MC

a2c8_c4b6

Which one of the following cell disruption techniques correspond to the description 'Shearing forces from spinning blades break cells apart.'.

Freeze-thaw Incorrect French Press Incorrect Mechanical Homogenizer Correct Sonication Incorrect MC

7e06_4372

Which one of the following cell disruption techniques correspond to the description 'Ice crystal expansion leads to cell wall disruption.'.

Freeze-thaw Correct Microfluidizer Incorrect Mortar & Pestle Incorrect Sonication Incorrect MC

a5d5_75e1

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.'.

Bead-beating Correct Mechanical Homogenizer Incorrect Mortar & Pestle Incorrect Sonication Incorrect MC

bcb4_f17c

Which one of the following cell disruption techniques correspond to the description 'High-frequency sound waves cause disruption of cells by shear force and tension.'.

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7e06_198d

Which one of the following cell disruption techniques correspond to the description 'Ice crystal expansion leads to cell wall disruption.'.

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177e_4372

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.'.

Freeze-thaw Incorrect Microfluidizer Correct Mortar & Pestle Incorrect Sonication Incorrect MC

58a5_2dd9

Which one of the following cell disruption techniques correspond to the description 'A high-pressure pump pushes cells through a Z-shaped interaction chamber.'.

Enzymatic Method Incorrect French Press Incorrect Mechanical Homogenizer Incorrect Microfluidizer Correct MC

7946_e6f3

Which one of the following cell disruption techniques correspond to the description 'This technique uses extremely cold temperatures and grinding to pulverize cells.'.

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08ad_4372

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.'.

Freeze-thaw Incorrect Microfluidizer Incorrect Mortar & Pestle Incorrect Sonication Correct MC

b5a9_7170

Which one of the following cell disruption techniques correspond to the description 'Motorized device with rotating blades that shear cells apart.'.

High-throughput Homogenizer Incorrect Mechanical Homogenizer Correct Microfluidizer Incorrect Mortar & Pestle Incorrect MC

7e06_8a53

Which one of the following cell disruption techniques correspond to the description 'Ice crystal expansion leads to cell wall disruption.'.

Enzymatic Method Incorrect Freeze-thaw Correct High-throughput Homogenizer Incorrect Mechanical Homogenizer Incorrect MC

a192_75e1

Which one of the following cell disruption techniques correspond to the description 'This technique uses the forces of ultrasonic waves to rupture cells.'.

Bead-beating Incorrect Mechanical Homogenizer Incorrect Mortar & Pestle Incorrect Sonication Correct MC

b5a9_a60f

Which one of the following cell disruption techniques correspond to the description 'Motorized device with rotating blades that shear cells apart.'.

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0f39_ea75

Which one of the following cell disruption techniques correspond to the description 'Shear force from high-frequency waves disrupts cells.'.

Bead-beating Incorrect Enzymatic Method Incorrect Mechanical Homogenizer Incorrect Sonication Correct MC

58a5_4bff

Which one of the following cell disruption techniques correspond to the description 'A high-pressure pump pushes cells through a Z-shaped interaction chamber.'.

Bead-beating Incorrect Dounce Homogenizer Incorrect Microfluidizer Correct Mortar & Pestle Incorrect MC

35f6_fb13

Which one of the following cell disruption techniques correspond to the description 'Z-shaped chamber and pump create high pressure to disrupt cells.'.

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177e_37be

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.'.

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fb59_9821

Which one of the following cell disruption techniques correspond to the description 'Lysozyme digests gram-positive bacterial cell walls.'.

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a2c8_75e1

Which one of the following cell disruption techniques correspond to the description 'Shearing forces from spinning blades break cells apart.'.

Bead-beating Incorrect Mechanical Homogenizer Correct Mortar & Pestle Incorrect Sonication Incorrect MC

dce5_7a8c

Which one of the following cell disruption techniques correspond to the description 'This technique uses short bursts of ultrasonic waves to disrupt the tissue.'.

Freeze-thaw Incorrect French Press Incorrect High-throughput Homogenizer Incorrect Sonication Correct MC

ad01_c4b6

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.'.

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b84c_ddfa

Which one of the following cell disruption techniques correspond to the description 'High-pressure hydraulic piston forces cells through a small hole.'.

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fb59_9a39

Which one of the following cell disruption techniques correspond to the description 'Lysozyme digests gram-positive bacterial cell walls.'.

Bead-beating Incorrect Enzymatic Method Correct French Press Incorrect Mortar & Pestle Incorrect MC

a192_4efb

Which one of the following cell disruption techniques correspond to the description 'This technique uses the forces of ultrasonic waves to rupture cells.'.

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ada0_6d55

Which one of the following cell disruption techniques correspond to the description 'A spinning handheld device smashes cells in a tube.'.

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e226_1cfc

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.'.

Bead-beating Incorrect Mechanical Homogenizer Incorrect Microfluidizer Incorrect Sonication Correct MC

2dd6_4744

Which one of the following cell disruption techniques correspond to the description 'Cell suspension is forced through a narrow valve using a hydraulic piston.'.

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d7be_67d3

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.'.

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9829_5ee2

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.'.

Dounce Homogenizer Incorrect Freeze-thaw Correct High-throughput Homogenizer Incorrect Sonication Incorrect MC

7e06_5f13

Which one of the following cell disruption techniques correspond to the description 'Ice crystal expansion leads to cell wall disruption.'.

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4a3b_0c1b

Which one of the following cell disruption techniques correspond to the description 'Protein catalysts decompose the microbial cell wall.'.

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fb59_a60f

Which one of the following cell disruption techniques correspond to the description 'Lysozyme digests gram-positive bacterial cell walls.'.

Enzymatic Method Correct Freeze-thaw Incorrect French Press Incorrect Mechanical Homogenizer Incorrect MC

ada5_af5e

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.'.

Freeze-thaw Incorrect High-throughput Homogenizer Incorrect Microfluidizer Incorrect Sonication Correct MC

fb59_4e35

Which one of the following cell disruption techniques correspond to the description 'Lysozyme digests gram-positive bacterial cell walls.'.

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a81a_389e

Which one of the following cell disruption techniques correspond to the description 'Samples are ground by hand to break apart into small pieces.'.

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5370_f17c

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.'.

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0f39_5028

Which one of the following cell disruption techniques correspond to the description 'Shear force from high-frequency waves disrupts cells.'.

High-throughput Homogenizer Incorrect Mechanical Homogenizer Incorrect Microfluidizer Incorrect Sonication Correct MC

0bf5_9fbe

Which one of the following cell disruption techniques correspond to the description 'Cells are pulverized through a combination of extreme cold.'.

Bead-beating Incorrect Freeze-thaw Correct Mechanical Homogenizer Incorrect Sonication Incorrect MC

f1ef_4222

Which one of the following cell disruption techniques correspond to the description 'Handheld device that spins in a tube to smash cells.'.

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9185_22b4

Which one of the following cell disruption techniques correspond to the description 'Ultrasonic waves in short bursts are employed to disintegrate tissue.'.

Bead-beating Incorrect Enzymatic Method Incorrect Mortar & Pestle Incorrect Sonication Correct MC

2dd6_0084

Which one of the following cell disruption techniques correspond to the description 'Cell suspension is forced through a narrow valve using a hydraulic piston.'.

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5370_52cd

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.'.

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cf1a_2b0d

Which one of the following cell disruption techniques correspond to the description 'Manual grinding of cells that can take several minutes."'.

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b852_0746

Which one of the following cell disruption techniques correspond to the description 'Digestion of the cell wall by chemical reactions.'.

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3818_4222

Which one of the following cell disruption techniques correspond to the description 'Cells are smashed using a spinning handheld device in a tube.'.

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3acb_494c

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.'.

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884f_f4c2

Which one of the following cell disruption techniques correspond to the description 'Glass or ceramic particles stirred at high speeds crack cells open.'.

Bead-beating Correct Freeze-thaw Incorrect Mortar & Pestle Incorrect Sonication Incorrect MC

ac1b_db25

Which one of the following cell disruption techniques correspond to the description 'Ultrasonic waves rupture cell walls.'.

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a192_16a5

Which one of the following cell disruption techniques correspond to the description 'This technique uses the forces of ultrasonic waves to rupture cells.'.

Freeze-thaw Incorrect High-throughput Homogenizer Incorrect Mechanical Homogenizer Incorrect Sonication Correct MC

ada0_2c4a

Which one of the following cell disruption techniques correspond to the description 'A spinning handheld device smashes cells in a tube.'.

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9829_3cd7

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.'.

Enzymatic Method Incorrect Freeze-thaw Correct French Press Incorrect Mortar & Pestle Incorrect MC

ac1b_c1a5

Which one of the following cell disruption techniques correspond to the description 'Ultrasonic waves rupture cell walls.'.

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ada0_4397

Which one of the following cell disruption techniques correspond to the description 'A spinning handheld device smashes cells in a tube.'.

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4a3b_2402

Which one of the following cell disruption techniques correspond to the description 'Protein catalysts decompose the microbial cell wall.'.

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5aa3_b7a5

Which one of the following cell disruption techniques correspond to the description 'Spinning rotor blades shear the cell walls.'.

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1ef0_1c68

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.'.

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6f30_83b6

Which one of the following cell disruption techniques correspond to the description 'Chemical reactions digest the cell wall.'.

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b84c_f9b7

Which one of the following cell disruption techniques correspond to the description 'High-pressure hydraulic piston forces cells through a small hole.'.

Bead-beating Incorrect Enzymatic Method Incorrect French Press Correct Microfluidizer Incorrect MC

1ef0_0084

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.'.

Enzymatic Method Incorrect French Press Correct Mortar & Pestle Incorrect Sonication Incorrect MC

ec74_da2b

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.'.

Bead-beating Incorrect Dounce Homogenizer Correct Freeze-thaw Incorrect Microfluidizer Incorrect MC

bcb4_a39c

Which one of the following cell disruption techniques correspond to the description 'High-frequency sound waves cause disruption of cells by shear force and tension.'.

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f83f_5b1a

Which one of the following cell disruption techniques correspond to the description 'Numerous samples are processed simultaneously using a bead-beating machine.'.

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898c_6611

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.'.

French Press Incorrect High-throughput Homogenizer Correct Mechanical Homogenizer Incorrect Mortar & Pestle Incorrect MC

6c0d_9075

Which one of the following cell disruption techniques correspond to the description 'This technique applies high-frequency sound waves to shatter cells.'.

Enzymatic Method Incorrect High-throughput Homogenizer Incorrect Microfluidizer Incorrect Sonication Correct MC

f83f_dfc4

Which one of the following cell disruption techniques correspond to the description 'Numerous samples are processed simultaneously using a bead-beating machine.'.

Freeze-thaw Incorrect High-throughput Homogenizer Correct Mechanical Homogenizer Incorrect Mortar & Pestle Incorrect MC

08ad_23ac

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.'.

Freeze-thaw Incorrect Mechanical Homogenizer Incorrect Mortar & Pestle Incorrect Sonication Correct MC

7ec9_d23e

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.'.

Enzymatic Method Incorrect Freeze-thaw Incorrect Mechanical Homogenizer Correct Mortar & Pestle Incorrect MC

eb62_789c

Which one of the following cell disruption techniques correspond to the description 'Extreme temperature variations cause cell wall rupture.'.

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697d_e77a

Which one of the following cell disruption techniques correspond to the description 'Small glass or ceramic particles are used to crack open cells.'.

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884f_0fce

Which one of the following cell disruption techniques correspond to the description 'Glass or ceramic particles stirred at high speeds crack cells open.'.

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ad01_61bb

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.'.

French Press Correct High-throughput Homogenizer Incorrect Mechanical Homogenizer Incorrect Sonication Incorrect MC

622d_4bff

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.'.

Bead-beating Incorrect Dounce Homogenizer Incorrect Microfluidizer Correct Mortar & Pestle Incorrect MC

eb46_3655

Which one of the following cell disruption techniques correspond to the description 'High pressures are generated using a Z-shaped chamber and a pump.'.

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cf1a_3319

Which one of the following cell disruption techniques correspond to the description 'Manual grinding of cells that can take several minutes."'.

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5697_df55

Which one of the following cell disruption techniques correspond to the description 'Digestive protein catalysts digest and decompose the microbial cell wall.'.

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9185_3655

Which one of the following cell disruption techniques correspond to the description 'Ultrasonic waves in short bursts are employed to disintegrate tissue.'.

Freeze-thaw Incorrect French Press Incorrect Microfluidizer Incorrect Sonication Correct MC

2dd6_db10

Which one of the following cell disruption techniques correspond to the description 'Cell suspension is forced through a narrow valve using a hydraulic piston.'.

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697d_22b4

Which one of the following cell disruption techniques correspond to the description 'Small glass or ceramic particles are used to crack open cells.'.

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eb62_b090

Which one of the following cell disruption techniques correspond to the description 'Extreme temperature variations cause cell wall rupture.'.

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d7be_d23e

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.'.

Enzymatic Method Correct Freeze-thaw Incorrect Mechanical Homogenizer Incorrect Mortar & Pestle Incorrect MC

5370_aa15

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.'.

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7e06_8ca6

Which one of the following cell disruption techniques correspond to the description 'Ice crystal expansion leads to cell wall disruption.'.

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5370_ea75

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.'.

Bead-beating Correct Enzymatic Method Incorrect Mechanical Homogenizer Incorrect Sonication Incorrect MC

f83f_8d50

Which one of the following cell disruption techniques correspond to the description 'Numerous samples are processed simultaneously using a bead-beating machine.'.

High-throughput Homogenizer Correct Mechanical Homogenizer Incorrect Mortar & Pestle Incorrect Sonication Incorrect MC

f83f_a49f

Which one of the following cell disruption techniques correspond to the description 'Numerous samples are processed simultaneously using a bead-beating machine.'.

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da23_da2b

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.'.

Bead-beating Incorrect Dounce Homogenizer Incorrect Freeze-thaw Correct Microfluidizer Incorrect MC

a1a6_1cfc

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.'.

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a192_0084

Which one of the following cell disruption techniques correspond to the description 'This technique uses the forces of ultrasonic waves to rupture cells.'.

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3818_43c1

Which one of the following cell disruption techniques correspond to the description 'Cells are smashed using a spinning handheld device in a tube.'.

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a81a_df55

Which one of the following cell disruption techniques correspond to the description 'Samples are ground by hand to break apart into small pieces.'.

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5fba_4bff

Which one of the following cell disruption techniques correspond to the description 'Grinding of the cells by hand to disrupt the cell walls.'.

Bead-beating Incorrect Dounce Homogenizer Incorrect Microfluidizer Incorrect Mortar & Pestle Correct MC

9185_fb13

Which one of the following cell disruption techniques correspond to the description 'Ultrasonic waves in short bursts are employed to disintegrate tissue.'.

High-throughput Homogenizer Incorrect Microfluidizer Incorrect Mortar & Pestle Incorrect Sonication Correct MC

a5d5_374f

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.'.

Bead-beating Correct Dounce Homogenizer Incorrect Enzymatic Method Incorrect French Press Incorrect MC

90f2_f5f2

Which one of the following cell disruption techniques correspond to the description 'The cells are disrupted by hand grinding them.'.

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177e_a24e

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.'.

Bead-beating Incorrect Dounce Homogenizer Incorrect French Press Incorrect Microfluidizer Correct MC

ac14_8b02

Which one of the following cell disruption techniques correspond to the description 'Drill-like device with spinning rotor blades to shear cells apart.'.

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dce5_8b02

Which one of the following cell disruption techniques correspond to the description 'This technique uses short bursts of ultrasonic waves to disrupt the tissue.'.

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884f_8311

Which one of the following cell disruption techniques correspond to the description 'Glass or ceramic particles stirred at high speeds crack cells open.'.

Bead-beating Correct Dounce Homogenizer Incorrect French Press Incorrect Mechanical Homogenizer Incorrect