Strategies for Implementing and Sustaining Therapeutic Lifestyle Changes as Part of Hypertension Management in African Americans

A novel human protein with a molecular mass of 55 kD, designated RanBPM, was isolated with the two-hybrid method using Ran as a bait. Mouse and hamster RanBPM possessed a polypeptide identical to the human one. Furthermore, Saccharomyces cerevisiae was found to have a gene, YGL227w, the COOH-terminal half of which is 30% identical to RanBPM. Anti-RanBPM antibodies revealed that RanBPM was localized within the centrosome throughout the cell cycle. Overexpression of RanBPM produced multiple spots which were colocalized with γ-tubulin and acted as ectopic microtubule nucleation sites, resulting in a reorganization of microtubule network. RanBPM cosedimented with the centrosomal fractions by sucrose- density gradient centrifugation. The formation of microtubule asters was inhibited not only by anti- RanBPM antibodies, but also by nonhydrolyzable GTP-Ran. Indeed, RanBPM specifically interacted with GTP-Ran in two-hybrid assay. The central part of asters stained by anti-RanBPM antibodies or by the mAb to γ-tubulin was faded by the addition of GTPγS-Ran, but not by the addition of anti-RanBPM anti- bodies. These results provide evidence that the Ran-binding protein, RanBPM, is involved in microtubule nucleation, thereby suggesting that Ran regulates the centrosome through RanBPM.

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Impacts of influencer attributes on purchase intentions in social media influencer marketing: Mediating roles of characterizations

Masuda

Han

Lee

2022

Technological Forecasting and Social Change

171

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Fission Yeast Kinesin-8 Klp5 and Klp6 Are Interdependent for Mitotic Nuclear Retention and Required for Proper Microtubule Dynamics

Unsworth

Masuda

Dhut

et al. 2008

MBoC

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Fission yeast has two kinesin-8s, Klp5 and Klp6, which associate to form a heterocomplex. Here, we show that Klp5 and Klp6 are mutually dependent on each other for nuclear mitotic localization. During interphase, they are exported to the cytoplasm. In sharp contrast, during mitosis, Klp5 and Klp6 remain in the nucleus, which requires the existence of each counterpart. Canonical nuclear localization signal (NLS) is identified in the nonkinesin C-terminal regions. Intriguingly individual NLS mutants (NLSmut) exhibit loss-of-function phenotypes, suggesting that Klp5 and Klp6 enter the nucleus separately. Indeed, although neither Klp5-NLSmut nor Klp6-NLSmut enters the nucleus, wild-type Klp6 or Klp5, respectively, does so with different kinetics. In the absence of Klp5/6, microtubule catastrophe/rescue frequency and dynamicity are suppressed, whereas growth and shrinkage rates are least affected. Remarkably, chimera strains containing only the N-terminal Klp5 kinesin domains cannot disassemble interphase microtubules during mitosis, leading to the coexistence of cytoplasmic microtubules and nuclear spindles with massive chromosome missegregation. In this strain, a marked reduction of microtubule dynamism, even higher than in klp5/6 deletions, is evident. We propose that Klp5 and Klp6 play a vital role in promoting microtubule dynamics, which is essential for the spatiotemporal control of microtubule morphogenesis.

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Essential role of tubulin-folding cofactor D in microtubule assembly and its association with microtubules in fission yeast

Hirata

Masuda

Eddison

et al. 1998

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The main structural components of microtubules are alpha- and beta-tubulins. A group of proteins called cofactors are crucial in the formation of assembly-competent tubulin molecules in vitro. Whilst an in vitro role is emerging for these cofactors, their biological functions in vivo remain to be established. In order to understand the fundamental mechanisms that determine cell polarity, we have screened for fission yeast mutants with altered polarity. Here we show that alp1+ encodes a homologue of cofactor D and executes a function essential for cell viability. A temperature-sensitive alp1 mutant shows a variety of defects including abnormal mitoses, loss of microtubule structures, displacement of the nucleus, altered growth polarity and asymmetrical cell division. Overexpression of Alp1 is lethal in wild-type cells, resulting in altered cell shape, but is rescued by co-overexpression of beta-tubulin. Alp1 co-localizes with microtubules, both interphase arrays and mitotic spindles. Furthermore, Alp1 binds to and co-sediments with taxol (paclitaxel)-stabilized porcine microtubules. Our results suggest that, in addition to a function in the folding of beta-tubulin, cofactor D may play a vital role in microtubule-dependent processes as a microtubule-associated protein.

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Fission yeast MOZART1/Mzt1 is an essential γ-tubulin complex component required for complex recruitment to the microtubule organizing center, but not its assembly

Masuda

Mori

Yukawa

et al. 2013

MBoC

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A microtubule nucleator γ-tubulin forms a multiprotein complex (γ-tubulin complex or γ-TuC), which localizes to the microtubule organizing centers (MTOCs). We identify fission yeast Mzt1/MOZART1 as a novel conserved stoichiometric component of the γ-TuC. Mzt1 is required for cell viability, microtubule organization, and γ-TuC localization to the MTOCs, yet the core γ-TuC assembles in its absence.

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The role of tubulin polymerization during spindle elongation in vitro

Masuda

Cande

1987

Cell

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Transport and Magnetic Properties of R_1-xA_xCoO₃(R = La, Pr and Nd; A = Ba, Sr and Ca)

et al. 2003

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Localization of gene products using a chromosomally tagged GFP‐fusion library in the fission yeast Schizosaccharomyces pombe

Hayashi¹,

Ding²,

Tsutsumi³

et al. 2009

Genes to Cells

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We constructed a library of chromosomally-tagged green fluorescent protein (GFP) fusions in the fission yeast Schizosaccharomyces pombe. This library contains 1058 strains. In each strain, the coding sequence of GFP is integrated at the 3′-end of a particular chromosomal ORF such that the fulllength GFP fusion construct is expressed under the control of the original promoter. Integration of the GFP coding sequence at the authentic chromosomal location of each gene was confirmed by PCR. Microscopic screening of these strains detected sufficient levels of GFP signal in 710 strains and allowed assignment of these GFP-fusion gene products with their intracellular localization: 374 proteins were localized in the nucleus, 65 proteins in the nucleolus, 34 proteins at the nuclear periphery, 27 proteins at the plasma membrane and cytoplasmic membranous structures, 24 proteins at the spindle pole body and microtubules, 92 proteins at cytoplasmic structures, and 94 proteins were uniformly distributed throughout the cytoplasm.

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Hisashi Masuda

When Overexpressed, a Novel Centrosomal Protein, RanBPM, Causes Ectopic Microtubule Nucleation Similar to γ-Tubulin

Impacts of influencer attributes on purchase intentions in social media influencer marketing: Mediating roles of characterizations

Fission Yeast Kinesin-8 Klp5 and Klp6 Are Interdependent for Mitotic Nuclear Retention and Required for Proper Microtubule Dynamics

Essential role of tubulin-folding cofactor D in microtubule assembly and its association with microtubules in fission yeast

Fission yeast MOZART1/Mzt1 is an essential γ-tubulin complex component required for complex recruitment to the microtubule organizing center, but not its assembly

The role of tubulin polymerization during spindle elongation in vitro

Transport and Magnetic Properties of R_1-xA_xCoO₃(R = La, Pr and Nd; A = Ba, Sr and Ca)

Localization of gene products using a chromosomally tagged GFP‐fusion library in the fission yeast Schizosaccharomyces pombe

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Hisashi Masuda

When Overexpressed, a Novel Centrosomal Protein, RanBPM, Causes Ectopic Microtubule Nucleation Similar to γ-Tubulin

Impacts of influencer attributes on purchase intentions in social media influencer marketing: Mediating roles of characterizations

Fission Yeast Kinesin-8 Klp5 and Klp6 Are Interdependent for Mitotic Nuclear Retention and Required for Proper Microtubule Dynamics

Essential role of tubulin-folding cofactor D in microtubule assembly and its association with microtubules in fission yeast

Fission yeast MOZART1/Mzt1 is an essential γ-tubulin complex component required for complex recruitment to the microtubule organizing center, but not its assembly

The role of tubulin polymerization during spindle elongation in vitro

Transport and Magnetic Properties of R1-xAxCoO3(R = La, Pr and Nd; A = Ba, Sr and Ca)

Localization of gene products using a chromosomally tagged GFP‐fusion library in the fission yeast Schizosaccharomyces pombe

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Product

Resources

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Transport and Magnetic Properties of R_1-xA_xCoO₃(R = La, Pr and Nd; A = Ba, Sr and Ca)