Michael Melesse scite author profile

SummaryMembers of Cdc14 phosphatases are common in animals and fungi, but absent in plants. Although its orthologs are conserved in plant pathogenic fungi, their functions during infection are not clear. In this study, we showed that the CDC14 ortholog is important for pathogenesis and morphogenesis in Fusarium graminearum. FgCDC14 is required for normal cell division and septum formation and FgCdc14 possesses phosphatase activity with specificity for a subset of Cdk-type phosphorylation sites. The Fgcdc14 mutant was reduced in growth, conidiation, and ascospore formation. It was defective in ascosporogenesis and pathogenesis. Septation in Fgcdc14 was reduced and hyphal compartments contained multiple nuclei, indicating defects in the coordination between nuclear division and cytokinesis. Interestingly, foot cells of mutant conidia often differentiated into conidiogenous cells, resulting in the production of inter-connected conidia. In the interphase, FgCdc14-GFP localized to the nucleus and spindlepole-body. Taken together, our results indicate that Cdc14 phosphatase functions in cell division and septum formation in F. graminearum, likely by counteracting Cdk phosphorylation, and is required for plant infection.

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Substrate Recognition by the Cdh1 Destruction Box Receptor Is a General Requirement for APC/CCdh1-mediated Proteolysis

Qin

Guimarães

Melesse

et al. 2016

Journal of Biological Chemistry

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Aurora B functions at the apical surface after specialized cytokinesis during morphogenesis in C. elegans

Bai

Melesse

Turpin

et al. 2020

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While cytokinesis has been intensely studied, the way it is executed during development is not well understood, despite a long-standing appreciation that various aspects of cytokinesis vary across cell and tissue types. To address this, we investigated cytokinesis during the invariant C. elegans embryonic divisions and found several reproducibly altered parameters at different stages. During early divisions, furrow ingression asymmetry and midbody inheritance is consistent, suggesting specific regulation of these events. During morphogenesis, we found several unexpected alterations to cytokinesis including apical midbody migration in polarizing epithelial cells of the gut, pharynx and sensory neurons. Aurora B kinase, which is essential for several aspects of cytokinesis, remains apically localized in each of these tissues after internalization of midbody ring components. Aurora B inactivation disrupts cytokinesis and causes defects in apical structures, even if inactivated post-mitotically. Therefore, cytokinesis is implemented in a specialized way during epithelial polarization and Aurora B has a new role in the formation of the apical surface.

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Genetic Identification of Separase Regulators inCaenorhabditis elegans

Melesse

Sloan

Benthal

et al. 2018

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Separase is a highly conserved protease required for chromosome segregation. Although observations that separase also regulates membrane trafficking events have been made, it is still not clear how separase achieves this function. Here, we present an extensive ENU mutagenesis suppressor screen aimed at identifying suppressors of sep-1(e2406), a temperature-sensitive maternal effect embryonic lethal separase mutant that primarily attenuates membrane trafficking rather than chromosome segregation. We screened nearly a million haploid genomes and isolated 68 suppressed lines. We identified 14 independent intragenic sep-1(e2406) suppressed lines. These intragenic alleles map to seven SEP-1 residues within the N-terminus, compensating for the original mutation within the poorly conserved N-terminal domain. Interestingly, 47 of the suppressed lines have novel mutations throughout the entire coding region of the pph-5 phosphatase, indicating that this is an important regulator of separase. We also found that a mutation near the MEEVD motif of HSP-90, which binds and activates PPH-5, also rescues sep-1(e2406) mutants. Finally, we identified six potentially novel suppressor lines that fall into five complementation groups. These new alleles provide the opportunity to more exhaustively investigate the regulation and function of separase.

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Multiplexed Imaging of Protein Phosphorylation on Membranes Based on Ti^IV Functionalized Nanopolymers

Iliuk

Melesse

et al. 2016

ChemBioChem

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Accurate protein phosphorylation analysis reveals dynamic cellular signaling events not evident from protein expression levels. The most dominant biochemical assay, western blotting, suffers from the inadequate availability and poor quality of phospho-specific antibodies for phosphorylated proteins. Furthermore, multiplexed assays based on antibodies are limited by steric interference between the antibodies. Here we introduce a multifunctionalized nanopolymer for the universal detection of phosphoproteins that, in combination with regular antibodies, allows multiplexed imaging and accurate determination of protein phosphorylation on membranes.

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Timely Activation of Budding Yeast APCCdh1 Involves Degradation of Its Inhibitor, Acm1, by an Unconventional Proteolytic Mechanism

et al. 2014

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Regulated proteolysis mediated by the ubiquitin proteasome system is a fundamental and essential feature of the eukaryotic cell division cycle. Most proteins with cell cycle-regulated stability are targeted for degradation by one of two related ubiquitin ligases, the Skp1-cullin-F box protein (SCF) complex or the anaphase-promoting complex (APC). Here we describe an unconventional cell cycle-regulated proteolytic mechanism that acts on the Acm1 protein, an inhibitor of the APC activator Cdh1 in budding yeast. Although Acm1 can be recognized as a substrate by the Cdc20-activated APC (APCCdc20) in anaphase, APCCdc20 is neither necessary nor sufficient for complete Acm1 degradation at the end of mitosis. An APC-independent, but 26S proteasome-dependent, mechanism is sufficient for complete Acm1 clearance from late mitotic and G1 cells. Surprisingly, this mechanism appears distinct from the canonical ubiquitin targeting pathway, exhibiting several features of ubiquitin-independent proteasomal degradation. For example, Acm1 degradation in G1 requires neither lysine residues in Acm1 nor assembly of polyubiquitin chains. Acm1 was stabilized though by conditional inactivation of the ubiquitin activating enzyme Uba1, implying some requirement for the ubiquitin pathway, either direct or indirect. We identified an amino terminal predicted disordered region in Acm1 that contributes to its proteolysis in G1. Although ubiquitin-independent proteasome substrates have been described, Acm1 appears unique in that its sensitivity to this mechanism is strictly cell cycle-regulated via cyclin-dependent kinase (Cdk) phosphorylation. As a result, Acm1 expression is limited to the cell cycle window in which Cdk is active. We provide evidence that failure to eliminate Acm1 impairs activation of APCCdh1 at mitotic exit, justifying its strict regulation by cell cycle-dependent transcription and proteolytic mechanisms. Importantly, our results reveal that strict cell-cycle expression profiles can be established independent of proteolysis mediated by the APC and SCF enzymes.

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Cracking the eggshell: A novel link to intracellular signaling

Melesse

Bembenek

2019

Developmental Biology

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Substrate recognition by the Cdh1 destruction box receptor is a general requirement for APC/CCdh1-mediated proteolysis.

Liang¹,

Guimarães²,

Melesse³

et al. 2017

Journal of Biological Chemistry

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There were several errors in this article. In the Cdc5 experiment in Fig. 3A, the anti-G6PD immunoblot image from the Spo13 experiment in Fig. 3B was accidentally duplicated and flipped horizontally. Also in Fig. 3A, the experiment labeled Nrm1 actually shows the results from the Mps1 experiment. In Fig. 4C, the Spo12 stability profile in the wild-type CDH1 strain is identical to that shown in Fig. 3B. In Fig. 4, B and C, a black bar is now used to indicate excision of lanes from the same exposure of the same immunoblot. A white vertical bar is still used to indicate comparison of different exposures where applicable. In Fig. 5A, the original Cdc5 panel showed a G6PD immunoblot image derived from the Kip1 panel shown in Fig. 4C. Although the images were not identical, an examination of the original data revealed that the actual Kip1 membrane was mistakenly used again to generate the G6PD load control image shown for the Cdc5 experiment. As a result, no appropriate load control data exists for the Cdc5 assay in the ABBA motif receptor mutant strain, and this panel has been removed from Fig. 5A. Additionally, in Fig. 5, only the positive results shown in Fig. 5B had three independent experiments. The negative results depicted in Fig. 5A were obtained in either one or two independent experiments. These errors have now been corrected and do not affect the results or conclusions of this work.

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Michael Melesse

FgCDC14 regulates cytokinesis, morphogenesis, and pathogenesis in Fusarium graminearum

Substrate Recognition by the Cdh1 Destruction Box Receptor Is a General Requirement for APC/CCdh1-mediated Proteolysis

Aurora B functions at the apical surface after specialized cytokinesis during morphogenesis in C. elegans

Genetic Identification of Separase Regulators inCaenorhabditis elegans

Multiplexed Imaging of Protein Phosphorylation on Membranes Based on Ti^IV Functionalized Nanopolymers

Timely Activation of Budding Yeast APCCdh1 Involves Degradation of Its Inhibitor, Acm1, by an Unconventional Proteolytic Mechanism

Cracking the eggshell: A novel link to intracellular signaling

Substrate recognition by the Cdh1 destruction box receptor is a general requirement for APC/CCdh1-mediated proteolysis.

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Michael Melesse

FgCDC14 regulates cytokinesis, morphogenesis, and pathogenesis in Fusarium graminearum

Substrate Recognition by the Cdh1 Destruction Box Receptor Is a General Requirement for APC/CCdh1-mediated Proteolysis

Aurora B functions at the apical surface after specialized cytokinesis during morphogenesis in C. elegans

Genetic Identification of Separase Regulators inCaenorhabditis elegans

Multiplexed Imaging of Protein Phosphorylation on Membranes Based on TiIV Functionalized Nanopolymers

Timely Activation of Budding Yeast APCCdh1 Involves Degradation of Its Inhibitor, Acm1, by an Unconventional Proteolytic Mechanism

Cracking the eggshell: A novel link to intracellular signaling

Substrate recognition by the Cdh1 destruction box receptor is a general requirement for APC/CCdh1-mediated proteolysis.

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Multiplexed Imaging of Protein Phosphorylation on Membranes Based on Ti^IV Functionalized Nanopolymers