Takafumi Mikami scite author profile

As part of a study to identify the characteristics of cord blood cells, we examined their morphological features by electron microscopy. Additionally, we cultured CD34-positive cells derived from cord blood and from bone marrow to perform morphological observations, as well as cytochemical examinations following the peroxidase reaction. Compared with normal peripheral blood cells, cord blood cells frequently showed immature morphology and a unique ultrastructure, such as nuclear pockets in neutrophils, several crystalloids in a single eosinophilic granule, and deformed nuclei in lymphocytes. In contrast to bone marrow cells, cord blood cells yielded a large number of cells of immature myelo-monocytic lineages in cell culture, and demonstrated a weaker peroxidase reaction. We identified that cord blood cells were different from normal peripheral blood cells and bone marrow cells, confirming the functional differences that were previously assumed.

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Seroepidemiological Survey of Feline Retrovirus Infections in Cats in Taiwan in 1993 and 1994.

Lin¹,

Cheng²,

Inoshima³

et al. 1995

The Journal of Veterinary Medical Science

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Efficacy and safety of double filtration plasmapheresis in combination with interferon therapy for chronic hepatitis C

Kaneko

Sata

Ide

et al. 2010

Hepatology Research

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Localization of mitochondrial ribosomal RNA on the chromatoid bodies of marine planarian polyclad embryos

Sato

Sugita²,

Kobayashi³

et al. 2001

Dev Growth Differ

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Electron-dense cytoplasmic structures, referred to as chromatoid bodies, are observed in the somatic stem cells, called neoblasts, and germline cells in adult planarians. Although it has been revealed that the chromatoid bodies morphologically resemble germline granules in Drosophila and Xenopus embryos, what essential role it plays in the planarian has remained unclear. In the present study, to examine whether chromatoid bodies in planarian embryos are responsible for germline formation, the presence and behavior of chromatoid bodies during embryogenesis were examined. Mitochondrial large ribosomal RNA and mitochondrial small ribosomal RNA were used as candidate markers for components of the chromatoid body. Starting from the fertilized egg, extramitochondrial signals of both RNA (mtrRNA) were observed. At the ultrastructural level, mtrRNA were localized on the surface of the chromatoid bodies. At subsequent stages, the signals of mtrRNA were observed in certain restricted blastomeres that contribute to the formation of larval structures. The signals gradually decreased from the gastrula stage. These results suggest that the chromatoid bodies associated with mtrRNA in embryogenesis are not germline granules. The chromatoid bodies of blastomeres may be concerned with the toti- or pluripotency and cell differentiation as proposed in adult planarian neoblasts.

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Takafumi Mikami

A case of autoimmune pancreatitis responding to steroid therapy

Ultrastructural and cytochemical characterization of human cord blood cells

Seroepidemiological Survey of Feline Retrovirus Infections in Cats in Taiwan in 1993 and 1994.

Efficacy and safety of double filtration plasmapheresis in combination with interferon therapy for chronic hepatitis C

Localization of mitochondrial ribosomal RNA on the chromatoid bodies of marine planarian polyclad embryos

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