009f
Which one of the following cell disruption techniques correspond to the description 'This technique uses short bursts of ultrasonic waves to disrupt the tissue.'.
A. Dounce Homogenizer Incorrect B. Enzymatic Method Incorrect C. Mortar & Pestle Incorrect D. Sonication Correct MC046a
Which one of the following cell disruption techniques correspond to the description 'An expensive bead-beating machine can process a large number of samples simultaneously in a short time.'.
A. French Press Incorrect B. High-throughput Homogenizer Correct C. Mortar & Pestle Incorrect D. Sonication Incorrect MC049e
Which one of the following cell disruption techniques correspond to the description 'Grinding of the cells by hand to disrupt the cell walls.'.
A. Freeze-thaw Incorrect B. Microfluidizer Incorrect C. Mortar & Pestle Correct D. Sonication Incorrect MC082d
Which one of the following cell disruption techniques correspond to the description 'An expensive bead-beating machine can process a large number of samples simultaneously in a short time.'.
A. Freeze-thaw Incorrect B. High-throughput Homogenizer Correct C. Microfluidizer Incorrect D. Sonication Incorrect MC0af2
Which one of the following cell disruption techniques correspond to the description 'Motorized device with rotating blades that shear cells apart.'.
A. Bead-beating Incorrect B. Enzymatic Method Incorrect C. Mechanical Homogenizer Correct D. Sonication Incorrect MC0f03
Which one of the following cell disruption techniques correspond to the description 'Tiny glass particles are mixed and stirred to a high level of agitation.'.
A. Bead-beating Correct B. Enzymatic Method Incorrect C. Mechanical Homogenizer Incorrect D. Mortar & Pestle Incorrect MC1152
Which one of the following cell disruption techniques correspond to the description 'Cells wall digestion by protein catalysts.'.
A. Enzymatic Method Correct B. Freeze-thaw Incorrect C. French Press Incorrect D. High-throughput Homogenizer Incorrect MC126a
Which one of the following cell disruption techniques correspond to the description 'Cells are pulverized through a combination of extreme cold.'.
A. Bead-beating Incorrect B. Freeze-thaw Correct C. French Press Incorrect D. Microfluidizer Incorrect MC1551
Which one of the following cell disruption techniques correspond to the description 'High-frequency sound waves produce tiny bubbles that explode, producing a local shockwave.'.
A. Bead-beating Incorrect B. French Press Incorrect C. Mortar & Pestle Incorrect D. Sonication Correct MC163a
Which one of the following cell disruption techniques correspond to the description 'Small glass particles are placed into a blender and act like bullets smashing the cells.'.
A. Bead-beating Correct B. French Press Incorrect C. Mechanical Homogenizer Incorrect D. Mortar & Pestle Incorrect MC18bd
Which one of the following cell disruption techniques correspond to the description 'Large numbers of samples are disrupted simultaneously using a bead-beating machine.'.
A. French Press Incorrect B. High-throughput Homogenizer Correct C. Microfluidizer Incorrect D. Mortar & Pestle Incorrect MC1ce0
Which one of the following cell disruption techniques correspond to the description 'A hydraulic press drives a piston to squeeze the sample through a needle valve.'.
A. Bead-beating Incorrect B. Dounce Homogenizer Incorrect C. French Press Correct D. Sonication Incorrect MC1f2e
Which one of the following cell disruption techniques correspond to the description 'Handheld device that spins in a tube to smash cells.'.
A. Bead-beating Incorrect B. Dounce Homogenizer Correct C. Enzymatic Method Incorrect D. Microfluidizer Incorrect MC22c2
Which one of the following cell disruption techniques correspond to the description 'Manual grinding of cells that can take several minutes."'.
A. Dounce Homogenizer Incorrect B. Freeze-thaw Incorrect C. Microfluidizer Incorrect D. Mortar & Pestle Correct MC2540
Which one of the following cell disruption techniques correspond to the description 'Cells are suspended in buffers containing protein catalysts that digest the cell wall.'.
A. Enzymatic Method Correct B. French Press Incorrect C. High-throughput Homogenizer Incorrect D. Mechanical Homogenizer Incorrect MC276e
Which one of the following cell disruption techniques correspond to the description 'High-frequency sound waves produce tiny bubbles that explode, producing a local shockwave.'.
A. Freeze-thaw Incorrect B. Mechanical Homogenizer Incorrect C. Mortar & Pestle Incorrect D. Sonication Correct MC27d2
Which one of the following cell disruption techniques correspond to the description 'Shearing forces from spinning blades break cells apart.'.
A. Enzymatic Method Incorrect B. Freeze-thaw Incorrect C. Mechanical Homogenizer Correct D. Sonication Incorrect MC2b13
Which one of the following cell disruption techniques correspond to the description 'Ice crystal expansion leads to cell wall disruption.'.
A. Bead-beating Incorrect B. Enzymatic Method Incorrect C. Freeze-thaw Correct D. Mechanical Homogenizer Incorrect MC2ba8
Which one of the following cell disruption techniques correspond to the description 'Lysozyme is commonly used to digest the cell wall of gram-positive bacteria.'.
A. Enzymatic Method Correct B. Freeze-thaw Incorrect C. Mortar & Pestle Incorrect D. Sonication Incorrect MC3102
Which one of the following cell disruption techniques correspond to the description 'Extreme temperature variations cause cell wall rupture.'.
A. Freeze-thaw Correct B. High-throughput Homogenizer Incorrect C. Microfluidizer Incorrect D. Mortar & Pestle Incorrect MC3456
Which one of the following cell disruption techniques correspond to the description 'Consists of a fast-spinning inner rotor with a stationary outer stator to produce shearing forces.'.
A. Bead-beating Incorrect B. Enzymatic Method Incorrect C. Mechanical Homogenizer Correct D. Microfluidizer Incorrect MC38ba
Which one of the following cell disruption techniques correspond to the description 'Manual grinding of cells that can take several minutes."'.
A. Dounce Homogenizer Incorrect B. High-throughput Homogenizer Incorrect C. Microfluidizer Incorrect D. Mortar & Pestle Correct MC3a4e
Which one of the following cell disruption techniques correspond to the description 'Protein catalysts decompose the microbial cell wall.'.
A. Enzymatic Method Correct B. Mechanical Homogenizer Incorrect C. Mortar & Pestle Incorrect D. Sonication Incorrect MC3c90
Which one of the following cell disruption techniques correspond to the description 'Extreme temperature variations cause cell wall rupture.'.
A. Bead-beating Incorrect B. Freeze-thaw Correct C. Mortar & Pestle Incorrect D. Sonication Incorrect MC404a
Which one of the following cell disruption techniques correspond to the description 'Glass or ceramic particles stirred at high speeds crack cells open.'.
A. Bead-beating Correct B. Enzymatic Method Incorrect C. French Press Incorrect D. Microfluidizer Incorrect MC431a
Which one of the following cell disruption techniques correspond to the description 'The cell walls rupture due to extreme temperature variations.'.
A. Freeze-thaw Correct B. Mechanical Homogenizer Incorrect C. Mortar & Pestle Incorrect D. Sonication Incorrect MC431a
Which one of the following cell disruption techniques correspond to the description 'The cell walls rupture due to extreme temperature variations.'.
A. Freeze-thaw Correct B. Mechanical Homogenizer Incorrect C. Mortar & Pestle Incorrect D. Sonication Incorrect MC463f
Which one of the following cell disruption techniques correspond to the description 'Numerous samples are processed simultaneously using a bead-beating machine.'.
A. Enzymatic Method Incorrect B. French Press Incorrect C. High-throughput Homogenizer Correct D. Sonication Incorrect MC485f
Which one of the following cell disruption techniques correspond to the description 'An expensive bead-beating machine can process a large number of samples simultaneously in a short time.'.
A. Dounce Homogenizer Incorrect B. French Press Incorrect C. High-throughput Homogenizer Correct D. Microfluidizer Incorrect MC4a00
Which one of the following cell disruption techniques correspond to the description 'Extreme temperature variations cause cell wall rupture.'.
A. Dounce Homogenizer Incorrect B. Freeze-thaw Correct C. French Press Incorrect D. High-throughput Homogenizer Incorrect MC4eaa
Which one of the following cell disruption techniques correspond to the description 'The cells are disrupted by hand grinding them.'.
A. Bead-beating Incorrect B. Microfluidizer Incorrect C. Mortar & Pestle Correct D. Sonication Incorrect MC51be
Which one of the following cell disruption techniques correspond to the description 'Cold temperatures form ice crystals, which expand, ultimately causing the cell wall to rupture.'.
A. Freeze-thaw Correct B. High-throughput Homogenizer Incorrect C. Mechanical Homogenizer Incorrect D. Microfluidizer Incorrect MC52fe
Which one of the following cell disruption techniques correspond to the description 'Gentle abrasion is applied to cells through vortexing with glass or metal particles.'.
A. Bead-beating Correct B. French Press Incorrect C. Mortar & Pestle Incorrect D. Sonication Incorrect MC589d
Which one of the following cell disruption techniques correspond to the description 'Small glass particles are placed into a blender and act like bullets smashing the cells.'.
A. Bead-beating Correct B. Freeze-thaw Incorrect C. French Press Incorrect D. Mechanical Homogenizer Incorrect MC5f1f
Which one of the following cell disruption techniques correspond to the description 'Handheld device that spins in a tube to smash cells.'.
A. Bead-beating Incorrect B. Dounce Homogenizer Correct C. Mechanical Homogenizer Incorrect D. Sonication Incorrect MC6338
Which one of the following cell disruption techniques correspond to the description 'Cold temperatures form ice crystals, which expand, ultimately causing the cell wall to rupture.'.
A. Enzymatic Method Incorrect B. Freeze-thaw Correct C. French Press Incorrect D. Microfluidizer Incorrect MC6714
Which one of the following cell disruption techniques correspond to the description 'Grinding of the cells by hand to disrupt the cell walls.'.
A. Dounce Homogenizer Incorrect B. Freeze-thaw Incorrect C. Microfluidizer Incorrect D. Mortar & Pestle Correct MC6758
Which one of the following cell disruption techniques correspond to the description 'Drill-like device with spinning rotor blades to shear cells apart.'.
A. Dounce Homogenizer Incorrect B. Freeze-thaw Incorrect C. Mechanical Homogenizer Correct D. Mortar & Pestle Incorrect MC72e0
Which one of the following cell disruption techniques correspond to the description 'Spinning rotor blades shear the cell walls.'.
A. French Press Incorrect B. High-throughput Homogenizer Incorrect C. Mechanical Homogenizer Correct D. Sonication Incorrect MC73de
Which one of the following cell disruption techniques correspond to the description 'Cells are suspended in buffers containing protein catalysts that digest the cell wall.'.
A. Enzymatic Method Correct B. French Press Incorrect C. High-throughput Homogenizer Incorrect D. Sonication Incorrect MC77f0
Which one of the following cell disruption techniques correspond to the description 'High-frequency sound waves produce tiny bubbles that explode, producing a local shockwave.'.
A. Dounce Homogenizer Incorrect B. Freeze-thaw Incorrect C. French Press Incorrect D. Sonication Correct MC788f
Which one of the following cell disruption techniques correspond to the description 'A Z-shaped interaction chamber and pump work in tandem to exert high pressures on cells.'.
A. Bead-beating Incorrect B. Enzymatic Method Incorrect C. Freeze-thaw Incorrect D. Microfluidizer Correct MC78af
Which one of the following cell disruption techniques correspond to the description 'Samples are ground by hand to break apart into small pieces.'.
A. Bead-beating Incorrect B. Enzymatic Method Incorrect C. Freeze-thaw Incorrect D. Mortar & Pestle Correct MC79ca
Which one of the following cell disruption techniques correspond to the description 'Cells are suspended in buffers containing protein catalysts that digest the cell wall.'.
A. Enzymatic Method Correct B. Freeze-thaw Incorrect C. Microfluidizer Incorrect D. Sonication Incorrect MC7c90
Which one of the following cell disruption techniques correspond to the description 'This technique uses short bursts of ultrasonic waves to disrupt the tissue.'.
A. Dounce Homogenizer Incorrect B. High-throughput Homogenizer Incorrect C. Mechanical Homogenizer Incorrect D. Sonication Correct MC7d1b
Which one of the following cell disruption techniques correspond to the description 'Ultrasonic waves rupture cell walls.'.
A. Bead-beating Incorrect B. Microfluidizer Incorrect C. Mortar & Pestle Incorrect D. Sonication Correct MC7d5a
Which one of the following cell disruption techniques correspond to the description 'Uses a pump and a Z-shaped interaction chamber to create high pressures.'.
A. Enzymatic Method Incorrect B. Freeze-thaw Incorrect C. Microfluidizer Correct D. Sonication Incorrect MC8055
Which one of the following cell disruption techniques correspond to the description 'Cells are pulverized through a combination of extreme cold.'.
A. Dounce Homogenizer Incorrect B. Freeze-thaw Correct C. Mechanical Homogenizer Incorrect D. Sonication Incorrect MC823c
Which one of the following cell disruption techniques correspond to the description 'Lysozyme digests gram-positive bacterial cell walls.'.
A. Bead-beating Incorrect B. Enzymatic Method Correct C. French Press Incorrect D. Microfluidizer Incorrect MC83db
Which one of the following cell disruption techniques correspond to the description 'A spinning handheld device smashes cells in a tube.'.
A. Dounce Homogenizer Correct B. Freeze-thaw Incorrect C. High-throughput Homogenizer Incorrect D. Mechanical Homogenizer Incorrect MC8504
Which one of the following cell disruption techniques correspond to the description 'This technique involves using glass or metal particles to apply gentle abrasion while vortexing them.'.
A. Bead-beating Correct B. French Press Incorrect C. Mechanical Homogenizer Incorrect D. Sonication Incorrect MC866b
Which one of the following cell disruption techniques correspond to the description 'Lysozyme is commonly used to digest the cell wall of gram-positive bacteria.'.
A. Dounce Homogenizer Incorrect B. Enzymatic Method Correct C. French Press Incorrect D. Mechanical Homogenizer Incorrect MC88cc
Which one of the following cell disruption techniques correspond to the description 'Motorized device with rotating blades that shear cells apart.'.
A. Bead-beating Incorrect B. French Press Incorrect C. Mechanical Homogenizer Correct D. Microfluidizer Incorrect MC8985
Which one of the following cell disruption techniques correspond to the description 'High pressures are generated using a Z-shaped chamber and a pump.'.
A. Enzymatic Method Incorrect B. Microfluidizer Correct C. Mortar & Pestle Incorrect D. Sonication Incorrect MC8c55
Which one of the following cell disruption techniques correspond to the description 'This technique applies high-frequency sound waves to shatter cells.'.
A. French Press Incorrect B. High-throughput Homogenizer Incorrect C. Mechanical Homogenizer Incorrect D. Sonication Correct MC8d69
Which one of the following cell disruption techniques correspond to the description 'Handheld device that spins in a tube to smash cells.'.
A. Bead-beating Incorrect B. Dounce Homogenizer Correct C. Enzymatic Method Incorrect D. French Press Incorrect MC8d94
Which one of the following cell disruption techniques correspond to the description 'Samples are ground by hand to break apart into small pieces.'.
A. Dounce Homogenizer Incorrect B. Enzymatic Method Incorrect C. Mortar & Pestle Correct D. Sonication Incorrect MC90af
Which one of the following cell disruption techniques correspond to the description 'Consists of a fast-spinning inner rotor with a stationary outer stator to produce shearing forces.'.
A. Bead-beating Incorrect B. Enzymatic Method Incorrect C. Freeze-thaw Incorrect D. Mechanical Homogenizer Correct MC910b
Which one of the following cell disruption techniques correspond to the description 'Shear force from high-frequency waves disrupts cells.'.
A. Bead-beating Incorrect B. Enzymatic Method Incorrect C. Freeze-thaw Incorrect D. Sonication Correct MC91bc
Which one of the following cell disruption techniques correspond to the description 'This technique applies high-frequency sound waves to shatter cells.'.
A. Mechanical Homogenizer Incorrect B. Microfluidizer Incorrect C. Mortar & Pestle Incorrect D. Sonication Correct MC9616
Which one of the following cell disruption techniques correspond to the description 'Cold temperatures form ice crystals, which expand, ultimately causing the cell wall to rupture.'.
A. Dounce Homogenizer Incorrect B. Freeze-thaw Correct C. High-throughput Homogenizer Incorrect D. Mechanical Homogenizer Incorrect MC96d8
Which one of the following cell disruption techniques correspond to the description 'Digestive protein catalysts digest and decompose the microbial cell wall.'.
A. Bead-beating Incorrect B. Enzymatic Method Correct C. French Press Incorrect D. Mechanical Homogenizer Incorrect MC9ab4
Which one of the following cell disruption techniques correspond to the description 'Glass or ceramic particles stirred at high speeds crack cells open.'.
A. Bead-beating Correct B. Dounce Homogenizer Incorrect C. Mechanical Homogenizer Incorrect D. Microfluidizer Incorrect MC9abe
Which one of the following cell disruption techniques correspond to the description 'A hydraulic press drives a piston to squeeze the sample through a needle valve.'.
A. Enzymatic Method Incorrect B. Freeze-thaw Incorrect C. French Press Correct D. Microfluidizer Incorrect MC9d61
Which one of the following cell disruption techniques correspond to the description 'High-pressure hydraulic piston forces cells through a small hole.'.
A. Enzymatic Method Incorrect B. Freeze-thaw Incorrect C. French Press Correct D. Mechanical Homogenizer Incorrect MCa3c2
Which one of the following cell disruption techniques correspond to the description 'Handheld device that spins in a tube to smash cells.'.
A. Dounce Homogenizer Correct B. French Press Incorrect C. High-throughput Homogenizer Incorrect D. Sonication Incorrect MCa5e5
Which one of the following cell disruption techniques correspond to the description 'Cells are smashed using a spinning handheld device in a tube.'.
A. Dounce Homogenizer Correct B. Freeze-thaw Incorrect C. French Press Incorrect D. Sonication Incorrect MCa699
Which one of the following cell disruption techniques correspond to the description 'Cells are pushed through a small hole using high pressure from a hydraulic piston.'.
A. Bead-beating Incorrect B. Enzymatic Method Incorrect C. Freeze-thaw Incorrect D. French Press Correct MCab3c
Which one of the following cell disruption techniques correspond to the description 'Shear force from high-frequency waves disrupts cells.'.
A. Bead-beating Incorrect B. Freeze-thaw Incorrect C. Mortar & Pestle Incorrect D. Sonication Correct MCac2f
Which one of the following cell disruption techniques correspond to the description 'Lysozyme digests gram-positive bacterial cell walls.'.
A. Enzymatic Method Correct B. French Press Incorrect C. High-throughput Homogenizer Incorrect D. Microfluidizer Incorrect MCadef
Which one of the following cell disruption techniques correspond to the description 'Ice crystal expansion leads to cell wall disruption.'.
A. Dounce Homogenizer Incorrect B. Freeze-thaw Correct C. French Press Incorrect D. Mortar & Pestle Incorrect MCb2f8
Which one of the following cell disruption techniques correspond to the description 'A hydraulic piston within a cylinder forces cells through a small hole using high pressure.'.
A. Bead-beating Incorrect B. Freeze-thaw Incorrect C. French Press Correct D. Mechanical Homogenizer Incorrect MCb9c5
Which one of the following cell disruption techniques correspond to the description 'Z-shaped chamber and pump create high pressure to disrupt cells.'.
A. French Press Incorrect B. High-throughput Homogenizer Incorrect C. Microfluidizer Correct D. Sonication Incorrect MCbf5a
Which one of the following cell disruption techniques correspond to the description 'Small glass particles are placed into a blender and act like bullets smashing the cells.'.
A. Bead-beating Correct B. Freeze-thaw Incorrect C. Microfluidizer Incorrect D. Mortar & Pestle Incorrect MCc062
Which one of the following cell disruption techniques correspond to the description 'Samples are ground by hand to break apart into small pieces.'.
A. Enzymatic Method Incorrect B. French Press Incorrect C. Mechanical Homogenizer Incorrect D. Mortar & Pestle Correct MCc571
Which one of the following cell disruption techniques correspond to the description 'Cells are smashed using a spinning handheld device in a tube.'.
A. Bead-beating Incorrect B. Dounce Homogenizer Correct C. Enzymatic Method Incorrect D. Mortar & Pestle Incorrect MCcd6c
Which one of the following cell disruption techniques correspond to the description 'Under cold temperatures, the water inside the cells expands into ice, causing the cells to burst open.'.
A. Bead-beating Incorrect B. Enzymatic Method Incorrect C. Freeze-thaw Correct D. Mechanical Homogenizer Incorrect MCd029
Which one of the following cell disruption techniques correspond to the description 'Cells are disrupted by the shear force and tension caused by high-frequency sound waves.'.
A. Enzymatic Method Incorrect B. Freeze-thaw Incorrect C. High-throughput Homogenizer Incorrect D. Sonication Correct MCd056
Which one of the following cell disruption techniques correspond to the description 'Cells are pushed through a small hole using high pressure from a hydraulic piston.'.
A. Dounce Homogenizer Incorrect B. French Press Correct C. Mechanical Homogenizer Incorrect D. Mortar & Pestle Incorrect MCd144
Which one of the following cell disruption techniques correspond to the description 'A Z-shaped interaction chamber and pump work in tandem to exert high pressures on cells.'.
A. Enzymatic Method Incorrect B. Mechanical Homogenizer Incorrect C. Microfluidizer Correct D. Sonication Incorrect MCd324
Which one of the following cell disruption techniques correspond to the description 'Z-shaped chamber and pump create high pressure to disrupt cells.'.
A. Freeze-thaw Incorrect B. Mechanical Homogenizer Incorrect C. Microfluidizer Correct D. Sonication Incorrect MCd327
Which one of the following cell disruption techniques correspond to the description 'Cells are smashed using a spinning handheld device in a tube.'.
A. Bead-beating Incorrect B. Dounce Homogenizer Correct C. Freeze-thaw Incorrect D. Sonication Incorrect MCd327
Which one of the following cell disruption techniques correspond to the description 'Cells are smashed using a spinning handheld device in a tube.'.
A. Bead-beating Incorrect B. Dounce Homogenizer Correct C. Freeze-thaw Incorrect D. Sonication Incorrect MCd3f6
Which one of the following cell disruption techniques correspond to the description 'Gentle abrasion is applied to cells through vortexing with glass or metal particles.'.
A. Bead-beating Correct B. Dounce Homogenizer Incorrect C. Freeze-thaw Incorrect D. Microfluidizer Incorrect MCd4b6
Which one of the following cell disruption techniques correspond to the description 'This technique uses the forces of ultrasonic waves to rupture cells.'.
A. Enzymatic Method Incorrect B. French Press Incorrect C. Mortar & Pestle Incorrect D. Sonication Correct MCd99d
Which one of the following cell disruption techniques correspond to the description 'Cells are pushed through a Z-shaped chamber using a high-pressure pump.'.
A. Freeze-thaw Incorrect B. Mechanical Homogenizer Incorrect C. Microfluidizer Correct D. Sonication Incorrect MCd9e4
Which one of the following cell disruption techniques correspond to the description 'A high-pressure pump pushes cells through a Z-shaped interaction chamber.'.
A. French Press Incorrect B. High-throughput Homogenizer Incorrect C. Microfluidizer Correct D. Mortar & Pestle Incorrect MCd9f4
Which one of the following cell disruption techniques correspond to the description 'Handheld cylindrical glass tube and a spinning pestle that has a tight fit within the shaft.'.
A. Dounce Homogenizer Correct B. French Press Incorrect C. Mechanical Homogenizer Incorrect D. Sonication Incorrect MCdd21
Which one of the following cell disruption techniques correspond to the description 'Cells are forced through a tiny hole by a high-pressure hydraulic piston.'.
A. Dounce Homogenizer Incorrect B. Freeze-thaw Incorrect C. French Press Correct D. Mechanical Homogenizer Incorrect MCdeca
Which one of the following cell disruption techniques correspond to the description 'Uses a pump and a Z-shaped interaction chamber to create high pressures.'.
A. Freeze-thaw Incorrect B. French Press Incorrect C. Microfluidizer Correct D. Sonication Incorrect MCdfe1
Which one of the following cell disruption techniques correspond to the description 'Cells are forced through a tiny hole by a high-pressure hydraulic piston.'.
A. Bead-beating Incorrect B. French Press Correct C. Mortar & Pestle Incorrect D. Sonication Incorrect MCe6f8
Which one of the following cell disruption techniques correspond to the description 'Shear force from high-frequency waves disrupts cells.'.
A. Enzymatic Method Incorrect B. Freeze-thaw Incorrect C. French Press Incorrect D. Sonication Correct MCe77c
Which one of the following cell disruption techniques correspond to the description 'Ultrasonic sound energy is used to cause air bubbles in a liquid to implode, damaging the cells.'.
A. Bead-beating Incorrect B. French Press Incorrect C. Mechanical Homogenizer Incorrect D. Sonication Correct MCf590
Which one of the following cell disruption techniques correspond to the description 'Cells wall digestion by protein catalysts.'.
A. Dounce Homogenizer Incorrect B. Enzymatic Method Correct C. High-throughput Homogenizer Incorrect D. Sonication Incorrect MCf69e
Which one of the following cell disruption techniques correspond to the description 'Gentle abrasion is applied to cells through vortexing with glass or metal particles.'.
A. Bead-beating Correct B. Mechanical Homogenizer Incorrect C. Mortar & Pestle Incorrect D. Sonication Incorrect MCf6af
Which one of the following cell disruption techniques correspond to the description 'Consists of a fast-spinning inner rotor with a stationary outer stator to produce shearing forces.'.
A. French Press Incorrect B. High-throughput Homogenizer Incorrect C. Mechanical Homogenizer Correct D. Microfluidizer Incorrect MCfc55
Which one of the following cell disruption techniques correspond to the description 'Cells are pushed through a small hole using high pressure from a hydraulic piston.'.
A. Enzymatic Method Incorrect B. French Press Correct C. High-throughput Homogenizer Incorrect D. Microfluidizer Incorrect MCfd57
Which one of the following cell disruption techniques correspond to the description 'This is laborious manual work that can take several minutes.'.
A. Enzymatic Method Incorrect B. French Press Incorrect C. Microfluidizer Incorrect D. Mortar & Pestle Correct MCff2a
Which one of the following cell disruption techniques correspond to the description 'Cells are disrupted by the shear force and tension caused by high-frequency sound waves.'.
A. Dounce Homogenizer Incorrect B. Freeze-thaw Incorrect C. Mortar & Pestle Incorrect D. Sonication Correct