Alexia Ferrand scite author profile

Super-resolution microscopy (SRM) bypasses the diffraction limit, a physical barrier that restricts the optical resolution to roughly 250 nm and was previously thought to be impenetrable. SRM techniques allow the visualization of subcellular organization with unprecedented detail, but also confront biologists with the challenge of selecting the best-suited approach for their particular research question. Here, we provide guidance on how to use SRM techniques advantageously for investigating cellular structures and dynamics to promote new discoveries.

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Temporal and Spatial Uncoupling of DNA Double Strand Break Repair Pathways within Mammalian Heterochromatin

Tsouroula

et al. 2016

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Repetitive DNA is packaged into heterochromatin to maintain its integrity. We use CRISPR/Cas9 to induce DSBs in different mammalian heterochromatin structures. We demonstrate that in pericentric heterochromatin, DSBs are positionally stable in G1 and recruit NHEJ factors. In S/G2, DSBs are resected and relocate to the periphery of heterochromatin, where they are retained by RAD51. This is independent of chromatin relaxation but requires end resection and RAD51 exclusion from the core. DSBs that fail to relocate are engaged by NHEJ or SSA proteins. We propose that the spatial disconnection between end resection and RAD51 binding prevents the activation of mutagenic pathways and illegitimate recombination. Interestingly, in centromeric heterochromatin, DSBs recruit both NHEJ and HR proteins throughout the cell cycle. Our results highlight striking differences in the recruitment of DNA repair factors between pericentric and centromeric heterochromatin and suggest a model in which the commitment to specific DNA repair pathways regulates DSB position.

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TACC1–chTOG–Aurora A protein complex in breast cancer

et al. 2003

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The three human TACC (transforming acidic coiled-coil) genes encode a family of proteins with poorly defined functions that are suspected to play a role in oncogenesis. A Xenopus TACC homolog called Maskin is involved in translational control, while Drosophila D-TACC interacts with the microtubule-associated protein MSPS (Mini SPindleS) to ensure proper dynamics of spindle pole microtubules during cell division. We have delineated here the interactions of TACC1 with four proteins, namely the microtubule-associated chTOG (colonic and hepatic tumor-overexpressed gene) protein (ortholog of Drosophila MSPS), the adaptor protein TRAP (tudor repeat associator with PCTAIRE2), the mitotic serine/threonine kinase Aurora A and the mRNA regulator LSM7 (Like-Sm protein 7). To measure the relevance of the TACC1-associated complex in human cancer we have examined the expression of the three TACC, chTOG and Aurora A in breast cancer using immunohistochemistry on tissue microarrays. We show that expressions of TACC1, TACC2, TACC3 and Aurora A are significantly correlated and downregulated in a subset of breast tumors. Using siRNAs, we further show that depletion of chTOG and, to a lesser extent of TACC1, perturbates cell division. We propose that TACC proteins, which we also named 'Taxins', control mRNA translation and cell division in conjunction with microtubule organization and in association with chTOG and Aurora A, and that these complexes and cell processes may be affected during mammary gland oncogenesis.

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Asymmetrically dividing Drosophila neuroblasts utilize two spatially and temporally independent cytokinesis pathways

et al. 2015

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Precise cleavage furrow positioning is required for faithful chromosome segregation and cell fate determinant distribution. In most metazoan cells, contractile ring placement is regulated by the mitotic spindle through the centralspindlin complex, and potentially also the chromosomal passenger complex (CPC). Drosophila neuroblasts, asymmetrically dividing neural stem cells, but also other cells utilize both spindle-dependent and spindle-independent cleavage furrow positioning pathways. However, the relative contribution of each pathway towards cytokinesis is currently unclear. Here we report that in Drosophila neuroblasts, the mitotic spindle, but not polarity cues, controls the localization of the CPC component Survivin. We also show that Survivin and the mitotic spindle are required to stabilize the position of the cleavage furrow in late anaphase and to complete furrow constriction. These results support the model that two spatially and temporally separate pathways control different key aspects during asymmetric cell division, ensuring correct cell fate determinant segregation and neuroblast self-renewal.

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QUAREP-LiMi: a community endeavor to advance quality assessment and reproducibility in light microscopy

et al. 2021

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The community-driven initiative Quality Assessment and Reproducibility for Instruments & Images in Light Microscopy (QUAREP-LiMi) wants to improve reproducibility for light microscopy image data through quality control (QC) management of instruments and images. It aims for a common set of QC guidelines for hardware calibration and image acquisition, management and analysis.quality of light microscopy imaging, please sign up at https://quarep.org/contact/.

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Imaging of native transcription factors and histone phosphorylation at high resolution in live cells

Conic

Desplancq²,

Ferrand

et al. 2018

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Conic et al. introduce a versatile antibody-based imaging approach to track endogenous nuclear factors in living cells. It allows efficient intracellular delivery of any fluorescent dye–conjugated antibody, or Fab fragment, into a variety of cell types. The dynamics of nuclear targets or posttranslational modifications can be monitored with high precision using confocal and super-resolution microscopy.

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QUAREP‐LiMi: A community‐driven initiative to establish guidelines for quality assessment and reproducibility for instruments and images in light microscopy

Nelson

Boehm

Bagley

et al. 2021

Journal of Microscopy

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Aurora B -TACC1 protein complex in cytokinesis

et al. 2004

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Taxins are a family of centrosomal proteins important for the regulation of mitosis and microtubule dynamics. Cytokinesis, the last step of M phase, is essential for chromosomal integrity and cell division. It is highly regulated and involves a reorganization of microtubules and actin filaments. We show here that TACC1 localizes diffusely to the midzone spindle in anaphase and strongly to the midbody during cytokinesis, indicating a possible involvement of this protein in the exit of M phase. TACC1 also relocalizes to the nucleolus in interphase. We demonstrate that TACC1 and the mitotic kinase Aurora B belong to the same complex during cytokinesis. We further show that Aurora B knocked down by RNA-mediated interference prevents the formation of the midbody - and consequently affects TACC1 localization at this site - and leads to abnormal cell division and multinucleated cells.

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Alexia Ferrand

Super-resolution microscopy demystified

Temporal and Spatial Uncoupling of DNA Double Strand Break Repair Pathways within Mammalian Heterochromatin

TACC1–chTOG–Aurora A protein complex in breast cancer

Asymmetrically dividing Drosophila neuroblasts utilize two spatially and temporally independent cytokinesis pathways

QUAREP-LiMi: a community endeavor to advance quality assessment and reproducibility in light microscopy

Imaging of native transcription factors and histone phosphorylation at high resolution in live cells

QUAREP‐LiMi: A community‐driven initiative to establish guidelines for quality assessment and reproducibility for instruments and images in light microscopy

Aurora B -TACC1 protein complex in cytokinesis

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