Manos Mavrakis scite author profile

Animal cell cytokinesis requires a contractile ring of crosslinked actin filaments and myosin motors. How contractile rings form and are stabilized in dividing cells remains unclear. We address this problem by focusing on septins, highly conserved proteins in eukaryotes whose precise contribution to cytokinesis remains elusive. We use the cleavage of the Drosophila melanogaster embryo as a model system, where contractile actin rings drive constriction of invaginating membranes to produce an epithelium in a manner akin to cell division. In vivo functional studies show that septins are required for generating curved and tightly packed actin filament networks. In vitro reconstitution assays show that septins alone bundle actin filaments into rings, accounting for the defects in actin ring formation in septin mutants. The bundling and bending activities are conserved for human septins, and highlight unique functions of septins in the organization of contractile actomyosin rings.

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Homeostatic Mechanisms for Iron Storage Revealed by Genetic Manipulations and Live Imaging of Drosophila Ferritin

Missirlis

et al. 2007

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Ferritin is a symmetric, 24-subunit iron-storage complex assembled of H and L chains. It is found in bacteria, plants, and animals and in two classes of mutations in the human L-chain gene, resulting in hereditary hyperferritinemia cataract syndrome or in neuroferritinopathy. Here, we examined systemic and cellular ferritin regulation and trafficking in the model organism Drosophila melanogaster. We showed that ferritin H and L transcripts are coexpressed during embryogenesis and that both subunits are essential for embryonic development. Ferritin overexpression impaired the survival of iron-deprived flies. In vivo expression of GFP-tagged holoferritin confirmed that iron-loaded ferritin molecules traffic through the Golgi organelle and are secreted into hemolymph. A constant ratio of ferritin H and L subunits, secured via tight post-transcriptional regulation, is characteristic of the secreted ferritin in flies. Differential cellular expression, conserved post-transcriptional regulation via the iron regulatory element, and distinct subcellular localization of the ferritin subunits prior to the assembly of holoferritin are all important steps mediating iron homeostasis. Our study revealed both conserved features and insect-specific adaptations of ferritin nanocages and provides novel imaging possibilities for their in vivo characterization.

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Expanding plastics recycling technologies: chemical aspects, technology status and challenges

et al. 2022

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Quantitative nanoscale imaging of orientational order in biological filaments by polarized superresolution microscopy

Valades-Cruz

Shaban

Kress

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

120

135

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Essential cellular functions as diverse as genome maintenance and tissue morphogenesis rely on the dynamic organization of filamentous assemblies. For example, the precise structural organization of DNA filaments has profound consequences on all DNA-mediated processes including gene expression, whereas control over the precise spatial arrangement of cytoskeletal protein filaments is key for mechanical force generation driving animal tissue morphogenesis. Polarized fluorescence is currently used to extract structural organization of fluorescently labeled biological filaments by determining the orientation of fluorescent labels, however with a strong drawback: polarized fluorescence imaging is indeed spatially limited by optical diffraction, and is thus unable to discriminate between the intrinsic orientational mobility of the fluorophore labels and the real structural disorder of the labeled biomolecules. Here, we demonstrate that quantitative single-molecule polarized detection in biological filament assemblies allows not only to correct for the rotational flexibility of the label but also to image orientational order of filaments at the nanoscale using superresolution capabilities. The method is based on polarized direct stochastic optical reconstruction microscopy, using dedicated optical scheme and image analysis to determine both molecular localization and orientation with high precision. We apply this method to double-stranded DNA in vitro and microtubules and actin stress fibers in whole cells.iological processes are inherently driven by the molecularscale organization of biomolecular assemblies, which arrange in precise structures that are essential for biological functions in cells and tissues. The extent to which the biological function depends on the underlying molecular-scale organization is particularly evident in filamentous assemblies, such as DNA filaments and cytoskeletal protein filaments. Changes in the local higher-order organization of DNA filaments is tightly linked to essential DNA-mediated processes including control of gene expression, DNA replication, and DNA repair. However, how specific DNA-binding proteins affect DNA filament architecture and thus DNA-mediated functions is poorly understood (1). Similarly, the spatial organization of cytoskeletal filaments in cells and tissues is also weakly explored, despite their central role in generating forces and driving cell motility, cell division, and tissue morphogenesis (2). Electron microscopy has been widely used to provide molecular-scale images of the structure of such filament assemblies; however, it typically involves several daylong sample preparation and ultrathin sectioning of the biological material, thus limiting investigations in whole cells and tissues.Polarized fluorescence imaging is a powerful approach for elucidating the structural organization of filament assemblies because it is compatible with a wide variety of microscopy techniques, thus enabling studies across multiple spatial and temporal scales. Polarized fluorescenc...

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Rab9 GTPase Is Required for Replication of Human Immunodeficiency Virus Type 1, Filoviruses, and Measles Virus

Murray

Mavrakis

McDonald

et al. 2005

J Virol

133

127

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Rab proteins and their effectors facilitate vesicular transport by tethering donor vesicles to their respective target membranes. By using gene trap insertional mutagenesis, we identified Rab9, which mediates lateendosome-to-trans-Golgi-network trafficking, among several candidate host genes whose disruption allowed the survival of Marburg virus-infected cells, suggesting that Rab9 is utilized in Marburg replication. Although Rab9 has not been implicated in human immunodeficiency virus (HIV) replication, previous reports suggested that the late endosome is an initiation site for HIV assembly and that TIP47-dependent trafficking out of the late endosome to the trans-Golgi network facilitates the sorting of HIV Env into virions budding at the plasma membrane. We examined the role of Rab9 in the life cycles of HIV and several unrelated viruses, using small interfering RNA (siRNA) to silence Rab9 expression before viral infection. Silencing Rab9 expression dramatically inhibited HIV replication, as did silencing the host genes encoding TIP47, p40, and PIKfyve, which also facilitate late-endosome-to-trans-Golgi vesicular transport. In addition, silencing studies revealed that HIV replication was dependent on the expression of Rab11A, which mediates trans-Golgi-to-plasma-membrane transport, and that increased HIV Gag was sequestered in a CD63؉ endocytic compartment in a cell line stably expressing Rab9 siRNA. Replication of the enveloped Ebola, Marburg, and measles viruses was inhibited with Rab9 siRNA, although the nonenveloped reovirus was insensitive to Rab9 silencing. These results suggest that Rab9 is an important cellular target for inhibiting diverse viruses and help to define a late-endosome-toplasma-membrane vesicular transport pathway important in viral assembly.Most developed antiviral drugs have been designed to inhibit the function of viral proteins. In the case of human immunodeficiency virus (HIV), an unfortunate consequence of using drugs that target viral proteins has been the emergence of drug-resistant virions having compensatory genetic mutations (8,20). An alternative approach is to identify cellular genes essential for the viral life cycle, but not essential for the more genetically diverse host cell, and then to develop agents that inhibit their expression or function. In principle, such an approach may pose an insurmountable barrier against viral replication, as resistance would arise from a complex adaptation to use a different cellular protein for viral replication. There are several examples where a partial or complete resistance to pathogens results from the loss of expression or function of a critical host gene. Examples include the high degree of protection against HIV transmission afforded to individuals homozygous for a dysfunctional allele of CCR5 (a major HIV coreceptor) and the complete resistance to Plasmodium vivax malaria infection of individuals lacking expression of the erythrocyte receptor DARC (26,38).We have used gene trap insertional mutagenesis (58) as a high-throughput for...

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Structure and Function of the C-terminal Domain of the Polymerase Cofactor of Rabies Virus

Mavrakis

McCarthy

Roche

et al. 2004

Journal of Molecular Biology

110

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The phosphoprotein (P) of rabies virus binds the viral polymerase to the nucleoprotein (N)-RNA template for transcription and replication. By limited protease digestion we defined a monomeric C-terminal domain of P that can bind to N-RNA. The atomic structure of this domain was determined and previously described mutations that interfere with binding of P to N-RNA could now be interpreted. There appears to be two features involved in this activity situated at opposite surfaces of the molecule: a positively charged patch and a hydrophobic pocket with an exposed tryptophan side-chain. Other previously published work suggests a conformational change in P when it binds to N-RNA, which may imply the repositioning of two helices that would expose a hydrophobic groove for interaction with N. This domain of rabies virus P is structurally unrelated to the N-RNA binding domains of the phosphoproteins of Sendai and measles virus that are members of the same order of viruses, the non-segmented negative strand RNA viruses. The implications of this finding for the evolution of this virus group are discussed.

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Plasma Membrane Polarity and Compartmentalization Are Established before Cellularization in the Fly Embryo

2009

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Summary Patterning in the Drosophila embryo requires local activation and dynamics of proteins in the plasma membrane (PM). We used in vivo fluorescence imaging to characterize the organization and diffusional properties of the PM in the early embryonic syncytium. Before cellularization, the PM is polarized into discrete domains having epithelial-like characteristics. One domain resides above individual nuclei and has apical-like characteristics, while the other domain is lateral to nuclei and contains markers associated with basolateral membranes and junctions. Pulse-chase photoconversion experiments show that molecules can diffuse within each domain but do not exchange between PM regions above adjacent nuclei. Drug-induced F-actin depolymerization disrupted both the apicobasal-like polarity and the diffusion barriers within the syncytial PM. These events correlated with perturbations in the spatial pattern of dorsoventral Toll signaling. We propose that epithelial-like properties and an intact F-actin network compartmentalize the PM and shape morphogen gradients in the syncytial embryo.

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The 12Å Structure of Trypsin-treated Measles Virus N–RNA

Schoehn

Mavrakis

Albertini

et al. 2004

Journal of Molecular Biology

101

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Manos Mavrakis

Septins promote F-actin ring formation by crosslinking actin filaments into curved bundles

Homeostatic Mechanisms for Iron Storage Revealed by Genetic Manipulations and Live Imaging of Drosophila Ferritin

Expanding plastics recycling technologies: chemical aspects, technology status and challenges

Quantitative nanoscale imaging of orientational order in biological filaments by polarized superresolution microscopy

Rab9 GTPase Is Required for Replication of Human Immunodeficiency Virus Type 1, Filoviruses, and Measles Virus

Structure and Function of the C-terminal Domain of the Polymerase Cofactor of Rabies Virus

Plasma Membrane Polarity and Compartmentalization Are Established before Cellularization in the Fly Embryo

The 12Å Structure of Trypsin-treated Measles Virus N–RNA

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