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Should we be doing more crystallization by the microbatch method? Patrick Shaw Stewart

Should we be doing more crystallization by the microbatch method? Patrick Shaw Stewart Imperial College, London: Professor David M. Blow, Patrick Shaw Stewart, Dennis Maeder, Naomi Chayen Douglas Instruments Limited (near Oxford, UK):

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Should we be doing more crystallization by the microbatch method? Patrick Shaw Stewart

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  1. Should we be doing more crystallization by the microbatch method? Patrick Shaw Stewart Imperial College, London: Professor David M. Blow, Patrick Shaw Stewart, Dennis Maeder, Naomi Chayen Douglas Instruments Limited (near Oxford, UK): Peter Baldock, Patrick Shaw Stewart, James Smith, Richard Briggs

  2. What is microbatch crystallization? • Crystallization in small drops under oil

  3. (2-bore) microtip Oil Sample Microbatch crystallization

  4. Microbatch crystallization

  5. Microbatch crystallization

  6. End of a 5-bore microtip 0.15 mm 0.9 mm

  7. Microbatch optimization – print out

  8. ORYX 6 crystallization system

  9. Oryx Crystallization System • Versatile – optimization, additives etc.

  10. Oryx Crystallization System • Versatile – optimization, additives etc. • Wastes very little protein (around 0.5 µl per experiment)

  11. Oryx Crystallization System • Sitting drops – 0.1+0.1 to 1+1µ

  12. Oryx Crystallization System • Sitting drops – 0.1+0.1 to 1+1µ • Microbatch screening – 0.1+0.1 to 1+1µl

  13. Oryx Crystallization System • Sitting drops – 0.1+0.1 to 1+1µ • Microbatch screening – 0.1+0.1 to 1+1µl • Microbatch optimization – 0.5+0.5to1+1µl

  14. How does Oryx work? 2-bore Microtip – screening 5-bore Microtip – optimization

  15. Sitting Drop

  16. Sitting Drop - preparation • Use a 2-bore microtip

  17. Sitting Drop - preparation • Use a 2-bore microtip • Start with both bores full of water

  18. Sitting Drop - preparation • Use a 2-bore microtip • Start with both bores full of water • Suck up 1µl of air into both channels Air bubbles

  19. Sitting Drop - preparation Air bubble • Use a 2-bore microtip • Start with both bores full of water • Suck up 1µl of air into both channels • Suck up protein required for experiment + 0.25 µl Protein slug

  20. Sitting Drop – dispensing cycle • Rinse in reservoir (1)

  21. Sitting Drop – dispensing cycle • Rinse in reservoir • Move sideways and pick up clean solution (1) (2)

  22. Sitting Drop – dispensing cycle • Rinse in reservoir • Move sideways and pick up clean solution • Dispense solution and protein (3) (1) (2)

  23. Hardware

  24. IMPAX 1-5 crystallization system

  25. Liquid-handling channel • Motorized Hamilton gas-tight syringe (water) • Ground-glass syringe (water) • Valve • Disposable syringe (reagents) • Valve • Microtip X 5

  26. IMPAX 1-5 crystallization system

  27. ORYX 6 crystallization system

  28. ORYX 6 crystallization system

  29. Microbatch screening

  30. Microbatch screening – dispensing cycle Target plate Screening solutions

  31. Microbatch screening – dispensing cycle • Pick up screening solution (1)

  32. Microbatch screening – dispensing cycle • Pick up screening solution • Transfer to microbatch drop (1) (2)

  33. Microbatch screening – dispensing cycle • Pick up screening solution • Transfer to microbatch drop; oil (1) (2) + oil

  34. Microbatch screening – dispensing cycle • Pick up screening solution • Transfer to microbatch drop; oil • Rinse (1) (2) (3) + oil

  35. Microbatch optimization

  36. Microbatch optimization – dispensing cycle • Dispense five solutions together (1)

  37. Microbatch optimization – dispensing cycle • Dispense five solutions together • Oil (1) + oil

  38. Microbatch optimization – dispensing cycle • Dispense five solutions together • Oil (1) + oil

  39. Microbatch optimization – dispensing cycle • Dispense five solutions together • Oil (1) + oil

  40. Phase diagram of a protein precipitate [Protein] clear [Precipitant]

  41. Phase diagram of a protein precipitate nucleation [Protein] clear [Precipitant]

  42. precipitate nucleation [Protein] metastable zone clear [Precipitant] Phase diagram of a protein

  43. Phase diagram of a protein p n [Protein] m.z. Vapor diffusion c [Precipitant]

  44. Phase diagram of a protein p n Microbatch [Protein] m.z. v.d. c [Precipitant]

  45. Phase diagram of a protein p n M.B.(paraffin) [Protein] m.z. v.d.. M.B.(par./si.) c [Precipitant]

  46. Phase diagram of a protein p n M.B.(paraffin) OPTIMIZATION [Protein] m.z. v.d. M.B.(par./si.) SCREENING [Precipitant]

  47. What % of protein should you use? Microbatch with Si. / Par.: n [Protein] Protein stock m.z. 50% Precipitant saturated Precipitant stock [Precipitant]

  48. What % of protein should you use? Microbatch with Si. / Par.: n [Protein] Protein stock m.z. 66% 50% Precipitant saturated Precipitant stock [Precipitant]

  49. Screening: studies comparing microbatch with vapor diffusion P.F.M. Baldock, V. Mills, P.D. Shaw Stewart. A comparison of microbatch and vapour diffusion for initial screening of crystallization conditions. Journal of Crystal Growth. 168 (1996), pp 170-174 or: http://www.douglas.co.uk/rep2.htm

  50. Screening: studies comparing microbatch with vapor diffusion P.F.M. Baldock, V. Mills, P.D. Shaw Stewart. A comparison of microbatch and vapour diffusion for initial screening of crystallization conditions. Journal of Crystal Growth. 168 (1996), pp 170-174 or: http://www.douglas.co.uk/rep2.htm A. D’Arcy, G.E. Dale, M. Stihle, B. D’Arcy. Results reported at the 8th International Conference on the Crystallization of Biological Macromolecules, May 18, 2000.

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