4 MatTeks per group of LL-GFP-tubulin
Double-strength inhibitors, made up in non-CO2 medium:
STLC Sigma 164739 (Fisher 50-703-1833), MW = 363.47
need 1 mL aliquots 10 µM in non-CO2 medium for students
Make 100 mM stock:
- 1 g in bottle.
- Mix with 27.5 mL DMSO
- heat to 65C (~1 hr), vortex
- if necessary, filter sterilize to remove insoluble particles.
- save as 1 mL aliquots. (dilute 1:10,000 to use) (dilute 1:100 to make 1 mM)
Make 1 mM stock from the 100 mM stock
- 10 µL 1mM stock
- 990 µL DMSO
- vortex
- it will crystallize in the refrigerator. Warm and vortex to redissolve it.
Make 17 mL 10 µM in medium for students
- 170 µL 1 mM stock
- medium to 17 mL
- aliquot
Make 10 µL aliquots of 1 mM stock
- label says to add 990 µL medium to make 10 µM working solution
from Alyssa:madke STLC in DMSO and that she heated to 42C, and vortexed. She says it went from clear to yellow/brown. we use the reagent at micromolar - 1-10 µM. Her stock solution was 1mM.
students will be adding 1 mL of inhibitor to 1 mL medium in dish; the ready-to-use 1 mL (in medium) should be at least 2µM
- Taxol (20 µM final)
- soluble in DMSO, not water.
- students pick either Taxol or nocodazole, so make only 10 each
- each tube has 10 µL 10 mM (if it precipitates, add 10 uL DMSO and vortex, then add 480 uL medium or buffer)
- add 490 µL to make 200µM in two tubes!
- mix with medium in 15 mL conical to make 10 mL at 20 µM
Nocodazole (3.3 µM final)
- each tube has 3 µL 33mM
- add 97 µL to tube to make 100 µL of 1 mM
- 33 µL 1mM + 10 mL medium = 3.3 µM
Nuc Blue from Invitrogen (or Fisher NC0291762), 1 bottle per station
- Remove from culture dish after ~10 minutes. Replace stain medium with fresh medium. Otherwise it gets brighter and brighter as movie goes on
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