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The Cell Disruptor effectively solves the cell disruption difficulties caused by cell wall structure and cell number.
1. The cell wall of Gram-positive bacteria is mainly composed of peptidoglycan and acid polysaccharide. The cell walls of various yeasts and fungi are mainly composed of polysaccharides and proteins, and their dense network structure is not easy to break.
2. Some samples are more rare and precious and limited in number or volume.
3. Inappropriate crushing methods may cause genome breakage and affect subsequent experiments.
Specifications | MX-C |
Functions | Disrupts cells, yeast, bacteria, algae, fungi, etc. to prepare cell lysates for further processing |
Mixing motion | High-speed circumferential vortex and oscillation function |
Orbital diameter [mm] | 4 |
Speed range [rpm] | 0-2500 (Adjustable) |
Speed display | Scale |
Capicity | 8x2mL |
Voltage [VAC] | 200-240V/100-120V, 50/60 Hz 60W |
Dimension [mm] | 127x130x160 |
Weight[Kg] | 3.5 |
The Cell Disruptor effectively solves the cell disruption difficulties caused by cell wall structure and cell number.
1. The cell wall of Gram-positive bacteria is mainly composed of peptidoglycan and acid polysaccharide. The cell walls of various yeasts and fungi are mainly composed of polysaccharides and proteins, and their dense network structure is not easy to break.
2. Some samples are more rare and precious and limited in number or volume.
3. Inappropriate crushing methods may cause genome breakage and affect subsequent experiments.
Specifications | MX-C |
Functions | Disrupts cells, yeast, bacteria, algae, fungi, etc. to prepare cell lysates for further processing |
Mixing motion | High-speed circumferential vortex and oscillation function |
Orbital diameter [mm] | 4 |
Speed range [rpm] | 0-2500 (Adjustable) |
Speed display | Scale |
Capicity | 8x2mL |
Voltage [VAC] | 200-240V/100-120V, 50/60 Hz 60W |
Dimension [mm] | 127x130x160 |
Weight[Kg] | 3.5 |