Autocrine- and paracrine-signaling modes play reciprocal roles in robust cell-cell communication.
<p>The figure shows the effects of perturbing autocrine- and paracrine-signaling modes in theoretical mutant (TM) systems. <b>[A]</b> The TM-APM (inhibition of autocrine, paracrine, and membrane-exchange signaling) represents the loss-of-function phenotype of experimental FGF/ERK p...
محفوظ في:
| المؤلف الرئيسي: | |
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| مؤلفون آخرون: | |
| منشور في: |
2024
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| الموضوعات: | |
| الوسوم: |
إضافة وسم
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| الملخص: | <p>The figure shows the effects of perturbing autocrine- and paracrine-signaling modes in theoretical mutant (TM) systems. <b>[A]</b> The TM-APM (inhibition of autocrine, paracrine, and membrane-exchange signaling) represents the loss-of-function phenotype of experimental FGF/ERK pathway mutants. <b>[B, C]</b> The complementary TM-A and TM-PM portray the importance of individual feedback modes (paracrine plus membrane exchange and autocrine signaling only, respectively; see also inset text). Solid lines represent mean and standard deviation values (<i>μ</i> and <i>σ</i>) for a given TM; dashed lines represent <i>μ</i> and <i>σ</i> for the inferred-theoretical wild-type (ITWT). <b>[D]</b> Cell-lineage allocation at the 48 h time point. All TMs are compared against the (ITWT). For all compared systems, statistics were calculated from 1000 independent simulation runs. Colors represent different cell fates: UND (olive); EPI (blue); PRE (orange).</p> |
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