Ken I. Hohmura scite author profile

We report a controlled process to make carbon-nanotube tips for scanning probe microscopes. The process consists of three steps: (1) purification and alignment of carbon nanotubes using electrophoresis, (2) transfer of a single aligned nanotube onto a conventional Si tip under the view of a scanning electron microscope, and (3) attachment of the nanotube on the Si tip by carbon deposition. Nanotube tips fabricated using this procedure exhibit strong adhesion and are mechanically robust. Finally, the performance of these tips is demonstrated by imaging the fine structure of twinned deoxyribonucleic acid with tapping-mode atomic force microscopy in air.

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Long range interaction of cis‐DNA elements mediated by architectural transcription factor Bach1

Yoshida

Tokumasu

Hohmura

et al. 1999

Genes to Cells

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Background: A central question in vertebrate transcriptional regulation is how cis-regulatory modules, including enhancers, silencers and promoters, communicate with each other over long distances to mandate proper gene expression. In order to address this question we analysed protein/DNA interactions in the human b-globin locus control region (LCR). One of the many proteins that are potentially implicated in LCR function is Bach1. Bach1 possesses a basic leucine zipper (bZip) domain, as well as a BTB/POZ domain that has been shown to be involved in the regulation of chromatin structure. Bach1 forms heterodimers with small Maf proteins through its leucine zipper and binds to Maf recognition elements (MARE).

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Atomic force microscopy sees nucleosome positioning and histone H1‐induced compaction in reconstituted chromatin

et al. 1999

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We addressed the question of how nuclear histones and DNA interact and form a nucleosome structure by applying atomic force microscopy to an in vitro reconstituted chromatin system. The molecular images obtained by atomic force microscopy demonstrated that oligonucleosomes reconstituted with purified core histones and DNA yielded a`beads on a string' structure with each nucleosome trapping 158 þ 27 bp DNA. When dinucleosomes were assembled on a DNA fragment containing two tandem repeats of the positioning sequence of the Xenopus 5S RNA gene, two nucleosomes were located around each positioning sequence. The spacing of the nucleosomes fluctuated in the absence of salt and the nucleosomes were stabilized around the range of the positioning signals in the presence of 50 mM NaCl. An addition of histone H1 to the system resulted in a tight compaction of the dinucleosomal structure.z 1999 Federation of European Biochemical Societies.

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Microprocess for fabricating carbon-nanotube probes of a scanning probe microscope

Nakayama

Nishijima

Akita

et al. 2000

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We have developed microprocesses to make carbon-nanotube probes for a scanning probe microscope. The processes contain electric-field induced transportation, welding and fixation by electron-beam carbon deposition and are performed in a scanning electron microscope equipped with two individual manipulable stages. Using the nanotube probes produced, a fine structure of helical and twinned deoxyribonucleic acid and an abrupt height transition with high fidelity in a 4.7 GB digital versatile disk are imaged with tapping-mode atomic force microscopy in air.

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Atomic force microscopy with carbon nanotube probe resolves the subunit organization of protein complexes

Hohmura¹,

Itokazu²,

Yoshimura³

et al. 2000

Journal of Electron Microscopy

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Among many scanning probe microscopies, atomic force microscopy (AFM) is a useful technique to analyse the structure of biological materials because of its applicability to non-conductors in physiological conditions with high resolution. However, the resolution has been limited to an inherent property of the technique; tip effect associated with a large radius of the scanning probe. To overcome this problem, we developed a carbon nanotube probe by attaching a carbon nanotube to a conventional scanning probe under a well-controlled process. Because of the constant and small radius of the tip (2.5-10 nm) and the high aspect ratio (1:100) of the carbon nanotube, the lateral resolution has been much improved judging from the apparent widths of DNA and nucleosomes. The carbon nanotube probes also possessed a higher durability than the conventional probes. We further evaluated the quality of carbon nanotube probes by three parameters to find out the best condition for AFM imaging: the angle to the tip axis; the length; and the tight fixation to the conventional tip. These carbon nanotube probes, with high vertical resolution, enabled us to clearly visualize the subunit organization of multi-subunit proteins and to propose structural models for proliferating cell nuclear antigen and replication factor C. This success in the application of carbon nanotube probes provides the current AFM technology with an additional power for the analyses of the detailed structure of biological materials and the relationship between the structure and function of proteins.

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Ken I. Hohmura

Carbon-nanotube tips for scanning probe microscopy: Preparation by a controlled process and observation of deoxyribonucleic acid

Long range interaction of cis‐DNA elements mediated by architectural transcription factor Bach1

Atomic force microscopy sees nucleosome positioning and histone H1‐induced compaction in reconstituted chromatin

Microprocess for fabricating carbon-nanotube probes of a scanning probe microscope

Atomic force microscopy with carbon nanotube probe resolves the subunit organization of protein complexes

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