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diphytanoyl sn glycero 3 phosphocholine dphpc avanti polar lipids 850356c 4  (Croda International Plc)

 
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    Croda International Plc diphytanoyl sn glycero 3 phosphocholine dphpc avanti polar lipids 850356c 4
    Diphytanoyl Sn Glycero 3 Phosphocholine Dphpc Avanti Polar Lipids 850356c 4, supplied by Croda International Plc, used in various techniques. Bioz Stars score: 97/100, based on 925 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/diphytanoyl sn glycero 3 phosphocholine dphpc avanti polar lipids 850356c 4/product/Croda International Plc
    Average 97 stars, based on 925 article reviews
    diphytanoyl sn glycero 3 phosphocholine dphpc avanti polar lipids 850356c 4 - by Bioz Stars, 2026-04
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    dphpc  (Croda International Plc)
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    A) Structure <t>of</t> <t>DLPC</t> and <t>DPhPC.</t> B) The fluorescence emission spectra of Laurdan for each lipid composition. C) The GP value of Laurdan for each lipid composition. D) The average fraction of oxidized C11-BODIPY over time for each diameter bin. E) The initial rate of oxidation as a function of vesicle diameter. The change in the fraction of oxidized C11-BODIPY after F) 10 minutes and G) 30 minutes of oxidation, relative to its initial value for each diameter bin. H) Representative fluorescence micrographs of MBLs before and after photobleaching (scale bar: 5 μm). I) Fluorescence recovery in MBLs over time. The red lines represent the lines of best fit from equation S7. J) Diffusion coefficients for each lipid composition. All vesicles used in panel B and C were composed of DLPC or DPhPC (99.8 mol%) and Laurdan (0.2 mol%). All vesicles used in panel D-G were composed of DPhPC (98.5 mol%), C11-BODIPY (0.5 mol%), DPPE-ATTO 647N (0.5 mol%), and DSPE-PEG(2000)-Biotin (0.5 mol%), and oxidation was induced using 7.5 μM H 2 O 2 and 0.15 μM FeSO 4 . The number of DPhPC SUVs in each diameter bin varied from 140–4959. Data points or bars in D-G represent the average value of the bin and the error bars correspond to the standard error of the mean for each bin. Each value displayed for a bin represents the midpoint of the bin. All bins were symmetric, with endpoints aligned to the start of the next bin, ensuring no overlap. MBLs used in panel H-J were composed of DLPC or DPhPC (99.875 mol%) and DPPE-ATTO 647N (0.125 mol%). Data points in I represent the average normalized fluorescence intensity. Bars in J represent the mean and the error bars correspond to the standard deviation ( N =5, unpaired, two-sample t-test, ****P<0.0001).
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    dphpc lipid  (Croda International Plc)
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    A) Structure <t>of</t> <t>DLPC</t> and <t>DPhPC.</t> B) The fluorescence emission spectra of Laurdan for each lipid composition. C) The GP value of Laurdan for each lipid composition. D) The average fraction of oxidized C11-BODIPY over time for each diameter bin. E) The initial rate of oxidation as a function of vesicle diameter. The change in the fraction of oxidized C11-BODIPY after F) 10 minutes and G) 30 minutes of oxidation, relative to its initial value for each diameter bin. H) Representative fluorescence micrographs of MBLs before and after photobleaching (scale bar: 5 μm). I) Fluorescence recovery in MBLs over time. The red lines represent the lines of best fit from equation S7. J) Diffusion coefficients for each lipid composition. All vesicles used in panel B and C were composed of DLPC or DPhPC (99.8 mol%) and Laurdan (0.2 mol%). All vesicles used in panel D-G were composed of DPhPC (98.5 mol%), C11-BODIPY (0.5 mol%), DPPE-ATTO 647N (0.5 mol%), and DSPE-PEG(2000)-Biotin (0.5 mol%), and oxidation was induced using 7.5 μM H 2 O 2 and 0.15 μM FeSO 4 . The number of DPhPC SUVs in each diameter bin varied from 140–4959. Data points or bars in D-G represent the average value of the bin and the error bars correspond to the standard error of the mean for each bin. Each value displayed for a bin represents the midpoint of the bin. All bins were symmetric, with endpoints aligned to the start of the next bin, ensuring no overlap. MBLs used in panel H-J were composed of DLPC or DPhPC (99.875 mol%) and DPPE-ATTO 647N (0.125 mol%). Data points in I represent the average normalized fluorescence intensity. Bars in J represent the mean and the error bars correspond to the standard deviation ( N =5, unpaired, two-sample t-test, ****P<0.0001).
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    A) Structure of DLPC and DPhPC. B) The fluorescence emission spectra of Laurdan for each lipid composition. C) The GP value of Laurdan for each lipid composition. D) The average fraction of oxidized C11-BODIPY over time for each diameter bin. E) The initial rate of oxidation as a function of vesicle diameter. The change in the fraction of oxidized C11-BODIPY after F) 10 minutes and G) 30 minutes of oxidation, relative to its initial value for each diameter bin. H) Representative fluorescence micrographs of MBLs before and after photobleaching (scale bar: 5 μm). I) Fluorescence recovery in MBLs over time. The red lines represent the lines of best fit from equation S7. J) Diffusion coefficients for each lipid composition. All vesicles used in panel B and C were composed of DLPC or DPhPC (99.8 mol%) and Laurdan (0.2 mol%). All vesicles used in panel D-G were composed of DPhPC (98.5 mol%), C11-BODIPY (0.5 mol%), DPPE-ATTO 647N (0.5 mol%), and DSPE-PEG(2000)-Biotin (0.5 mol%), and oxidation was induced using 7.5 μM H 2 O 2 and 0.15 μM FeSO 4 . The number of DPhPC SUVs in each diameter bin varied from 140–4959. Data points or bars in D-G represent the average value of the bin and the error bars correspond to the standard error of the mean for each bin. Each value displayed for a bin represents the midpoint of the bin. All bins were symmetric, with endpoints aligned to the start of the next bin, ensuring no overlap. MBLs used in panel H-J were composed of DLPC or DPhPC (99.875 mol%) and DPPE-ATTO 647N (0.125 mol%). Data points in I represent the average normalized fluorescence intensity. Bars in J represent the mean and the error bars correspond to the standard deviation ( N =5, unpaired, two-sample t-test, ****P<0.0001).

    Journal: bioRxiv

    Article Title: Membrane curvature enhances lipid peroxidation in a composition-dependent manner

    doi: 10.64898/2025.12.03.692219

    Figure Lengend Snippet: A) Structure of DLPC and DPhPC. B) The fluorescence emission spectra of Laurdan for each lipid composition. C) The GP value of Laurdan for each lipid composition. D) The average fraction of oxidized C11-BODIPY over time for each diameter bin. E) The initial rate of oxidation as a function of vesicle diameter. The change in the fraction of oxidized C11-BODIPY after F) 10 minutes and G) 30 minutes of oxidation, relative to its initial value for each diameter bin. H) Representative fluorescence micrographs of MBLs before and after photobleaching (scale bar: 5 μm). I) Fluorescence recovery in MBLs over time. The red lines represent the lines of best fit from equation S7. J) Diffusion coefficients for each lipid composition. All vesicles used in panel B and C were composed of DLPC or DPhPC (99.8 mol%) and Laurdan (0.2 mol%). All vesicles used in panel D-G were composed of DPhPC (98.5 mol%), C11-BODIPY (0.5 mol%), DPPE-ATTO 647N (0.5 mol%), and DSPE-PEG(2000)-Biotin (0.5 mol%), and oxidation was induced using 7.5 μM H 2 O 2 and 0.15 μM FeSO 4 . The number of DPhPC SUVs in each diameter bin varied from 140–4959. Data points or bars in D-G represent the average value of the bin and the error bars correspond to the standard error of the mean for each bin. Each value displayed for a bin represents the midpoint of the bin. All bins were symmetric, with endpoints aligned to the start of the next bin, ensuring no overlap. MBLs used in panel H-J were composed of DLPC or DPhPC (99.875 mol%) and DPPE-ATTO 647N (0.125 mol%). Data points in I represent the average normalized fluorescence intensity. Bars in J represent the mean and the error bars correspond to the standard deviation ( N =5, unpaired, two-sample t-test, ****P<0.0001).

    Article Snippet: DLPC (1,2-dilauroyl-sn-glycero-3-phosphocholine, 850335), DPhPC (1,2-diphytanoyl-sn-glycero-3-phosphocholine, 850356), POPC (1-palmitoyl-2-oleoyl-glycero-3-phosphocholine, 850457), DOPC (1,2-dioleoyl-sn-glycero-3-phosphocholine, 850375), cholesterol (700100), DLiPC (1,2-dilinoleoyl-sn-glycero-3-phosphocholine, 850385), DSPE-PEG(2000)-Biotin (1,2-distearoyl-sn-glycero-3-phosphoethanolamine-N-[biotinyl(polyethylene glycol)-2000] (ammonium salt), 880129) were purchased from Avanti Polar Lipids.

    Techniques: Fluorescence, Diffusion-based Assay, Standard Deviation

    A) Structure of DLiPC. B) Fluorescence recovery in SBLs over time. The lines represent the best fits with equation S7. C) Lateral diffusion coefficients for each membrane composition. D) The initial rate of oxidation as a function of vesicle diameter. The change in the fraction of oxidized C11-BODIPY after E) 5 minutes and F) 10 minutes of oxidation, relative to its initial value for each diameter bin. SBLs used in panel B and C were primarily composed of DOPC, 1:1 DLiPC:DPhPC (50% DLiPC), or 3:1 DLiPC:DPhPC (75% DLiPC), and contained 0.125 mol% DPPE-ATTO 647N. Data points in B represent the average normalized fluorescence intensity. Bars in C represent the mean and the error bars correspond to the standard deviation ( N =4 for DOPC, and N =5 for 50% DLiPC and 75% DLiPC, unpaired, two-sample t-test, ns: non-significance, *P<0.05). All vesicles used in panel D-F were primarily composed of DOPC, 1:1 DLiPC:DPhPC (50% DLiPC), or 3:1 DLiPC:DPhPC (75% DLiPC), and contained C11-BODIPY (0.5 mol%), DPPE-ATTO 647N (0.5 mol%), and DSPE-PEG(2000)-Biotin (0.5 mol%). Oxidation was induced using 7.5 μM H 2 O 2 and 0.15 μM FeSO 4 . The number of SUVs in each diameter bin varied from 320–4502 (50% DLiPC), and 263–3100 (75% DLiPC). Bars in D represent the average initial rate of oxidation calculated from linear regression of three time points (0, 5, and 10 minutes, solid fill) or slope of the first two time points (0 and 5 minutes, patterned fill) and the error bars correspond to the standard error calculated from linear regression (solid fill) or propagated error from the standard error (patterned fill). Bars in E and F represent the average value of the bin, and the error bars correspond to the standard error of difference. Each value displayed for a bin represents the midpoint of the bin. All bins were symmetric, with endpoints aligned to the start of the next bin, ensuring no overlap.

    Journal: bioRxiv

    Article Title: Membrane curvature enhances lipid peroxidation in a composition-dependent manner

    doi: 10.64898/2025.12.03.692219

    Figure Lengend Snippet: A) Structure of DLiPC. B) Fluorescence recovery in SBLs over time. The lines represent the best fits with equation S7. C) Lateral diffusion coefficients for each membrane composition. D) The initial rate of oxidation as a function of vesicle diameter. The change in the fraction of oxidized C11-BODIPY after E) 5 minutes and F) 10 minutes of oxidation, relative to its initial value for each diameter bin. SBLs used in panel B and C were primarily composed of DOPC, 1:1 DLiPC:DPhPC (50% DLiPC), or 3:1 DLiPC:DPhPC (75% DLiPC), and contained 0.125 mol% DPPE-ATTO 647N. Data points in B represent the average normalized fluorescence intensity. Bars in C represent the mean and the error bars correspond to the standard deviation ( N =4 for DOPC, and N =5 for 50% DLiPC and 75% DLiPC, unpaired, two-sample t-test, ns: non-significance, *P<0.05). All vesicles used in panel D-F were primarily composed of DOPC, 1:1 DLiPC:DPhPC (50% DLiPC), or 3:1 DLiPC:DPhPC (75% DLiPC), and contained C11-BODIPY (0.5 mol%), DPPE-ATTO 647N (0.5 mol%), and DSPE-PEG(2000)-Biotin (0.5 mol%). Oxidation was induced using 7.5 μM H 2 O 2 and 0.15 μM FeSO 4 . The number of SUVs in each diameter bin varied from 320–4502 (50% DLiPC), and 263–3100 (75% DLiPC). Bars in D represent the average initial rate of oxidation calculated from linear regression of three time points (0, 5, and 10 minutes, solid fill) or slope of the first two time points (0 and 5 minutes, patterned fill) and the error bars correspond to the standard error calculated from linear regression (solid fill) or propagated error from the standard error (patterned fill). Bars in E and F represent the average value of the bin, and the error bars correspond to the standard error of difference. Each value displayed for a bin represents the midpoint of the bin. All bins were symmetric, with endpoints aligned to the start of the next bin, ensuring no overlap.

    Article Snippet: DLPC (1,2-dilauroyl-sn-glycero-3-phosphocholine, 850335), DPhPC (1,2-diphytanoyl-sn-glycero-3-phosphocholine, 850356), POPC (1-palmitoyl-2-oleoyl-glycero-3-phosphocholine, 850457), DOPC (1,2-dioleoyl-sn-glycero-3-phosphocholine, 850375), cholesterol (700100), DLiPC (1,2-dilinoleoyl-sn-glycero-3-phosphocholine, 850385), DSPE-PEG(2000)-Biotin (1,2-distearoyl-sn-glycero-3-phosphoethanolamine-N-[biotinyl(polyethylene glycol)-2000] (ammonium salt), 880129) were purchased from Avanti Polar Lipids.

    Techniques: Fluorescence, Diffusion-based Assay, Membrane, Standard Deviation