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code for single particle tracking in dic images  (MathWorks Inc)


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    MathWorks Inc code for single particle tracking in dic images
    The diversity in spindle movement in single celled embryos of related nematode species is seen in the <t>DIC</t> <t>images.</t> These images were used to estimate the change in position of the spindle mid-plane along the AP axis (black lines) and the transverse movements of the spindle poles (blue: anterior, red: posterior). Some of the species display oscillations of spindle poles in the transverse direction, while some even display AP oscillations.
    Code For Single Particle Tracking In Dic Images, supplied by MathWorks 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/code for single particle tracking in dic images/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    code for single particle tracking in dic images - by Bioz Stars, 2026-03
    90/100 stars

    Images

    1) Product Images from "Evolutionary divergence of anaphase spindle mechanics in nematode embryos constrained by antagonistic pulling and viscous forces"

    Article Title: Evolutionary divergence of anaphase spindle mechanics in nematode embryos constrained by antagonistic pulling and viscous forces

    Journal: bioRxiv

    doi: 10.1101/2021.08.10.455863

    The diversity in spindle movement in single celled embryos of related nematode species is seen in the DIC images. These images were used to estimate the change in position of the spindle mid-plane along the AP axis (black lines) and the transverse movements of the spindle poles (blue: anterior, red: posterior). Some of the species display oscillations of spindle poles in the transverse direction, while some even display AP oscillations.
    Figure Legend Snippet: The diversity in spindle movement in single celled embryos of related nematode species is seen in the DIC images. These images were used to estimate the change in position of the spindle mid-plane along the AP axis (black lines) and the transverse movements of the spindle poles (blue: anterior, red: posterior). Some of the species display oscillations of spindle poles in the transverse direction, while some even display AP oscillations.

    Techniques Used:

    (A) Representative tracked granules from WT are compared to embryos treated with RNAi targeting ATP2 and CYC-1 are overlaid on DIC images of the embryo in the anterior (blue), mid-cell (magenta) and posterior (red) regions. (B) The MSD (red, ) with time is plotted for whole embryos corresponding to (A) . The grey area is the s.d. The data was fit using the anomalous diffusion model, (blue) to estimate the effective diffusion coefficient (D eff ) and anomaly coefficient (α). (C) The mean D eff (error bar: 2 SEM) and (D) effective viscosity are compared between untreated and treated embryos. The mean values were compared using a KS test; ns: not significant.
    Figure Legend Snippet: (A) Representative tracked granules from WT are compared to embryos treated with RNAi targeting ATP2 and CYC-1 are overlaid on DIC images of the embryo in the anterior (blue), mid-cell (magenta) and posterior (red) regions. (B) The MSD (red, ) with time is plotted for whole embryos corresponding to (A) . The grey area is the s.d. The data was fit using the anomalous diffusion model, (blue) to estimate the effective diffusion coefficient (D eff ) and anomaly coefficient (α). (C) The mean D eff (error bar: 2 SEM) and (D) effective viscosity are compared between untreated and treated embryos. The mean values were compared using a KS test; ns: not significant.

    Techniques Used: Diffusion-based Assay, Viscosity



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    code for single particle tracking in dic images  (MathWorks Inc)
    90
    MathWorks Inc code for single particle tracking in dic images
    The diversity in spindle movement in single celled embryos of related nematode species is seen in the <t>DIC</t> <t>images.</t> These images were used to estimate the change in position of the spindle mid-plane along the AP axis (black lines) and the transverse movements of the spindle poles (blue: anterior, red: posterior). Some of the species display oscillations of spindle poles in the transverse direction, while some even display AP oscillations.
    Code For Single Particle Tracking In Dic Images, supplied by MathWorks 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/code for single particle tracking in dic images/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    code for single particle tracking in dic images - by Bioz Stars, 2026-03
    90/100 stars
    		  Buy from Supplier

    Image Search Results


    The diversity in spindle movement in single celled embryos of related nematode species is seen in the DIC images. These images were used to estimate the change in position of the spindle mid-plane along the AP axis (black lines) and the transverse movements of the spindle poles (blue: anterior, red: posterior). Some of the species display oscillations of spindle poles in the transverse direction, while some even display AP oscillations.

    Journal: bioRxiv

    Article Title: Evolutionary divergence of anaphase spindle mechanics in nematode embryos constrained by antagonistic pulling and viscous forces

    doi: 10.1101/2021.08.10.455863

    Figure Lengend Snippet: The diversity in spindle movement in single celled embryos of related nematode species is seen in the DIC images. These images were used to estimate the change in position of the spindle mid-plane along the AP axis (black lines) and the transverse movements of the spindle poles (blue: anterior, red: posterior). Some of the species display oscillations of spindle poles in the transverse direction, while some even display AP oscillations.

    Article Snippet: Embryo images were partitioned into anterior, middle and posterior regions and over 1,000 granules in the anterior posterior portion of each embryo were tracked ( ) using a previously developed MATLAB code for single particle tracking in DIC images ( ).

    Techniques:

    (A) Representative tracked granules from WT are compared to embryos treated with RNAi targeting ATP2 and CYC-1 are overlaid on DIC images of the embryo in the anterior (blue), mid-cell (magenta) and posterior (red) regions. (B) The MSD (red, ) with time is plotted for whole embryos corresponding to (A) . The grey area is the s.d. The data was fit using the anomalous diffusion model, (blue) to estimate the effective diffusion coefficient (D eff ) and anomaly coefficient (α). (C) The mean D eff (error bar: 2 SEM) and (D) effective viscosity are compared between untreated and treated embryos. The mean values were compared using a KS test; ns: not significant.

    Journal: bioRxiv

    Article Title: Evolutionary divergence of anaphase spindle mechanics in nematode embryos constrained by antagonistic pulling and viscous forces

    doi: 10.1101/2021.08.10.455863

    Figure Lengend Snippet: (A) Representative tracked granules from WT are compared to embryos treated with RNAi targeting ATP2 and CYC-1 are overlaid on DIC images of the embryo in the anterior (blue), mid-cell (magenta) and posterior (red) regions. (B) The MSD (red, ) with time is plotted for whole embryos corresponding to (A) . The grey area is the s.d. The data was fit using the anomalous diffusion model, (blue) to estimate the effective diffusion coefficient (D eff ) and anomaly coefficient (α). (C) The mean D eff (error bar: 2 SEM) and (D) effective viscosity are compared between untreated and treated embryos. The mean values were compared using a KS test; ns: not significant.

    Article Snippet: Embryo images were partitioned into anterior, middle and posterior regions and over 1,000 granules in the anterior posterior portion of each embryo were tracked ( ) using a previously developed MATLAB code for single particle tracking in DIC images ( ).

    Techniques: Diffusion-based Assay, Viscosity