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single-phase exponential decay curves prism 8  (GraphPad Software Inc)

 
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    GraphPad Software Inc single-phase exponential decay curves prism 8
    Manipulating vapour diffusion crystallization conditions into batch. ( a ), ( b ) Box-and-whisker plots of the submitted PDB <t>precipitant</t> concentrations from vapour diffusion crystallization experiments and their extrapolated equilibration times (time to 90% reservoir concentration), respectively. The diffusion times were calculated from data given by Forsythe et al. (2002 ) . ( c ) The archetypal phase diagram, showing the likely area where the majority of vapour diffusion crystallization experiments begin (dotted line). ( d ) A design of a crystallization experiment in a two-drop 96-well sitting-drop plate to determine the phase diagram of the protein–precipitant mixture. One drop contains only protein and reservoir solution and the other contains protein, reservoir and seed solution, allowing the plotting of the nucleation and metastable zones, respectively.
    Single Phase Exponential Decay Curves Prism 8, supplied by GraphPad Software Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/single-phase exponential decay curves prism 8/product/GraphPad Software Inc
    Average 90 stars, based on 1 article reviews
    single-phase exponential decay curves prism 8 - by Bioz Stars, 2026-04
    90/100 stars

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    1) Product Images from "Successful sample preparation for serial crystallography experiments"

    Article Title: Successful sample preparation for serial crystallography experiments

    Journal: Journal of Applied Crystallography

    doi: 10.1107/S1600576719013517

    Manipulating vapour diffusion crystallization conditions into batch. ( a ), ( b ) Box-and-whisker plots of the submitted PDB precipitant concentrations from vapour diffusion crystallization experiments and their extrapolated equilibration times (time to 90% reservoir concentration), respectively. The diffusion times were calculated from data given by Forsythe et al. (2002 ) . ( c ) The archetypal phase diagram, showing the likely area where the majority of vapour diffusion crystallization experiments begin (dotted line). ( d ) A design of a crystallization experiment in a two-drop 96-well sitting-drop plate to determine the phase diagram of the protein–precipitant mixture. One drop contains only protein and reservoir solution and the other contains protein, reservoir and seed solution, allowing the plotting of the nucleation and metastable zones, respectively.
    Figure Legend Snippet: Manipulating vapour diffusion crystallization conditions into batch. ( a ), ( b ) Box-and-whisker plots of the submitted PDB precipitant concentrations from vapour diffusion crystallization experiments and their extrapolated equilibration times (time to 90% reservoir concentration), respectively. The diffusion times were calculated from data given by Forsythe et al. (2002 ) . ( c ) The archetypal phase diagram, showing the likely area where the majority of vapour diffusion crystallization experiments begin (dotted line). ( d ) A design of a crystallization experiment in a two-drop 96-well sitting-drop plate to determine the phase diagram of the protein–precipitant mixture. One drop contains only protein and reservoir solution and the other contains protein, reservoir and seed solution, allowing the plotting of the nucleation and metastable zones, respectively.

    Techniques Used: Diffusion-based Assay, Crystallization Assay, Whisker Assay, Concentration Assay



    Similar Products

    single-phase exponential decay curves prism 8  (GraphPad Software Inc)
    90
    GraphPad Software Inc single-phase exponential decay curves prism 8
    Manipulating vapour diffusion crystallization conditions into batch. ( a ), ( b ) Box-and-whisker plots of the submitted PDB <t>precipitant</t> concentrations from vapour diffusion crystallization experiments and their extrapolated equilibration times (time to 90% reservoir concentration), respectively. The diffusion times were calculated from data given by Forsythe et al. (2002 ) . ( c ) The archetypal phase diagram, showing the likely area where the majority of vapour diffusion crystallization experiments begin (dotted line). ( d ) A design of a crystallization experiment in a two-drop 96-well sitting-drop plate to determine the phase diagram of the protein–precipitant mixture. One drop contains only protein and reservoir solution and the other contains protein, reservoir and seed solution, allowing the plotting of the nucleation and metastable zones, respectively.
    Single Phase Exponential Decay Curves Prism 8, supplied by GraphPad Software Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/single-phase exponential decay curves prism 8/product/GraphPad Software Inc
    Average 90 stars, based on 1 article reviews
    single-phase exponential decay curves prism 8 - by Bioz Stars, 2026-04
    90/100 stars
    		  Buy from Supplier

    Image Search Results


    Manipulating vapour diffusion crystallization conditions into batch. ( a ), ( b ) Box-and-whisker plots of the submitted PDB precipitant concentrations from vapour diffusion crystallization experiments and their extrapolated equilibration times (time to 90% reservoir concentration), respectively. The diffusion times were calculated from data given by Forsythe et al. (2002 ) . ( c ) The archetypal phase diagram, showing the likely area where the majority of vapour diffusion crystallization experiments begin (dotted line). ( d ) A design of a crystallization experiment in a two-drop 96-well sitting-drop plate to determine the phase diagram of the protein–precipitant mixture. One drop contains only protein and reservoir solution and the other contains protein, reservoir and seed solution, allowing the plotting of the nucleation and metastable zones, respectively.

    Journal: Journal of Applied Crystallography

    Article Title: Successful sample preparation for serial crystallography experiments

    doi: 10.1107/S1600576719013517

    Figure Lengend Snippet: Manipulating vapour diffusion crystallization conditions into batch. ( a ), ( b ) Box-and-whisker plots of the submitted PDB precipitant concentrations from vapour diffusion crystallization experiments and their extrapolated equilibration times (time to 90% reservoir concentration), respectively. The diffusion times were calculated from data given by Forsythe et al. (2002 ) . ( c ) The archetypal phase diagram, showing the likely area where the majority of vapour diffusion crystallization experiments begin (dotted line). ( d ) A design of a crystallization experiment in a two-drop 96-well sitting-drop plate to determine the phase diagram of the protein–precipitant mixture. One drop contains only protein and reservoir solution and the other contains protein, reservoir and seed solution, allowing the plotting of the nucleation and metastable zones, respectively.

    Article Snippet: To estimate the equilibration times (90% of initial reservoir concentration at 293 K) for the different precipitant concentrations, single-phase exponential decay curves ( Prism 8 ; GraphPad Software, San Diego, California, USA) were fitted to the data presented by Forsythe et al. (2002 ).

    Techniques: Diffusion-based Assay, Crystallization Assay, Whisker Assay, Concentration Assay