Takao Ishikawa scite author profile

Protein histidine methylation is a rare post-translational modification of unknown biochemical importance. In vertebrates, only a few methylhistidine-containing proteins have been reported, including β-actin as an essential example. The evolutionary conserved methylation of β-actin H73 is catalyzed by an as yet unknown histidine N-methyltransferase. We report here that the protein SETD3 is the actin-specific histidine N-methyltransferase. In vitro, recombinant rat and human SETD3 methylated β-actin at H73. Knocking-out SETD3 in both human HAP1 cells and in Drosophila melanogaster resulted in the absence of methylation at β-actin H73 in vivo, whereas β-actin from wildtype cells or flies was > 90% methylated. As a consequence, we show that Setd3-deficient HAP1 cells have less cellular F-actin and an increased glycolytic phenotype. In conclusion, by identifying SETD3 as the actin-specific histidine N-methyltransferase, our work pioneers new research into the possible role of this modification in health and disease and questions the substrate specificity of SET-domain-containing enzymes.

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Distribution of Conventional and Nonconventional Introns in Tubulin (α and β) Genes of Euglenids

Milanowski¹,

Karnkowska²,

Ishikawa³

et al. 2013

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The nuclear genomes of euglenids contain three types of introns: conventional spliceosomal introns, nonconventional introns for which a splicing mechanism is unknown (variable noncanonical borders, RNA secondary structure bringing together intron ends), and so-called intermediate introns, which combine features of conventional and nonconventional introns. Analysis of two genes, tubA and tubB, from 20 species of euglenids reveals contrasting distribution patterns of conventional and nonconventional introns—positions of conventional introns are conserved, whereas those of the nonconventional ones are unique to individual species or small groups of closely related taxa. Moreover, in the group of phototrophic euglenids, 11 events of conventional intron loss versus 15 events of nonconventional intron gain were identified. A comparison of all nonconventional intron sequences highlighted the most conserved elements in their sequence and secondary structure. Our results led us to put forward two hypotheses. 1) The first one posits that mutational changes in intron sequence could lead to a change in their excision mechanism—intermediate introns would then be a transitional form between the conventional and nonconventional introns. 2) The second hypothesis concerns the origin of nonconventional introns—because of the presence of inverted repeats near their ends, insertion of MITE-like transposon elements is proposed as a possible source of new introns.

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On the daily incremental lines in human dentine

Kawasaki

Tanaka

Ishikawa

1979

Archives of Oral Biology

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Subnuclear Localization of Human Topoisomerase I

et al. 2016

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Human topoisomerase I is partitioned between the nucleolus and the nucleoplasm in the interphase cells. Under unstressed conditions it is concentrated in the first compartment but nucleolar concentration of the full length protein is lost after inactivation of relaxation activity. Due to the above, subnuclear localization of topoisomerase I is linked with DNA relaxation activity of topoisomerase I. Looking for other factors responsible for subnuclear distribution of topoisomerase I, we studied here localization of the fluorescently tagged fragments and point mutants of topoisomerase I in HeLa cells. We found that two regions of topoisomerase I, the N-terminal and the linker domains, were critical for subnuclear localization of the enzyme. The linker domain and the distal region of the N-terminal domain directed topoisomerase I to the nucleolus, whereas the remaining region of the N-terminal domain was responsible for the nucleoplasmic localization. The effects exhibited by the regions which contributed to nuclear distribution of topoisomerase I were independent of DNA relaxation activity. Localization mutations in both domains complemented one another giving the wild-type phenotype for the double mutant. These results suggest a two-stage model of regulation of partitioning of topoisomerase I between the nucleolus and the nucleoplasm. The first stage is a net of interactions provided by the N-terminal and the linker domains. The other stage, accessible only if the first net is balanced, is driven by DNA relaxation activity. J. Cell. Biochem. 118: 407-419, 2017. © 2016 Wiley Periodicals, Inc.

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IgSF molecule MDGA1 is involved in radial migration and positioning of a subset of cortical upper‐layer neurons

Ishikawa

Gotoh

Murayama

et al. 2010

Developmental Dynamics

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*Mdga1, encoding a GPI-anchored immunoglobulin superfamily molecule containing an MAM domain, is expressed by a specific subset of neurons, including layer II/III projection neurons, in the mouse neocortex. To investigate the function of Mdga1 in corticogenesis, we generated Mdga1-deficient mice and backcrossed them to obtain a congenic background. Gross anatomy of the Mdga1-deficient brain at postnatal day (P) 14 showed no obvious phenotype. However, the migration of Mdga1-mutant neurons to the superficial cortical plate was clearly delayed. Most Mdga1-mutant neurons reached the lower portion of the upper cortical layer by embryonic day 18.5 and stayed there through P0. By P7, the location of the mutant cells was the same as wild-type. The location of Cux2-expressing upper-layer neurons in the cortical plate was largely unaffected. These observations indicated that Mdga1 is involved in the migration and positioning of a subset of cortical neurons and suggested that the radial migration of upper-layer neurons might be differentially regulated. Developmental Dynamics 240:96-107,

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Takao Ishikawa

SETD3 protein is the actin-specific histidine N-methyltransferase

Distribution of Conventional and Nonconventional Introns in Tubulin (α and β) Genes of Euglenids

On the daily incremental lines in human dentine

Subnuclear Localization of Human Topoisomerase I

IgSF molecule MDGA1 is involved in radial migration and positioning of a subset of cortical upper‐layer neurons

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