into a GMP compliant manufacturing process.

There are cell type-specific Optimized Protocols or recommendations available in our knowledge database. In these Optimized Protocols the best Nucleofection conditions are indicated. In addition, we share our experience and knowledge for treatment of individual cell types.

 

Technical Specifications

Dimensions: (w x h x d): 24.5×20.7×28 cm / 9.7×4.1×11.0
Weight: 5.7 kg (12.5 lb)
Power: 100 - 240 VAC
Frequency: 50 - 60 Hz
Consumption: 0 VA (power off) / 20 VA (idle) / 140 VA (busy - during transfection)
Fuse: T 2.5A, L250V
Operating temperature: +15°C up to +40°C (59°F - 104°F)
Environment non condensing voltage limitation: 1500 V
Current limitation: 100 A

 

Quality statement:

We are applying ISO 9001:2015 standards for the design, manufacturing and testing of Nucleofector® Devices since 2004.

* TheraPEAK® Nucleofector® Products are produced according to applicable GMP raw material standards and are intended to support GMP manufacturing. TheraPEAK® Nucleofector® Solutions are manufactured at a GMP certified site. TheraPEAK® Nucleofector® Cartridges and Reservoirs are produced at manufacturing sites with an ISO13485 certified quality management system. TheraPEAK® Nucleofector® Products are not intended for in vivo and/or diagnostic purposes. All other Nucleofector® Products are for research use only.

 

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Benefits

  • Closed system: Sterile Nucleofection of up to 109 cells
  • Real scalability: Optimization in small scale 
  • Established protocols: Benefit from 700+ optimized cell types
  • Simple handling: Minimal training needs
  • 4D-Nucleofector® LogWare: Optional operation via 21CFR part11 compliant software
  • Fit for purpose: Consumables for research use and GMP manufacturing*

Applications

  • Ex-vivo modification of human primary cells for cell therapy applications (e.g. genome editing, generation of CAR-T cells)
  • Transient production of potential therapeutic proteins or antibodies for construct screening
  • Generation of large numbers of transiently modified primary cells for cell-based assays

Storage and Content

1 Unit
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SDS, CoA, and Instructions

Safety Data Sheets (SDS)

SDS not applicable

Certificate of Analysis (CoA)

Please enter Lot Number, including all zeros, located on the product label and please take into account that it is case sensitive.

  • Transfection Protocol (General) - 4D-Nucleofector™ LV Unit

    General instructions of use for transfection with the 4D-Nucleofector™ LV Unit
  • Important Vector Factors for Gene Expression – Technical Reference Guide

    In this guideline, we show the most important aspects to be considered when choosing an expression vector and their impact on your experimental results.
  • Nucleofector® Technology Brochure

    Stretching Transfection Dimensions
  • 4D-Nucleofector® Manual

    Comprises instructions for all units (Core, X, Y and LV Unit).
  • 4D-Nucleofector® Hardware Manual

    Manual for next generation 4D-Nucleofector Core, X, Y, 96-well, and LV Unit Vers.1
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Educational Material

Brochures, White Papers etc.

Videos

  • Important Vector Factors for Gene Expression – Technical Reference Guide

    In this guideline, we show the most important aspects to be considered when choosing an expression vector and their impact on your experimental results.
  • An Innovative, Highly Efficient Method for Transfecting Large Quantities of Primary Human T-cells

    A strong need exists for improved cancer treatment options. Lonza's approach relies on genetically modified, patient-derived cells like T-cells or natural killer cells which express chimeric antigen receptors (CAR) targeting cancer cells.
  • A Non-Viral Method for Modifying and Expanding Primary T Cells

    Learn how Lonza’s Cocoon® Platform, 4D-Nucleofector® LV Unit and X-VIVO® 15 Medium are integrated to enable non-viral genetic modification and subsequent expansion of primary T cells in a functionally-closed, automated workflow.
  • 4D-Nucleofector® LV Unit for Large-scale Transfection

    Efficient, closed and scalable transfection for ex vivo cell and gene therapy applications
  • 4D-Nucleofector® Hardware Manual

    Manual for next generation 4D-Nucleofector Core, X, Y, 96-well, and LV Unit Vers.1
  • Large-volume Non-viral Genetic Modification in Cell and Gene Therapy

    Discover this white paper and learn how researchers are using the 4D-Nucleofector® LV Unit in cell and gene therapy development and manufacturing.
  • 4D-Nucleofector® LV Unit for Cell and Gene Therapy Applications – Benefits and How it Works

    From this video learn how it works and its benefits for cell and gene therapy manufacturing.
  • 4D-Nucleofector® Platform - The Story Of

    See how breakthrough Nucleofector® Technology innovations in transfection and electroporation culminate in the next generation 4D-Nucleofector® System.
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Data

Lonza GS Xceed™ Cells transfected in small or larger scale show comparable IgG4 titers

For a human IgG4 antibody, similar titers of about 100 µg/mL were achieved in small scale (100 µl) and large scale transfections (1 ml fixed cartridge or 10 mL in flow through LV cartridge) in a 6-day batch culture without any feeds. IgG titers were increased by factor 2.5 when using higher seeding densities (not shown here). Switching to a 14-day fed-batch culture led to titers > 1 mg/mL (not shown here).

Data

Transfection of GFP mRNA into PBMCs

Fresh PBMCs (1x10⁸/mL) were transfected with GFP mRNA (20 µg/mL) using different Nucleofection® Vessels. For the fixed volume vessels (100 µL Nucleocuvette® Vessel and 1 mL Nucleocuvette® Cartridge), cells and mRNA for each sample were mixed separately, pipetted into the vessel and pulsed immediately. For the flow-through LV Nucleocuvette® Cartridge two feeding reservoirs were used to keep cells and mRNA separate as long as possible. Data are based on duplicates (experiment 1) or unicates (experiment 2).

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Non-viral Methods for Ex Vivo Cell and Gene Therapy: Is the Future
Non-viral?

Podcast

Listen in as our experts discuss the types and benefits of non-viral methods for ex vivo cell and gene therapy as well as the readiness of electroporation-based technologies for use in GMP manufacturing.

GMP transfection solutions for
cell and gene therapy

TheraPEAK® Nucleofector® Products for the 4D-Nucleofector® LV Unit help you expedite translating your non-viral gene modification step into a GMP process.

Demo Request

4D-Nucleofector® LV Unit

Are you interested in seeing our closed system for large-volume Nucleofection in your lab and how it performs for your cells? One of our transfection specialists can come to your lab and perform a transfection experiment with your cell type of interest.