GENIE® Cell Disruptors

Analog and digital models, 120V.

The GENIE® Disruptor series delivers powerful, high-efficiency cell disruption and sample resuspension in a compact, reliable benchtop design. Both the Analog and Digital Disruptor Genie® models use a patented multi-directional agitation system, simultaneously vortexing and mixing samples at high speed to dramatically enhance cell lysis, homogenization, and pellet resuspension, far outperforming traditional single-motion mixers.

Ideal for molecular biology, microbiology, and biochemistry workflows, each unit can hold up to twelve 1.5 mL or 2.0 mL microtubes (snap-top or screw-cap). A magnetic platform securely holds clip plates, and each system includes a pop-off cup for standard single-tube vortexing, providing two instruments in one.

Main Attributes

• Patented multi-directional vortexing for enhanced cell disruption
• Holds twelve 1.5 mL or 2.0 mL microtubes
• Includes pop-off cup for single-tube vortex mixing
• Cost-effective alternative to ultrasonic disruptors
• Compact, durable, and built for continuous lab use

The GENIE® Disruptor series provides unmatched versatility and mixing performance, making it a trusted choice for laboratories seeking fast, efficient, and reproducible sample processing.

Choose Between Two Models

GENIE® Analog Disruptor (83041296)

The Analog Disruptor Genie® offers the same powerful multi-directional vortexing with simple, intuitive controls. This model is perfect for routine laboratory workflows requiring reliable mixing without digital interfaces.

Includes:

• Magnetic platform
• (3) Clip plates for 10-13 mm, 15-17 mm, and 28-30 mm tubes
• (4) Bag mounting strips
• Non-skid tray
• Pop-off cup for single-tube vortexing 

GENIE® Digital Disruptor (83041289)

Offers advanced functionality with:

• Digital speed control
• Digital time control
• Built-in speed alarm

Clip plates are available separately for added configuration flexibility. This model is ideal for labs requiring reproducible, programmable mixing for regulated or precision-based workflows.