Koch Lab:Protocols/Kinesin/Tubulin resuspension and polymerization: Difference between revisions
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<sup>4</sup> GPEM is made by adding 2 λ of 100 mM Mg-GTP to 198 λ of BRB80<br> | <sup>4</sup> GPEM is made by adding 2 λ of 100 mM Mg-GTP to 198 λ of BRB80<br> | ||
<sup>5</sup> [[User:Steven J. Koch|Steve Koch]] 00:42, 3 May 2009 (EDT): I found the following note in one of my protocols from 2003: "Note: The cytoskeleton storage buffer has the correct amount of GTP, but does not have glycerol. So adding 2λ to 2 λ actually does not produce the “correct” final glycerol concentration. This seems to be OK, though." Whereas above, I say that the storage buffer does have cushion (glycerol). So, I don't know the answer, but this should be easily answerable by contacting cytoskeleton. | <sup>5</sup> [[User:Steven J. Koch|Steve Koch]] 00:42, 3 May 2009 (EDT): I found the following note in one of my protocols from 2003: "Note: The cytoskeleton storage buffer has the correct amount of GTP, but does not have glycerol. So adding 2λ to 2 λ actually does not produce the “correct” final glycerol concentration. This seems to be OK, though." Whereas above, I say that the storage buffer does have cushion (glycerol). So, I don't know the answer, but this should be easily answerable by contacting cytoskeleton. | ||
==Microtubule polymerization== | |||
# Because I store my aliquots in PCR thin-walled tubes, I can pop them right into the thermal cycler w/ hot lid. The hot-lid prevents very small volumes from drying out during polymerization. | |||
#* [[User:Steven J. Koch|Steve Koch]] 00:51, 3 May 2009 (EDT): Note: I believe we often did not mix unlabeled with rhodamine-labeled tubulin, and often used 100% rhodamine-labeled tubulin. (Or, rather 100% coming from that cytoskeleton product, probably not 100% efficient, though.) It's probably a much better idea to mix rhodamine-labeled tubulin with un-labeled before polymerizing. At the moment, I don't have the proper ratios for this procedure. | |||
# Pre-heat thermal cycler to 37°C w/ hot-lid ON. | |||
# Heat tubes at 37°C for 20 minutes. | |||
# Add whatever volume of BRB80T appropriate for further experiments. For unlabeled tubulin, I usually add 75 λ of BRB80T to 25 λ of polymerized MTs. For rhodamine tubulin, I think we usually add 100λ of BRB80T. One can use 37°C BRB80T to be extra-careful, but I usually use room temp. | |||
# Procede with experiments, or biospin clean-up | |||
==Other references== | ==Other references== | ||
Revision as of 21:51, 2 May 2009
Steve Koch 00:32, 3 May 2009 (EDT): I am unsure of the historical details of this protocol. It's the one I used in 2003 and 2004, adapted from George Bachand and probably from Susan Rivera and Andy Boal. They probably followed protocols from Cytoskeleton or the Kinesin Home Page, probably a Howard Lab protocol?
Introduction
This protocol assumes that tubulin has been purchased from Cytoskeleton. Various forms can be purchased. As of 5/2/09, the only two forms we are talking about are lyophilized un-labeled bovine tubulin and rhodamine-labeled bovine tubulin in a 10 mg / ml suspension.
Tubulin dimers are highly unstable, so care should be taken to keep as cold as possible and minimize warm steps except when polymerizing.
Non-labeled tubulin resuspension
- Tube should contain 1 mg of tubulin.
- Dissolve the tubulin in 180λ of cold GPEM buffer1
- Add 20 λ of cold cushion buffer2
- Store @ -80C in convenient aliquots. I do 25λ aliquots in 100λ PCR thin-walled tubes.
1 GPEM is 198λ of BRB80 plus 2λ of 100 mM GTP in 100 mM MgCl2
2 I use cushion buffer from cytoskeleton (BST106), I think it is BRB80 w/ 60% glycerol
Rhodamine tubulin resuspension
- Tube usually contains 2λ of a 10 mg / ml solution of tubulin in GPEM + cushion3, 4, 5
- Spin down several tubes (say 4 tubes) to get liquid to bottom of tube
- Combine for total volume of say 8 λ.
- Add 8 λ of GPEM + cushion [9 parts GPEM, 1 part cushion]
- Store @ -80C in aliquots. I store 1 λ aliquots in 100λ PCR thin-walled tubes.
3 Make “GPEM+ Cushion” by mixing 9 parts GPEM with 1 part “Cushion” buffer.
4 GPEM is made by adding 2 λ of 100 mM Mg-GTP to 198 λ of BRB80
5 Steve Koch 00:42, 3 May 2009 (EDT): I found the following note in one of my protocols from 2003: "Note: The cytoskeleton storage buffer has the correct amount of GTP, but does not have glycerol. So adding 2λ to 2 λ actually does not produce the “correct” final glycerol concentration. This seems to be OK, though." Whereas above, I say that the storage buffer does have cushion (glycerol). So, I don't know the answer, but this should be easily answerable by contacting cytoskeleton.
Microtubule polymerization
- Because I store my aliquots in PCR thin-walled tubes, I can pop them right into the thermal cycler w/ hot lid. The hot-lid prevents very small volumes from drying out during polymerization.
- Steve Koch 00:51, 3 May 2009 (EDT): Note: I believe we often did not mix unlabeled with rhodamine-labeled tubulin, and often used 100% rhodamine-labeled tubulin. (Or, rather 100% coming from that cytoskeleton product, probably not 100% efficient, though.) It's probably a much better idea to mix rhodamine-labeled tubulin with un-labeled before polymerizing. At the moment, I don't have the proper ratios for this procedure.
- Pre-heat thermal cycler to 37°C w/ hot-lid ON.
- Heat tubes at 37°C for 20 minutes.
- Add whatever volume of BRB80T appropriate for further experiments. For unlabeled tubulin, I usually add 75 λ of BRB80T to 25 λ of polymerized MTs. For rhodamine tubulin, I think we usually add 100λ of BRB80T. One can use 37°C BRB80T to be extra-careful, but I usually use room temp.
- Procede with experiments, or biospin clean-up
Other references
This page was initially prepared based on my Word document notes from Sandia. Ultimately I'd love to have all of them converted to OWW. Until then, I'm manually uploading a few to GoogleDocs. Here's two used to prepare this page:
