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nescs  (ATCC)


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    ATCC nescs
    Differential expression of key genes in ectopic endometrial cells. qRT‐PCR validation of four key genes (HOXA10, ESR1, MMP9, and SPP1) in normal endometrial stromal cells <t>(NESCs)</t> and ectopic endometrial stromal <t>cells</t> <t>(EESCs).</t> Gene expression was normalized to GAPDH and presented as fold change relative to NESCs. Data are shown as mean ± SD ( n = 3). ∗∗∗ p < 0.001 versus NESCs.
    Nescs, supplied by ATCC, used in various techniques. Bioz Stars score: 96/100, based on 297 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/nescs/product/ATCC
    Average 96 stars, based on 297 article reviews
    nescs - by Bioz Stars, 2026-05
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    1) Product Images from "Single‐Cell Transcriptomic Profiling and Machine Learning Integration Unveil Stromal Cell Heterogeneity in Endometriosis"

    Article Title: Single‐Cell Transcriptomic Profiling and Machine Learning Integration Unveil Stromal Cell Heterogeneity in Endometriosis

    Journal: Human Mutation

    doi: 10.1155/humu/5565366

    Differential expression of key genes in ectopic endometrial cells. qRT‐PCR validation of four key genes (HOXA10, ESR1, MMP9, and SPP1) in normal endometrial stromal cells (NESCs) and ectopic endometrial stromal cells (EESCs). Gene expression was normalized to GAPDH and presented as fold change relative to NESCs. Data are shown as mean ± SD ( n = 3). ∗∗∗ p < 0.001 versus NESCs.
    Figure Legend Snippet: Differential expression of key genes in ectopic endometrial cells. qRT‐PCR validation of four key genes (HOXA10, ESR1, MMP9, and SPP1) in normal endometrial stromal cells (NESCs) and ectopic endometrial stromal cells (EESCs). Gene expression was normalized to GAPDH and presented as fold change relative to NESCs. Data are shown as mean ± SD ( n = 3). ∗∗∗ p < 0.001 versus NESCs.

    Techniques Used: Quantitative Proteomics, Quantitative RT-PCR, Biomarker Discovery, Gene Expression



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    Differential expression of key genes in ectopic endometrial cells. qRT‐PCR validation of four key genes (HOXA10, ESR1, MMP9, and SPP1) in normal endometrial stromal cells <t>(NESCs)</t> and ectopic endometrial stromal <t>cells</t> <t>(EESCs).</t> Gene expression was normalized to GAPDH and presented as fold change relative to NESCs. Data are shown as mean ± SD ( n = 3). ∗∗∗ p < 0.001 versus NESCs.
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    Differential expression of key genes in ectopic endometrial cells. qRT‐PCR validation of four key genes (HOXA10, ESR1, MMP9, and SPP1) in normal endometrial stromal cells <t>(NESCs)</t> and ectopic endometrial stromal <t>cells</t> <t>(EESCs).</t> Gene expression was normalized to GAPDH and presented as fold change relative to NESCs. Data are shown as mean ± SD ( n = 3). ∗∗∗ p < 0.001 versus NESCs.
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    Establishment of cell polarity in cerebral cortex development. (A) The early neuroepithelium is composed of <t>highly</t> <t>polarized</t> neuroepithelial stem cells <t>(NESCs,</t> apical-basal polarity is indicated). NESCs give rise to radial glia progenitor stem cells (RGPCs) which exhibit even more polarized cellular morphology with an extended basal process. During neurogenesis symmetric radial glia progenitor (RGP) divisions may generate two RGPs but asymmetric divisions produce a renewing RGP and a neuron or an intermediate progenitor (IP). IPs further divide symmetrically in the subventricular zone (SVZ) to produce neurons. The basal processes of RGPs serve as a scaffold for nascent post-mitotic neurons, which migrate in a step-wise fashion coupled with changes in cell polarity, from the ventricular zone (VZ)/SVZ through the intermediate zone (IZ) in order to reach the cortical plate (CP). After nascent cortical projection neurons have delaminated from the neuroepithelium at the ventricular surface they move radially away to the SVZ exhibiting bipolar (BP) morphology. Within the SVZ/IZ, neurons “sojourn” for about 24 h or longer and most adopt a multipolar (MP) morphology, extending and retracting processes in all directions. At one point fundamental cellular polarization events take place that predetermine the future axon of the neuron before the neuron again adopts a bipolar morphology and starts locomoting along the radial glial fiber through the IZ. Once reaching the subplate (SP), neurons enter the CP and migrate towards the marginal zone (MZ) where they detach from the radial glial fiber. Finally, neurons settle in their appropriate position in the CP and the leading process will eventually become the dendrite. (B) This panel depicts the migrating neuron from panel (A) in higher detail with the leading and trailing processes which eventually become the dendrite and axon, respectively.
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    Establishment of cell polarity in cerebral cortex development. (A) The early neuroepithelium is composed of <t>highly</t> <t>polarized</t> neuroepithelial stem cells <t>(NESCs,</t> apical-basal polarity is indicated). NESCs give rise to radial glia progenitor stem cells (RGPCs) which exhibit even more polarized cellular morphology with an extended basal process. During neurogenesis symmetric radial glia progenitor (RGP) divisions may generate two RGPs but asymmetric divisions produce a renewing RGP and a neuron or an intermediate progenitor (IP). IPs further divide symmetrically in the subventricular zone (SVZ) to produce neurons. The basal processes of RGPs serve as a scaffold for nascent post-mitotic neurons, which migrate in a step-wise fashion coupled with changes in cell polarity, from the ventricular zone (VZ)/SVZ through the intermediate zone (IZ) in order to reach the cortical plate (CP). After nascent cortical projection neurons have delaminated from the neuroepithelium at the ventricular surface they move radially away to the SVZ exhibiting bipolar (BP) morphology. Within the SVZ/IZ, neurons “sojourn” for about 24 h or longer and most adopt a multipolar (MP) morphology, extending and retracting processes in all directions. At one point fundamental cellular polarization events take place that predetermine the future axon of the neuron before the neuron again adopts a bipolar morphology and starts locomoting along the radial glial fiber through the IZ. Once reaching the subplate (SP), neurons enter the CP and migrate towards the marginal zone (MZ) where they detach from the radial glial fiber. Finally, neurons settle in their appropriate position in the CP and the leading process will eventually become the dendrite. (B) This panel depicts the migrating neuron from panel (A) in higher detail with the leading and trailing processes which eventually become the dendrite and axon, respectively.
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    Image Search Results


    Differential expression of key genes in ectopic endometrial cells. qRT‐PCR validation of four key genes (HOXA10, ESR1, MMP9, and SPP1) in normal endometrial stromal cells (NESCs) and ectopic endometrial stromal cells (EESCs). Gene expression was normalized to GAPDH and presented as fold change relative to NESCs. Data are shown as mean ± SD ( n = 3). ∗∗∗ p < 0.001 versus NESCs.

    Journal: Human Mutation

    Article Title: Single‐Cell Transcriptomic Profiling and Machine Learning Integration Unveil Stromal Cell Heterogeneity in Endometriosis

    doi: 10.1155/humu/5565366

    Figure Lengend Snippet: Differential expression of key genes in ectopic endometrial cells. qRT‐PCR validation of four key genes (HOXA10, ESR1, MMP9, and SPP1) in normal endometrial stromal cells (NESCs) and ectopic endometrial stromal cells (EESCs). Gene expression was normalized to GAPDH and presented as fold change relative to NESCs. Data are shown as mean ± SD ( n = 3). ∗∗∗ p < 0.001 versus NESCs.

    Article Snippet: NESCs (ATCC Cat# CRL‐4003, RRID:CVCL_D697) and EESCs (ATCC Cat# CRL‐7566, RRID:CVCL_IW41) were authenticated by short tandem repeat (STR) profiling, showing ≥ 95% match to the reference profile in the ATCC database.

    Techniques: Quantitative Proteomics, Quantitative RT-PCR, Biomarker Discovery, Gene Expression

    Establishment of cell polarity in cerebral cortex development. (A) The early neuroepithelium is composed of highly polarized neuroepithelial stem cells (NESCs, apical-basal polarity is indicated). NESCs give rise to radial glia progenitor stem cells (RGPCs) which exhibit even more polarized cellular morphology with an extended basal process. During neurogenesis symmetric radial glia progenitor (RGP) divisions may generate two RGPs but asymmetric divisions produce a renewing RGP and a neuron or an intermediate progenitor (IP). IPs further divide symmetrically in the subventricular zone (SVZ) to produce neurons. The basal processes of RGPs serve as a scaffold for nascent post-mitotic neurons, which migrate in a step-wise fashion coupled with changes in cell polarity, from the ventricular zone (VZ)/SVZ through the intermediate zone (IZ) in order to reach the cortical plate (CP). After nascent cortical projection neurons have delaminated from the neuroepithelium at the ventricular surface they move radially away to the SVZ exhibiting bipolar (BP) morphology. Within the SVZ/IZ, neurons “sojourn” for about 24 h or longer and most adopt a multipolar (MP) morphology, extending and retracting processes in all directions. At one point fundamental cellular polarization events take place that predetermine the future axon of the neuron before the neuron again adopts a bipolar morphology and starts locomoting along the radial glial fiber through the IZ. Once reaching the subplate (SP), neurons enter the CP and migrate towards the marginal zone (MZ) where they detach from the radial glial fiber. Finally, neurons settle in their appropriate position in the CP and the leading process will eventually become the dendrite. (B) This panel depicts the migrating neuron from panel (A) in higher detail with the leading and trailing processes which eventually become the dendrite and axon, respectively.

    Journal: Frontiers in Cellular Neuroscience

    Article Title: Cell Polarity in Cerebral Cortex Development—Cellular Architecture Shaped by Biochemical Networks

    doi: 10.3389/fncel.2017.00176

    Figure Lengend Snippet: Establishment of cell polarity in cerebral cortex development. (A) The early neuroepithelium is composed of highly polarized neuroepithelial stem cells (NESCs, apical-basal polarity is indicated). NESCs give rise to radial glia progenitor stem cells (RGPCs) which exhibit even more polarized cellular morphology with an extended basal process. During neurogenesis symmetric radial glia progenitor (RGP) divisions may generate two RGPs but asymmetric divisions produce a renewing RGP and a neuron or an intermediate progenitor (IP). IPs further divide symmetrically in the subventricular zone (SVZ) to produce neurons. The basal processes of RGPs serve as a scaffold for nascent post-mitotic neurons, which migrate in a step-wise fashion coupled with changes in cell polarity, from the ventricular zone (VZ)/SVZ through the intermediate zone (IZ) in order to reach the cortical plate (CP). After nascent cortical projection neurons have delaminated from the neuroepithelium at the ventricular surface they move radially away to the SVZ exhibiting bipolar (BP) morphology. Within the SVZ/IZ, neurons “sojourn” for about 24 h or longer and most adopt a multipolar (MP) morphology, extending and retracting processes in all directions. At one point fundamental cellular polarization events take place that predetermine the future axon of the neuron before the neuron again adopts a bipolar morphology and starts locomoting along the radial glial fiber through the IZ. Once reaching the subplate (SP), neurons enter the CP and migrate towards the marginal zone (MZ) where they detach from the radial glial fiber. Finally, neurons settle in their appropriate position in the CP and the leading process will eventually become the dendrite. (B) This panel depicts the migrating neuron from panel (A) in higher detail with the leading and trailing processes which eventually become the dendrite and axon, respectively.

    Article Snippet: NESCs are highly polarized and their nuclei exhibit interkinetic nuclear migration whereby they translocate from the ventricular (apical) side to the more basal side in concert with the cell cycle (Lee and Norden, ).

    Techniques: