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Douglas Instruments Microbatch seminar- slide 1 Introduction to microbatch protein crystallization 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, Vaughan Mills, James Smith
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Douglas Instruments Microbatch seminar- slide 2 What is microbatch crystallization? Crystallization in small drops under oil
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Douglas Instruments Microbatch seminar- slide 3 What is microbatch crystallization? Crystallization in small drops under oil 100 + 100 nl to 1+1 µl
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Douglas Instruments Microbatch seminar- slide 4 What is microbatch crystallization? Crystallization in small drops under oil 100 + 100 nl to 1+1 µl The oil prevents evaporation
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Douglas Instruments Microbatch seminar- slide 5 Why is microbatch a good idea?
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Douglas Instruments Microbatch seminar- slide 6 Why is microbatch a good idea? 1.Easy
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Douglas Instruments Microbatch seminar- slide 7 Why is microbatch a good idea? 1.Easy 2.Gives better crystals in many cases – especially in screening
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Douglas Instruments Microbatch seminar- slide 8 Why is microbatch a good idea? 1.Easy 2.Gives better crystals in many cases – especially in screening 3.It doesn’t matter if the security guard at the airport puts it through the x-ray machine upside down
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Douglas Instruments Microbatch seminar- slide 9 Why is microbatch a good idea? 1.Easy 2.Gives better crystals in many cases – especially in screening 3.It doesn’t matter if the security guard at the airport puts it through the x-ray machine upside down 4.Cheap!
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Douglas Instruments Microbatch seminar- slide 10 Microbatch c rystallization Volume of well - 12 microlitres
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Douglas Instruments Microbatch seminar- slide 11 Microbatch c rystallization Volume of drop - 0.2 to 2 microlitres
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Douglas Instruments Microbatch seminar- slide 12 Microbatch c rystallization (2-bore) microtip Oil Sample
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Douglas Instruments Microbatch seminar- slide 13 Microbatch crystallization
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Douglas Instruments Microbatch seminar- slide 14 Microbatch crystallization
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Douglas Instruments Microbatch seminar- slide 15 Microbatch optimization – print out Row1 50mg/ml BSA1.06 3M NaAc pH70.35 100% Pure green dye000000000000 95% PEG 600 dyed red0.120.110.10.080.070.060.050.040.030.020.010 Row2 50mg/ml BSA1.06 3M NaAc pH70.35 100% Pure green dye000000000000 95% PEG 600 dyed red0.120.110.10.080.070.060.050.040.030.020.010 Row3 50mg/ml BSA1.06 3M NaAc pH70.35 100% Pure green dye000000000000 95% PEG 600 dyed red0.120.110.10.080.070.060.050.040.030.020.010 Row4 50mg/ml BSA1.06 3M NaAc pH70.35 100% Pure green dye000000000000 95% PEG 600 dyed red0.120.110.10.080.070.060.050.040.030.020.010
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Douglas Instruments Microbatch seminar- slide 16 Microbatch optimization – print out Row1 50mg/ml BSA1.06 3M NaAc pH70.35 100% Pure green dye000000000000 95% PEG 600 dyed red0.120.110.10.080.070.060.050.040.030.020.010 Row2 50mg/ml BSA1.06 3M NaAc pH70.35 100% Pure green dye000000000000 95% PEG 600 dyed red0.120.110.10.080.070.060.050.040.030.020.010 Row3 50mg/ml BSA1.06 3M NaAc pH70.35 100% Pure green dye000000000000 95% PEG 600 dyed red0.120.110.10.080.070.060.050.040.030.020.010 Row4 50mg/ml BSA1.06 3M NaAc pH70.35 100% Pure green dye000000000000 95% PEG 600 dyed red0.120.110.10.080.070.060.050.040.030.020.010
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Douglas Instruments Microbatch seminar- slide 17 ORYX 6 c rystallization system
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Douglas Instruments Microbatch seminar- slide 18 Liquid-handling channel Motorized Hamilton gas-tight syringe (water) X 5 to microtip
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Douglas Instruments Microbatch seminar- slide 19 ORYX 6 c rystallization system
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Douglas Instruments Microbatch seminar- slide 20 Large-volume tip for oil
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Douglas Instruments Microbatch seminar- slide 21 Left-hand tip: 2-bore Microtip – screening 5-bore Microtip – optimization
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Douglas Instruments Microbatch seminar- slide 22 End of a 5-bore microtip 0.15 mm 0.9 mm
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Douglas Instruments Microbatch seminar- slide 23 Microbatch screening
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Douglas Instruments Microbatch seminar- slide 24 2-bore Microtip – screening
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Douglas Instruments Microbatch seminar- slide 25 Microbatch screening – dispensing cycle Screening solutions Target plate
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Douglas Instruments Microbatch seminar- slide 26 Sitting Drop - preparation Air bubble Protein slug Suck up protein required for experiment + 0.25 µl Suck air bubble in second bore – for transfer Air bubble
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Douglas Instruments Microbatch seminar- slide 27 Microbatch screening – “sip and spit” (1) 1.Pick up 100 nl screening solution
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Douglas Instruments Microbatch seminar- slide 28 Microbatch screening – “sip and spit” (2) (1) 1.Pick up 100 nl screening solution 2.Transfer to microbatch drop and add protein
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Douglas Instruments Microbatch seminar- slide 29 Microbatch optimization
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Douglas Instruments Microbatch seminar- slide 30 5-bore Microtip – optimization
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Douglas Instruments Microbatch seminar- slide 31 Microbatch optimization – dispensing cycle (1) 1.Dispense five solutions together
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Douglas Instruments Microbatch seminar- slide 32 Microbatch optimization – dispensing cycle (2) oil (2) oil 1.Dispense five solutions together 2.Oil
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Douglas Instruments Microbatch seminar- slide 33 Central Composite design
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Douglas Instruments Microbatch seminar- slide 34 Sitting Drop – dispensing cycle 1.Rinse in reservoir 2.Move sideways and pick up clean solution 3.Dispense solution and protein (2) (1) (3)
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Douglas Instruments Microbatch seminar- slide 35 Phase diagram of a protein [Protein] [Precipitant] clear precipitate
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Douglas Instruments Microbatch seminar- slide 36 Phase diagram of a protein [Protein] [Precipitant] clear precipitate nucleation
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Douglas Instruments Microbatch seminar- slide 37 Phase diagram of a protein [Protein] [Precipitant] clear precipitate nucleation metastable zone
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Douglas Instruments Microbatch seminar- slide 38 Phase diagram of a protein [Protein] [Precipitant] c p n m.z. Vapor diffusion
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Douglas Instruments Microbatch seminar- slide 39 Phase diagram of a protein [Protein] [Precipitant] c p n m.z. v.d. Microbatch
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Douglas Instruments Microbatch seminar- slide 40 Phase diagram of a protein [Protein] [Precipitant] c p n m.z. v.d.. M.B.(paraffin) M.B.(par./si.)
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Douglas Instruments Microbatch seminar- slide 41 Phase diagram of a protein [Protein] [Precipitant] p n m.z. v.d. M.B.(paraffin) OPTIMIZATION M.B.(par./si.) SCREENING
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Douglas Instruments Microbatch seminar- slide 42 What % of protein should you use? [Protein] [Precipitant] n m.z. Microbatch with Si. / Par.: Precipitant saturated
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Douglas Instruments Microbatch seminar- slide 43 What % of protein should you use? [Protein] [Precipitant] n m.z. Microbatch with Si. / Par.: Protein stock Precipitant stock Precipitant saturated 50%
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Douglas Instruments Microbatch seminar- slide 44 What % of protein should you use? [Protein] [Precipitant] n m.z. Microbatch with Si. / Par.: Protein stock Precipitant stock Precipitant saturated 50% 66%
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Douglas Instruments Microbatch seminar- slide 45 Screening: studies comparing microbatch with vapor diffusion ProteinsConditionsMBVD Extra hits for MB Extra hits for MB % Unique to MB Unique to VD 1996 Baldock et al. Douglas Ins. 648434125%1715 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.htmhttp://www.douglas.co.uk/rep2.htm
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Douglas Instruments Microbatch seminar- slide 46 Screening: studies comparing microbatch with vapor diffusion ProteinsConditionsMBVD Extra hits for MB Extra hits for MB % Unique to MB Unique to VD 1996 Baldock et al. Douglas Ins. 648434125%1715 2000 D'Arcy et al. Hoffman -La Roche 1048104624268% 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.htmhttp://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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Douglas Instruments Microbatch seminar- slide 47 Screening: studies comparing microbatch with vapor diffusion ProteinsConditionsMBVD Extra hits for MB Extra hits for MB % Unique to MB Unique to VD 1996 Baldock et al. Douglas Ins. 648434125%1715 2000 D'Arcy et al. Hoffman -La Roche 1048104624268% 2001 Noordeen et al. Novartis Pharma 848 - 576145153-8-5%95103 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.htmhttp://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. N. Noordeen and S. Cowan-Jacob. Novartis Pharma AG. http://www.hamptonresearch.com/stuff/ppt_files/P6.ppt
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Douglas Instruments Microbatch seminar- slide 48 Screening: studies comparing microbatch with vapor diffusion ProteinsConditionsMBVD Extra hits for MB Extra hits for MB % Unique to MB Unique to VD 1996 Baldock et al. Douglas Ins. 648434125%1715 2000 D'Arcy et al. Hoffman -La Roche 1048104624268% 2001 Noordeen et al. Novartis Pharma 848 - 576145153-8-5%95103 SugaharaSPring8 6288100841619% 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.htmhttp://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. N. Noordeen and S. Cowan-Jacob. Novartis Pharma AG. http://www.hamptonresearch.com/stuff/ppt_files/P6.ppt Misuaki Sugahara, Riken Harima Institute, SPring8. Personal communication.
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Douglas Instruments Microbatch seminar- slide 49 Screening: studies comparing microbatch with vapor diffusion ProteinsConditionsMBVD Extra hits for MB Extra hits for MB % Unique to MB Unique to VD 1996 Baldock et al. Douglas Ins. 648434125%1715 2000 D'Arcy et al. Hoffman -La Roche 1048104624268% 2001 Noordeen et al. Novartis Pharma 848 - 576145153-8-5%95103 SugaharaSPring8 6288100841619% TOTAL 30 39234052 15% 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.htmhttp://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. N. Noordeen and S. Cowan-Jacob. Novartis Pharma AG. http://www.hamptonresearch.com/stuff/ppt_files/P6.ppt Misuaki Sugahara, Riken Harima Institute, SPring8. Personal communication.
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Douglas Instruments Microbatch seminar- slide 50 OPTIMIZATION: about 50:50 In microbatch, there tends to be more precipitation initially; this may result in more nucleation
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Douglas Instruments Microbatch seminar- slide 51 OPTIMIZATION: about 50:50 In microbatch, there tends to be more precipitation initially; this may result in more nucleation In a survey of about 30 protein samples at Imperial College, London, the best data was collected from MB in 50% of cases
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Douglas Instruments Microbatch seminar- slide 52 OPTIMIZATION: about 50:50 In microbatch, there tends to be more precipitation initially; this may result in more nucleation In a survey of about 30 protein samples at Imperial College, London, the best data was collected from MB in 50% of cases Lesley Haire (NIMR, London) told me that out of 20 structures solved in the last few years, 5 relied on microbatch
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Douglas Instruments Microbatch seminar- slide 53 OPTIMIZATION: about 50:50 From D’Arcy et al. A novel approach to crystallising proteins under oil. Journal of Crystal Growth 168 (1996) 175-180. Vapor diffusion Microbatch
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Douglas Instruments Microbatch seminar- slide 54 Crystals obtained at 4ºC (Lesley Haire, Imperial College)
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Douglas Instruments Microbatch seminar- slide 55 Crystals nucleated for 1 hr 4ºC, then grown at 18ºC
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Douglas Instruments Microbatch seminar- slide 56 Case Study 2 Use of microseeding Yaakov Korkhin and Artem Evdokimov, Weizmann Institute of Science, Israel A newly isolated alcohol dehydrogenase from a thermophile was crystallized with PEG 4000, pH 5.5 - 8.6 VD crystals grew very rapidly and were poorly formed MB crystals were initially similar
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Douglas Instruments Microbatch seminar- slide 57 [Protein] [Precipitant] p m.z. 1. Determination of phase diagram
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Douglas Instruments Microbatch seminar- slide 58 A few good quality crystals were obtained
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Douglas Instruments Microbatch seminar- slide 59 [Protein] [PEG 4K] Edge of nucleation – 16 % PEG
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Douglas Instruments Microbatch seminar- slide 60 2. Microseeding was used 1.A well-formed crystal was broken up in 15.5% PEG 2.The mixture was spun 3.A series of dilutions was set up using the supernatant (1:1000 worked best)
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Douglas Instruments Microbatch seminar- slide 61 [Protein] [PEG 4K] Reservoir – 16.5 % Droplet – 15.5 %
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Douglas Instruments Microbatch seminar- slide 62 Reproducible good quality crystals were obtained with microseeding. Crystals diffracted to 2Å
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Douglas Instruments Microbatch seminar- slide 63 Exactly the same conditions – but with no seeding solution - gave poor crystals
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Douglas Instruments Microbatch seminar- slide 64 Vapor batch crystallization using volatile organic solvents Lesley Haire Division of Protein Structure, National Institute for Medical Research, The Ridgeway, Mill Hill, London NW7 1AA, UK Winner of the competition for the Best Use of the Douglas Vapor Batch Plate First round - January 2005
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Douglas Instruments Microbatch seminar- slide 65 Crystallisation of NTD of N-MLV capsid Crystals were grown from hanging drops - Hampton Crystal Screen no.40, 20% PEG 4000, 20% v/v isopropanol, 0.1M Nacitrate pH 5.6 20mg/ml protein in the drops Major problem - harvesting the crystals in the presence of isopropanol. The crystals disintegrated as soon as the coverslip was opened.
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Douglas Instruments Microbatch seminar- slide 66 Attempts to overcome the problem Using sitting drops, oil over the drops, and handling crystals using constant humidity were only partially successful. In microbatch experiments under oil, crystals were not stable and dissolved after a couple of days. Crystals that were X-rayed had high mosaicity and could not be used for structure solution.
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Douglas Instruments Microbatch seminar- slide 67 Vapor Batch trays (Douglas Instruments)
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Douglas Instruments Microbatch seminar- slide 68 Procedure Droplets (2 l) dispensed under a mixture of silicone/ paraffin oil using IMPAX 1-5 crystallisation robot. A 6x4 spreadsheet was set up with XSTEP software varying; protein, 16-22 mg/ml; PEG 3350, 13-16%; all wells had 0.1M sodium citrate pH 5.6. 10% isopropanol was pipetted into the tray’s “moat” and the drops equilibrated overnight at 18 C. Next day, the 10% isopropanol solution was replaced by 20% isopropanol
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Douglas Instruments Microbatch seminar- slide 69 This method was used to grow crystals of NTD N-MLV capsid protein: Crystals appeared after a couple of days. Typically they were harvested and frozen after 10 days. Crystals were very stable in drops for at least 6 months. Diffraction to 1.9Å with low mosaicity. Crystals did not grow in the controls without isopropanol in the moat. Capsid protein was provided by Nehar Mortuza
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Douglas Instruments Microbatch seminar- slide 70 NTD N-tropic MLV- capsid protein G. B. Mortuza, L. F. Haire, A. Stevens, S. J. Smerdon, J. P. Stoye & I. A. Taylor. Nature (2004) 431 481-485.
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Douglas Instruments Microbatch seminar- slide 71 Using “vapor batch” in screening Low ionic strength PEG screens Vary pH and PEG concentration +/- isopropanol or other volatile organic in the moat. High salt screens Use AmS04 or P04, set up duplicate trays, +/-10% isopropanol in the moat. The same principle could be used to test isopropanol or any other volatile additive with a selected screen dispensed in VB trays.
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Douglas Instruments Microbatch seminar- slide 72 Crystals grown by VB with isopropanol 1918 H1 catalase Low ionic strength PEG screen, Sigma
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Douglas Instruments Microbatch seminar- slide 73 Advantages of “vapor batch” cf. vapor diffusion: Improved crystal stability Easier crystal handling Better diffraction from crystals grown under paraffin/silicone oil mixture.
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Douglas Instruments Microbatch seminar- slide 74 Harvesting Crystals from Microbatch James Liu - University of Georgia Jeroen Mesters - University of Luebeck
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Douglas Instruments Microbatch seminar- slide 75 Harvesting Crystals from Microbatch James Liu – B.C. Wang’s group, University of Georgia High-throughput crystallization for structural genomics
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Douglas Instruments Microbatch seminar- slide 76 Harvesting Crystals from Microbatch James Liu Microbatch is easier because the oil prevents evaporation - you can work slowly! You can loop straight out of the droplet through the oil. James’ record – he mounted 98 crystals in one day!
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Douglas Instruments Microbatch seminar- slide 77 Harvesting Crystals from Microbatch Digression: University of Georgia is unusual: it uses sitting drop for screening and microbatch for optimization. This reduces the solution volumes needed – and solutions can be reused many times.
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Douglas Instruments Microbatch seminar- slide 78 Harvesting Crystals from Microbatch 1.Use a loop with a bent handle. 2.Make sure the crystal fits the loop well or the oil will drag it off. Jeroen Mesters:
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Douglas Instruments Microbatch seminar- slide 79 Oryx at the Biblical Zoo in Jerusalem
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Douglas Instruments Microbatch seminar- slide 80 ORYX (arabian)
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Douglas Instruments Microbatch seminar- slide 81 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, Vaughan Mills
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Douglas Instruments Microbatch seminar- slide 82 And finally - Yaakov showed me …
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Douglas Instruments Microbatch seminar- slide 83 What Yaakov saw
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Douglas Instruments Microbatch seminar- slide 84 How can we do vapor diffusion as easily as microbatch?
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Douglas Instruments Microbatch seminar- slide 85 Vapor Diffusion effect demonstrated by increasing reservoir concentration Days Number of crystals 0.5 M AS 1.0 M AS
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Douglas Instruments Microbatch seminar- slide 86 Experimental Design Steps Step 1. “Primary Screen.” Approx. 30-dimensional search. E.g. Sparse Matrix or Incomplete Factorial Step 2. “Targeted Screen” Approx. 10-dimensional search. E.g. Incomplete factorial or Crystool™ optimization Step 3. “Multidimensional Grid” Approx. 4-dimensional search. E.g. Central Composite, Box Behnken - XSTEP Autodesign Step 4. “2-D Grid” Approx. 2-dimensional search. E.g. XSTEP grids.
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