Rate Zonal Centrifugation: Difference between revisions
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== Preparing the Gradients == | == Preparing the Gradients == | ||
To harvest polysomes, use a 10-40% sucrose gradient.<br> | To harvest polysomes, use a 10-40% sucrose gradient.<br> | ||
Each sucrose solution is prepared with HT-10 | Each sucrose solution is prepared with HT-10 (20 mM Hepes-Tris, 100 mM K-Glutamate, 10.5 mM MgOAc, 0.1 mM EDTA, pH = 7.4 @ 4C).<br> | ||
<br> | <br> | ||
(1) Weigh out the appropriate amount of sucrose to make your gradients (plan for an excess of 2-3 mLs to rinse the syringe).<br> | (1) Weigh out the appropriate amount of sucrose to make your gradients (plan for an excess of 2-3 mLs to rinse the syringe).<br> | ||
(2) Use Beckman Polyallomer 14 x 89 mm (9/16 x 3 ½) tubes (opaque/ thin).<br> | (2) Use Beckman Polyallomer 14 x 89 mm (9/16 x 3 ½) tubes (opaque/ thin) if you plan on fractioning from the bottom. Use Seton tubes if you're fractioning from the top (Gradient Station)<br> | ||
* | *Use the marking tool to indicate the fill line when dispensing the 10% sucrose. The lower platform is for the long caps and the higher platform is for the short caps.<br> | ||
*Gradients should be prepared in the cold room for immediate use. (This includes dissolution of the sucrose in HT-10) | |||
(3) Rinse the 10 ml syringe/ medium sized cannula (20#) with di H2O and subsequently, the 10% sucrose solution.<br> | (3) Rinse the 10 ml syringe/ medium sized cannula (20#) with di H2O and subsequently, the 10% sucrose solution.<br> | ||
(4) Aspirate ~6 mLs of 10% sucrose.<br> | (4) Aspirate ~6 mLs of 10% sucrose.<br> | ||
(5) | (5) Dispense the 10% into the bottom of the Polyallomer tube to the fill line.<br> | ||
*Rinse the syringe with 40% sucrose before the next step.<br> | *Rinse the syringe with 40% sucrose before the next step.<br> | ||
( | (6) Slowly dispense the 40% sucrose solution below the 10% solution until the 10% layer reaches the top of the tube. <br> | ||
*While dispensing, be sure to keep the tip of the cannula just blow the 10% layer so that it displaces the smallest volume possible. | *While dispensing, be sure to keep the tip of the cannula just blow the 10% layer so that it displaces the smallest volume possible. | ||
*Following the initial drop with your cannula minimizes disturbance to the 10% layer.<br> | *Following the initial drop with your cannula minimizes disturbance to the 10% layer.<br> | ||
(7) Insert the appropriate size silicone caps. The short cap and long cap displace enough sucrose to load 200 μl and 500 μl, respectively.<br> | |||
( | *Try to eliminate any air bubbles before mixing the gradients.<br> | ||
*Try to eliminate any air bubbles | (8) Turn on the Gradient Master and select the GMST option at the boot screen.<br> | ||
(9) Choose SW-41 -> ShortSucrose 10-40% w/v program.<br> | |||
<br> | (10) Grab your tubes, place them in the appropriate carousel, and select the "Run" option.<br> | ||
( | (11) After the program is finished, take the gradients back to the cold room or fridge and let them chill out.<br> | ||
<br> | |||
( | |||
( | |||
==Preparing to Spin== | ==Preparing to Spin== | ||
(1) To clear your lysate, spin it at | (1) To clear your lysate, spin it at 16,000 RCF for 5-10 minutes in the cold room.<br> | ||
(2) Slowly remove the silicone caps from the Polyallomer tube and load | (2) Slowly remove the silicone caps from the Polyallomer tube and load the supernatant on top of the gradient.<br> | ||
*There shouldn't be much space left at the top of your centrifuge tube, as this will lead to the plastic collapsing at high rotor speeds.<br> | *There shouldn't be much space left at the top of your centrifuge tube (seton suggests <= 2 mm), as this will lead to the plastic collapsing at high rotor speeds.<br> | ||
(3) Place the Polyallomer tubes into the buckets. They should float down in an ethereal fashion.<br> | (3) Place the Polyallomer tubes into the buckets. They should float down in an ethereal fashion.<br> | ||
(4) Turn caps counterclockwise to engage the threads, then tighten them clockwise until resistance against the O-Ring is | (4) Turn caps counterclockwise to engage the threads, then tighten them clockwise until resistance against the O-Ring is felt.<br> | ||
(5)Bring the SW-41 rotor to the ultracentrifuge with one hand holding the stem (depicted by the dotted arrow) and the head (depicted by solid line) resting on the shoulder.<br> | (5)Bring the SW-41 rotor to the ultracentrifuge with one hand holding the stem (depicted by the dotted arrow) and the head (depicted by solid line) resting on the shoulder.<br> | ||
[[Image:yim.jpg]]<br> | [[Image:yim.jpg]]<br> | ||
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(9) Gently open door to chamber and carefully place rotor onto the spindle. Once on the spindle, turn rotor left and right until it clicks into place.<br> | (9) Gently open door to chamber and carefully place rotor onto the spindle. Once on the spindle, turn rotor left and right until it clicks into place.<br> | ||
*Do not rush while loading up the rotor and placing it in the centrifuge. This will lead to mistakes and also cause sloshing of the gradients. <br> | *Do not rush while loading up the rotor and placing it in the centrifuge. This will lead to mistakes and also cause sloshing of the gradients. <br> | ||
(10) Select the speed and time for which you'd like to spin | (10) Select the speed and time for which you'd like to spin. (35,000 RPM/ 151,000 RCF for 2.5 hours for polysomes)<br> | ||
(11) Make sure the vacuum begins to drop and pay attention to any vibration perceived at harmonic intervals ( 1/4,1/3,1/2,2/3,3/4 of the final speed) | (11) Make sure the vacuum begins to drop and pay attention to any vibration perceived at harmonic intervals ( 1/4,1/3,1/2,2/3,3/4 of the final speed) | ||
Revision as of 18:31, 13 January 2017
Linear Sucrose Gradients for Ribosome Recovery
Getting Started
Turn on the Beckman Ultracentrifuge
The arrow on the key should be facing the swinging bucket icon, and the power switch is on the right side.
(1) Set the centrifuge temperature to 4°C.
(2) Turn on vacuum. Watch the display to make sure it goes from a solid < 200 to a blinking < 20.
(3) Set the acceleration and deceleration speed to max.
Bring the SW-41 buckets up for inspection and put them in order
(1) Check inside the buckets for dried sucrose/ other debris.
(2) After 3-4 runs, remove the rubber O-Ring from the bucket with a 10 μl pipette tip
(3) If O-Ring is dry, apply a thin layer of Beckman vacuum grease silicone with gloved fingers
(4) If O-ring is compromised, discard and replace with freshly lubed O-Ring
(5) Take SW-41 buckets back down to cold room
Preparing the Gradients
To harvest polysomes, use a 10-40% sucrose gradient.
Each sucrose solution is prepared with HT-10 (20 mM Hepes-Tris, 100 mM K-Glutamate, 10.5 mM MgOAc, 0.1 mM EDTA, pH = 7.4 @ 4C).
(1) Weigh out the appropriate amount of sucrose to make your gradients (plan for an excess of 2-3 mLs to rinse the syringe).
(2) Use Beckman Polyallomer 14 x 89 mm (9/16 x 3 ½) tubes (opaque/ thin) if you plan on fractioning from the bottom. Use Seton tubes if you're fractioning from the top (Gradient Station)
- Use the marking tool to indicate the fill line when dispensing the 10% sucrose. The lower platform is for the long caps and the higher platform is for the short caps.
- Gradients should be prepared in the cold room for immediate use. (This includes dissolution of the sucrose in HT-10)
(3) Rinse the 10 ml syringe/ medium sized cannula (20#) with di H2O and subsequently, the 10% sucrose solution.
(4) Aspirate ~6 mLs of 10% sucrose.
(5) Dispense the 10% into the bottom of the Polyallomer tube to the fill line.
- Rinse the syringe with 40% sucrose before the next step.
(6) Slowly dispense the 40% sucrose solution below the 10% solution until the 10% layer reaches the top of the tube.
- While dispensing, be sure to keep the tip of the cannula just blow the 10% layer so that it displaces the smallest volume possible.
- Following the initial drop with your cannula minimizes disturbance to the 10% layer.
(7) Insert the appropriate size silicone caps. The short cap and long cap displace enough sucrose to load 200 μl and 500 μl, respectively.
- Try to eliminate any air bubbles before mixing the gradients.
(8) Turn on the Gradient Master and select the GMST option at the boot screen.
(9) Choose SW-41 -> ShortSucrose 10-40% w/v program.
(10) Grab your tubes, place them in the appropriate carousel, and select the "Run" option.
(11) After the program is finished, take the gradients back to the cold room or fridge and let them chill out.
Preparing to Spin
(1) To clear your lysate, spin it at 16,000 RCF for 5-10 minutes in the cold room.
(2) Slowly remove the silicone caps from the Polyallomer tube and load the supernatant on top of the gradient.
- There shouldn't be much space left at the top of your centrifuge tube (seton suggests <= 2 mm), as this will lead to the plastic collapsing at high rotor speeds.
(3) Place the Polyallomer tubes into the buckets. They should float down in an ethereal fashion.
(4) Turn caps counterclockwise to engage the threads, then tighten them clockwise until resistance against the O-Ring is felt.
(5)Bring the SW-41 rotor to the ultracentrifuge with one hand holding the stem (depicted by the dotted arrow) and the head (depicted by solid line) resting on the shoulder.
(6) Carry the bucket rack from the cold room to the ultracentrifuge.
(7) Carefully load the buckets onto the rotor making sure that they swing freely
(8) Turn off vacuum and wait for the pump to stop (audible)
(9) Gently open door to chamber and carefully place rotor onto the spindle. Once on the spindle, turn rotor left and right until it clicks into place.
- Do not rush while loading up the rotor and placing it in the centrifuge. This will lead to mistakes and also cause sloshing of the gradients.
(10) Select the speed and time for which you'd like to spin. (35,000 RPM/ 151,000 RCF for 2.5 hours for polysomes)
(11) Make sure the vacuum begins to drop and pay attention to any vibration perceived at harmonic intervals ( 1/4,1/3,1/2,2/3,3/4 of the final speed)
