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2. Nonmuscle myosin IIA and IIB differently suppress microtubule growth to stabilize cell morphology

Author

Yuta Sato, Keiju Kamijo, Yota Murakami, Motosuke Tsutsumi, and Masayuki Takahashi

Subjects
Cell morphology, Microtubules, Biochemistry, Contractility, 03 medical and health sciences, Microtubule, RNA interference, Tumor Cells, Cultured, Humans, Cytoskeleton, Cell Shape, Molecular Biology, Actin, 030304 developmental biology, 0303 health sciences, Nonmuscle Myosin Type IIB, biology, Chemistry, Nonmuscle Myosin Type IIA, 030302 biochemistry & molecular biology, General Medicine, Cell biology, Crosstalk (biology), Formins, biology.protein
Abstract

Precise regulation of cytoskeletal dynamics is important in many fundamental cellular processes such as cell shape determination. Actin and microtubule (MT) cytoskeletons mutually regulate their stability and dynamics. Nonmuscle myosin II (NMII) is a candidate protein that mediates the actin–MT crosstalk. NMII regulates the stability and dynamics of actin filaments to control cell morphology. Additionally, previous reports suggest that NMII-dependent cellular contractility regulates MT dynamics, and MTs also control cell morphology; however, the detailed mechanism whereby NMII regulates MT dynamics and the relationship among actin dynamics, MT dynamics and cell morphology remain unclear. The present study explores the roles of two well-characterized NMII isoforms, NMIIA and NMIIB, on the regulation of MT growth dynamics and cell morphology. We performed RNAi and drug experiments and demonstrated the NMII isoform-specific mechanisms—NMIIA-dependent cellular contractility upregulates the expression of some mammalian diaphanous-related formin (mDia) proteins that suppress MT dynamics; NMIIB-dependent inhibition of actin depolymerization suppresses MT growth independently of cellular contractility. The depletion of either NMIIA or NMIIB resulted in the increase in cellular morphological dynamicity, which was alleviated by the perturbation of MT dynamics. Thus, the NMII-dependent control of cell morphology significantly relies on MT dynamics.

Published
2019

3. Author response: 3DeeCellTracker, a deep learning-based pipeline for segmenting and tracking cells in 3D time lapse images

Author

Chentao Wen, Venkatakaushik Voleti, Takeshi Ishihara, Kazuhiro Aoki, Kei Yamamoto, Yukako Fujie, Elizabeth M. C. Hillman, Takuya Miura, Kazushi Yamaguchi, Tomomi Nemoto, Takayuki Teramoto, Koutarou D. Kimura, Kohei Otomo, and Motosuke Tsutsumi

Subjects
Computer science, business.industry, Pipeline (computing), Deep learning, Computer vision, Artificial intelligence, Tracking (particle physics), business
Published
2021

4. Developmental dynamics of butterfly wings: real-time in vivo whole-wing imaging of twelve butterfly species

Author

Masaki Iwata, Motosuke Tsutsumi, and Joji M. Otaki

Subjects
0106 biological sciences, 0301 basic medicine, Scale (anatomy), Time Factors, animal structures, lcsh:Medicine, Zoology, Biology, 010603 evolutionary biology, 01 natural sciences, Article, 03 medical and health sciences, Imaging, Three-Dimensional, Species Specificity, Biological Metamorphosis, Animals, Wings, Animal, lcsh:Science, Multidisciplinary, Wing, Pigmentation, lcsh:R, Pupa, Fourth stage, Pigment deposition, Developmental dynamics, 030104 developmental biology, Butterfly, lcsh:Q, Butterflies
Abstract

Colour pattern development of butterfly wings has been studied from several different approaches. However, developmental changes in the pupal wing tissues have rarely been documented visually. In this study, we recorded real-time developmental changes of the pupal whole wings of 9 nymphalid, 2 lycaenid, and 1 pierid species in vivo, from immediately after pupation to eclosion, using the forewing-lift method. The developmental period was roughly divided into four sequential stages. At the very early stage, the wing tissue was transparent, but at the second stage, it became semi-transparent and showed dynamic peripheral adjustment and slow low-frequency contractions. At this stage, the wing peripheral portion diminished in size, but simultaneously, the ventral epithelium expanded in size. Likely because of scale growth, the wing tissue became deeply whitish at the second and third stages, followed by pigment deposition and structural colour expression at the fourth stage. Some red or yellow (light-colour) areas that emerged early were “overpainted” by expanding black areas, suggesting the coexistence of two morphogenic signals in some scale cells. The discal spot emerged first in some nymphalid species, as though it organised the entire development of colour patterns. These results indicated the dynamic wing developmental processes common in butterflies.

Published
2018

5. A Novel Katanin-Tethering Machinery Accelerates Cytokinesis

Author

Tomomi Nemoto, Masayoshi Nakamura, Motosuke Tsutsumi, Yoshihisa Oda, Mitsuyasu Hasebe, Takashi Murata, Noriyoshi Yagi, Takema Sasaki, and Kohei Otomo

Subjects
0301 basic medicine, Arabidopsis, Gene Expression, Katanin, Phragmoplast, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, Phragmoplast assembly, Microtubule, Mitosis, Cytokinesis, biology, Arabidopsis Proteins, Preprophase, Gene Expression Profiling, Plants, Genetically Modified, Cell biology, 030104 developmental biology, biology.protein, General Agricultural and Biological Sciences, Microtubule-Associated Proteins, Cortical microtubule, 030217 neurology & neurosurgery
Abstract

Summary Cytokinesis is fundamental for cell proliferation [ 1 , 2 ]. In plants, a bipolar short-microtubule array forms the phragmoplast, which mediates vesicle transport to the midzone and guides the formation of cell walls that separate the mother cell into two daughter cells [ 2 ]. The phragmoplast centrifugally expands toward the cell cortex to guide cell-plate formation at the cortical division site [ 3 , 4 ]. Several proteins in the phragmoplast midzone facilitate the anti-parallel bundling of microtubules and vesicle accumulation [ 5 ]. However, the mechanisms by which short microtubules are maintained during phragmoplast development, in particular, the behavior of microtubules at the distal zone of phragmoplasts, are poorly understood. Here, we show that a plant-specific protein, CORTICAL MICROTUBULE DISORDERING 4 (CORD4), tethers the conserved microtubule-severing protein katanin to facilitate formation of the short-microtubule array in phragmoplasts. CORD4 was specifically expressed during mitosis and localized to preprophase bands and phragmoplast microtubules. Custom-made two-photon spinning disk confocal microscopy revealed that CORD4 rapidly localized to microtubules in the distal phragmoplast zone during phragmoplast assembly at late anaphase and persisted throughout phragmoplast expansion. Loss of CORD4 caused abnormally long and oblique phragmoplast microtubules and slow expansion of phragmoplasts. The p60 katanin subunit, KTN1, localized to the distal phragmoplast zone in a CORD4-dependent manner. These results suggest that CORD4 tethers KTN1 at phragmoplasts to modulate microtubule length, thereby accelerating phragmoplast growth. This reveals the presence of a distinct machinery to accelerate cytokinesis by regulating the action of katanin.

Published
2019

6. Advanced easySTED microscopy based on two-photon excitation by electrical modulations of light pulse wavefronts

Author

Terumasa Hibi, Jui-Hung Hung, Motosuke Tsutsumi, Yi Cheng Fang, Hiroyuki Yokoyama, Ryosuke Kawakami, Kohei Otomo, and Tomomi Nemoto

Subjects
0301 basic medicine, Materials science, Laser diode, Super-resolution microscopy, business.industry, STED microscopy, 01 natural sciences, Atomic and Molecular Physics, and Optics, law.invention, 010309 optics, Lens (optics), 03 medical and health sciences, 030104 developmental biology, Optics, Two-photon excitation microscopy, law, 0103 physical sciences, Microscopy, Stimulated emission, business, Optical vortex, Biotechnology
Abstract

We developed a compact stimulated emission depletion (STED) two-photon excitation microscopy that utilized electrically controllable components. Transmissive liquid crystal devices inserted directly in front of the objective lens converted the STED light into an optical vortex while leaving the excitation light unaffected. Light pulses of two different colors, 1.06 and 0.64 mu m, were generated by laser diode-based light sources, and the delay between the two pulses was flexibly controlled so as to maximize the fluorescence suppression ratio. In our experiments, the spatial resolution of this system was up to three times higher than that obtained without STED light irradiation, and we successfully visualize the fine microtubule network structures in fixed mammalian cells without causing significant photo-damage. (C) 2018 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

Published
2017

7. Secondary Structure Characterization Based on Amino Acid Composition and Availability in Proteins

Author

Motosuke Tsutsumi, Tomonori Gotoh, Haruhiko Yamamoto, and Joji M. Otaki

Subjects
General Chemical Engineering, Proteins, General Chemistry, Library and Information Sciences, Biology, Protein Structure, Secondary, Computer Science Applications, Characterization (materials science), Amino acid composition, Biochemistry, Chou–Fasman method, Amino Acid Sequence, Databases, Protein, Protein secondary structure
Abstract

The importance of thorough analyses of the secondary structures in proteins as basic structural units cannot be overemphasized. Although recent computational methods have achieved reasonably high accuracy for predicting secondary structures from amino acid sequences, a simple and fundamental empirical approach to characterize the amino acid composition of secondary structures was performed mainly in 1970s, with a small number of analyzed structures. To extend this classical approach using a large number of analyzed structures, here we characterized the amino acid sequences of secondary structures (12 154 alpha-helix units, 4592 3(10)-helix units, 16 787 beta-strand units, and 30 811 "other" units), using the representative three-dimensional protein structure records (1641 protein chains) from the Protein Data Bank. We first examined the length and the amino acid compositions of secondary structures, including rank order differences and assignment relationships among amino acids. These compositional results were largely, but not entirely, consistent with the previous studies. In addition, we examined the frequency of 400 amino acid doublets and 8000 triplets in secondary structures based on their relative counts, termed the availability. We identified not only some triplets that were specific to a certain secondary structure but also so-called zero-count triplets, which did not occur in a given secondary structure at all, even though they were probabilistically predicted to occur several times. Taken together, the present study revealed essential features of secondary structures and suggests potential applications in the secondary structure prediction and the functional design of protein sequences.

Published
2010

8. Expression, purification and characterization of the recombinant cysteine-rich antimicrobial peptide snakin-1 in Pichia pastoris

Author

Md. Ruhul Kuddus, Rika Takahashi, Takashi Kikukawa, Megumi Yamano, Farhana Rumi, Tomoyasu Aizawa, Makoto Demura, Motosuke Tsutsumi, and Masakatsu Kamiya

Subjects
0106 biological sciences, 0301 basic medicine, Membrane permeability, Peptide, Biology, medicine.disease_cause, 01 natural sciences, Pichia, Microbiology, law.invention, Pichia pastoris, 03 medical and health sciences, Transformation, Genetic, Anti-Infective Agents, law, medicine, Humans, Cloning, Molecular, Escherichia coli, Plant Proteins, Solanum tuberosum, chemistry.chemical_classification, Bacteria, Fungi, Bacterial Infections, Antimicrobial, biology.organism_classification, Recombinant Proteins, 030104 developmental biology, Biochemistry, chemistry, Mycoses, Recombinant DNA, Bacterial outer membrane, 010606 plant biology & botany, Biotechnology
Abstract

Snakin-1 (SN-1) is a small cysteine-rich plant antimicrobial peptide with broad spectrum antimicrobial activity which was isolated from potato (Solanum tuberosum). Here, we carried out the expression of a recombinant SN-1 in the methylotrophic yeast Pichia pastoris, along with its purification and characterization. A DNA fragment encoding the mature SN-1 was cloned into pPIC9 vector and introduced into P. pastoris. A large amount of pure recombinant SN-1 (approximately 40 mg/1L culture) was obtained from a fed-batch fermentation culture after purification with a cation exchange column followed by RP-HPLC. The identity of the recombinant SN-1 was verified by MALDI-TOF MS, CD and (1)H NMR experiments. All these data strongly indicated that the recombinant SN-1 peptide had a folding with six disulfide bonds that was identical to the native SN-1. Our findings showed that SN-1 exhibited strong antimicrobial activity against test microorganisms and produced very weak hemolysis of mammalian erythrocytes. The mechanism of its antimicrobial action against Escherichia coli was investigated by both outer membrane permeability assay and cytoplasmic membrane depolarization assay. These assays demonstrated that SN-1 is a membrane-active antimicrobial peptide which can disrupt both outer and cytoplasmic membrane integrity. This is the first report on the recombinant expression and purification of a fully active SN-1 in P. pastoris.

Published
2015

9. Parallel and antiparallel β-strands differ in amino acid composition and availability of short constituent sequences

Author

Motosuke Tsutsumi and Joji M. Otaki

Subjects
chemistry.chemical_classification, Chemistry, Stereochemistry, General Chemical Engineering, Beta hairpin, Computational Biology, Proteins, macromolecular substances, General Chemistry, computer.file_format, Library and Information Sciences, Protein Data Bank, Antiparallel (biochemistry), Protein Structure, Secondary, Computer Science Applications, Amino acid, Protein structure, Leucine, Isoleucine, Amino Acids, Databases, Protein, computer, Protein secondary structure, Hydrophobic and Hydrophilic Interactions
Abstract

One of the important secondary structures in proteins is the β-strand. However, due to its complexity, it is less characterized than helical structures. Using the 1641 representative three-dimensional protein structure data from the Protein Data Bank, we characterized β-strand structures based on strand length and amino acid composition, focusing on differences between parallel and antiparallel β-strands. Antiparallel strands were more frequent and slightly longer than parallel strands. Overall, the majority of β-sheets were antiparallel sheets; however, mixed sheets were reasonably abundant, and parallel sheets were relatively rare. Notably, the nonpolar, aliphatic hydrocarbon amino acids, valine, isoleucine, and leucine were observed at a high frequency in both strands but were more abundant in parallel than in antiparallel strands. The relative amino acid occurrence in β-sheets, especially in parallel strands, was highly correlated with amino acid hydrophobicity. This correlation was not observed in α-helices and 3(10)-helices. In addition, we examined the frequency of 400 amino acid doublets and 8000 amino acid triplets in β-strands based on availability, a measurement of the relative counts of the doublets and triplets. We identified some triplets that were specifically found in either parallel or antiparallel strands. We further identified "zero-count triplets" which did not occur in either parallel or antiparallel strands, despite the fact that they were probabilistically supposed to occur several times. Taken together, the present study revealed essential features of β-strand structures and the differences between parallel and antiparallel β-strands, which can potentially be applied to the secondary structure prediction and the functional design of protein sequences in the future.

Published
2011

10. 1P118 FCS analysis of DNA recognition movements of transcription factor FMBP-1 contains a novel DNA binding domain STPR in situ condition(04. Nucleic acid binding proteins,Poster,The 52nd Annual Meeting of the Biophysical Society of Japan(BSJ2014))

Author

Hideki Muto, Masataka Kinjo, Mai Kimoto, Tomoyasu Aizawa, Makoto Demura, Keiichi Kawano, Takashi Kikukawa, Masakatsu Kamiya, Shigeharu Takiya, and Motosuke Tsutsumi

Subjects
In situ, DNA binding site, Biochemistry, Nucleic acid, DNA-binding domain, Biology, Molecular biology, Transcription factor, DNA-binding protein, Dna recognition
Published
2014

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