Automated Equipment Platform

Single-Channel Electroporator

Name: Single-Channel Electroporator
Brand: ELEM Biotech
SKU: LMAE-01
Price: 150000.00 CNY
Availability: InStock

The Single-Channel Electroporator is a state-of-the-art electroporation system designed for efficient delivery of RNP (Ribonucleoprotein) complexes and other nucleic acids into mammalian cells. This system enables precise control of electrical parameters, ensuring high transfection efficiency while maintaining excellent cell viability. Ideal for gene editing projects requiring consistent and reproducible results.

Product Code: LMAE-01

Market Price:¥150,000

Product Overview

Advanced electroporation system designed for precise RNP delivery and electrotransfection processes in gene editing workflows

Applications

•RNP Delivery: Efficient delivery of ribonucleoprotein complexes for CRISPR gene editing
•Precision Control: Programmable voltage, pulse duration, and pulse number for optimal transfection efficiency
•Cell Type Versatility: Compatible with various cell types including primary cells, stem cells, and cell lines
•Automated Workflow: Integrated with liquid handling systems for seamless automation
•Compact Design: Space-saving design suitable for standard laboratory benchtops

Technical Specifications

Dimensions450mm (W) × 500mm (D) × 350mm (H)

Plate Compatibility96-well electroporation plates

Power SupplyAC 100-240V, 50/60Hz

Pulse Duration0.1-99ms, programmable

Pulse Number1-99 pulses per sample

Sample Volume10-200μL per well

Temperature Control4-37°C chamber temperature

ThroughputSingle-channel processing

Voltage Range10-3000V, adjustable in 1V increments

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Customer Success Stories

Real-world applications and results from our customers using Single-Channel Electroporator

CAR-T Cell Engineering for Cancer Immunotherapy

Leading Cell Therapy Biotech•Biotech Company

Cell TherapyCAR-TCRISPRRNP DeliveryCell Therapy

Challenge

Traditional viral transduction methods for CAR-T manufacturing faced high costs, lengthy production cycles, and regulatory complexity. The company needed a non-viral approach to deliver CRISPR RNP complexes for precise TCR knockout while maintaining high cell viability.

Solution

Implemented the Single-Channel Electroporator for RNP-based gene editing in primary T cells. Optimized electroporation parameters (voltage, pulse duration, pulse number) to achieve efficient CRISPR delivery while preserving T cell functionality and proliferation capacity.

Key Results

85%

Editing Efficiency

+30% vs. previous method

92%

Cell Viability

+15% vs. viral transduction

7 days

Production Time

50% reduction

60%

Cost Reduction

vs. viral vectors

The Single-Channel Electroporator transformed our CAR-T manufacturing process. We achieved reproducible high editing efficiency with excellent cell viability, significantly reducing both time and cost compared to viral methods.

Timeline: 3 months (optimization + validation)

Disease Modeling with Gene-Edited iPSCs

Top-tier Research Institute•Research Institute

Basic ResearchiPSCDisease ModelingCRISPRStem Cells

Challenge

Creating isogenic iPSC lines with precise gene modifications for disease modeling required high editing efficiency while maintaining pluripotency. Conventional electroporation systems caused significant cell death and loss of stem cell characteristics.

Solution

Utilized the Single-Channel Electroporator's precise control capabilities to deliver Cas9 RNP complexes into iPSCs. Fine-tuned electrical parameters to balance transfection efficiency with cell viability, followed by single-cell cloning to establish edited lines.

Key Results

78%

Editing Success Rate

+25% vs. standard protocols

95%

Pluripotency Retention

Maintained OCT4/NANOG expression

65%

Clone Recovery

+20% vs. previous system

<2%

Off-target Rate

Verified by whole-genome sequencing

This electroporator enabled us to generate multiple isogenic iPSC lines with disease-relevant mutations in just 6 weeks. The high cell viability and preserved pluripotency were critical for our downstream differentiation experiments.

Timeline: 6 weeks (per line)

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