Pablo Araguas Rodriguez scite author profile

Pablo Araguas Rodriguez

4Publications

17Citation Statements Received

236Citation Statements Given

How they've been cited

How they cite others

234

216

Affiliations

University College London, Imperial College London

Publications

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Condensin I subunit Cap-G is essential for proper gene expression during the maturation of post-mitotic neurons

Hassan

Rodriguez

Heidmann

et al. 2020

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Condensin complexes are essential for mitotic chromosome assembly and segregation during cell divisions, however, little is known about their functions in post-mitotic cells. Here we report a role for the condensin I subunit Cap-G in Drosophila neurons. We show that, despite not requiring condensin for mitotic chromosome compaction, post-mitotic neurons express Cap-G. Knockdown of Cap-G specifically in neurons (from their birth onwards) results in developmental arrest, behavioural defects, and dramatic gene expression changes, including reduced expression of a subset of neuronal genes and aberrant expression of genes that are not normally expressed in the developing brain. Knockdown of Cap-G in mature neurons results in similar phenotypes but to a lesser degree. Furthermore, we see dynamic binding of Cap-G at distinct loci in progenitor cells and differentiated neurons. Therefore, Cap-G is essential for proper gene expression in neurons and plays an important role during the early stages of neuronal development.

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An improved Erk biosensor reveals oscillatory Erk dynamics driven by mitotic erasure during early development

Wilcockson

Guglielmi

Rodriguez

et al. 2022

Preprint

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Erk signaling dynamics elicit distinct cellular responses in a variety of contexts. The early zebrafish embryo is an ideal model to explore the role of Erk signaling dynamics in vivo, as a gradient of activated diphosphorylated Erk (P-Erk) is induced by Fgf signaling at the blastula embryonic margin. Here we describe an improved Erk-specific biosensor which we term modified Erk Kinase Translocation Reporter (modErk-KTR). We demonstrate the utility of this biosensor in vitro and in developing zebrafish and Drosophila embryos. Moreover, we show that Fgf/Erk signaling is dynamic and coupled to tissue growth during both early zebrafish and Drosophila development. Signaling is rapidly extinguished just prior to mitosis, which we refer to as mitotic erasure, inducing periods of inactivity, thus providing a source of heterogeneity in an asynchronously dividing tissue. Our modified reporter and transgenic lines represent an important resource for interrogating the role of Erk signaling dynamics in vivo.

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Condensin I subunit Cap-G is essential for proper gene expression during the maturation of post-mitotic neurons

Hassan

Rodriguez

Heidmann

et al. 2020

Preprint

View full text Add to dashboard Cite

AbstractThe condensin complex is essential for mitotic chromosome assembly and segregation during cell divisions, however, little is known about its function in post-mitotic, differentiated cells. Here we report a novel role for the condensin I subunit Cap-G in Drosophila neurons. We show that, despite not requiring condensin for mitotic chromosome compaction, post-mitotic neurons express Cap-G and that knockdown of Cap-G specifically in neurons (from their birth onwards) results in developmental arrest, behavioural defects, and dramatic gene expression changes. These include reduced expression of a subset of neuronal genes and aberrant expression of genes that are not normally expressed in the developing brain. Knockdown of Cap-G in more mature neurons also results in similar phenotypes but to a lesser degree. Furthermore, we see dynamic binding of Cap-G to chromatin at distinct loci in neural stem cells and differentiated neurons. Therefore, Cap-G is essential for proper gene expression in neurons and plays an important role during the early stages of neuronal development.

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Author response: Condensin I subunit Cap-G is essential for proper gene expression during the maturation of post-mitotic neurons

Hassan

Rodriguez

Heidmann

et al. 2020

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