2022
DOI: 10.1098/rsob.210383
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Single-molecule tracking (SMT) and localization of SRF and MRTF transcription factors during neuronal stimulation and differentiation

Abstract: In cells, proteins encoded by the same gene do not all behave uniformly but engage in functional subpopulations induced by spatial or temporal segregation. While conventional microscopy has limitations in revealing such spatial and temporal diversity, single-molecule tracking (SMT) microscopy circumvented this problem and allows for high-resolution imaging and quantification of dynamic single-molecule properties. Particularly in the nucleus, SMT has identified specific DNA residence times of transcription fact… Show more

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Cited by 7 publications
(4 citation statements)
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References 79 publications
(163 reference statements)
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“…While Hnf4g functions only in the gastrointestinal tract, it will be interesting to investigate whether the revealed principle of Hes1 dynamics holds true in other differentiating tissues [68][69][70] . Independently, differential TF dynamics have been shown in various embryonic and adult differentiation contexts 44,49,71 , suggesting a broader applicability for TF dynamics as a regulatory principle during differentiation. Arguing against simple gene expression regulation through binding of a trans-acting TF to cis-regulatory elements, exciting future avenues will include interrogating the molecular mechanisms underlying these differential TF dynamics, such as post-translational modifications and association with co-factors 2 , or the formation of protein microenvironments 72 , as well as to quantitatively probe the lineage TF concentration dependence 73 for cell state transitions during differentiation and malignant transformation.…”
Section: Discussionmentioning
confidence: 98%
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“…While Hnf4g functions only in the gastrointestinal tract, it will be interesting to investigate whether the revealed principle of Hes1 dynamics holds true in other differentiating tissues [68][69][70] . Independently, differential TF dynamics have been shown in various embryonic and adult differentiation contexts 44,49,71 , suggesting a broader applicability for TF dynamics as a regulatory principle during differentiation. Arguing against simple gene expression regulation through binding of a trans-acting TF to cis-regulatory elements, exciting future avenues will include interrogating the molecular mechanisms underlying these differential TF dynamics, such as post-translational modifications and association with co-factors 2 , or the formation of protein microenvironments 72 , as well as to quantitatively probe the lineage TF concentration dependence 73 for cell state transitions during differentiation and malignant transformation.…”
Section: Discussionmentioning
confidence: 98%
“…However, academic-scale SMT has been limited in throughput and the information gained has typically been restricted to parameters describing TF diffusion. While first studies have compared two distinct undifferentiated and differentiated states 44,49 , they were obtained through directed differentiation protocols and TF dynamics have thus been measured at different time points outside the multicellular context of a differentiating tissue model. In contrast, livecell SMT has been performed in embryos of various species [50][51][52][53] .…”
Section: Introductionmentioning
confidence: 99%
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“…To address knowledge gaps, we introduce the role of emerin—a putative gravi-sensitive nuclear envelope protein ( Aventaggiato et al, 2020 ; Vahlensieck et al, 2022 )—, novel microgravity mechanisms for arginase-1 ( ARG1 ) regulation, and, most notably, a novel scale in the multiscale space milieu via the MRTF-A/SRF (serum response factor) pathway. Compared to live-cell imaging, transcriptomic analysis has traditionally been blind to the dynamic, intracellular localization of MRTF-A ( Hipp et al, 2019 ; Kuchler et al, 2022 ). Furthermore, MRTF-A is currently not included in any KEGG database pathway, and its transcription program may be concealed by overarching pro-inflammatory signaling pathways.…”
Section: Introductionmentioning
confidence: 99%