Results 241 to 250 of about 15,982 (300)

Calcium Carbonate from Anadara granosa Shells Stimulates FGF2, TGF-β1, and Collagen Type 1 Expression in Rat Dental Pulp.

Eur J Dent
Saraswati W, Yahya AN, Yonas Y, Cindananti G, Rahardia N, Ramadani RR, Ambarwati VL, Kusumawardhani DP, Sutela IGMY, Putri LK, Baskoro BD, Pratama PK, Setiady DR.   +12 more
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Zeb1 Promotes Odontoblast Differentiation in a Stage-Dependent Manner

Journal of dentistry research, 2021
A comprehensive study of odontoblastic differentiation is essential to understand the process of tooth development and to achieve the ability of tooth regeneration in the future.
Y. Xiao, Y.X. Lin, Y. Cui, Q. Zhang, F. Pei, H. Zuo, H. Liu, Z. Chen   +7 more
semanticscholar   +1 more source

S100A4 is expressed in human odontoblasts and odontoblast-like cells

Tissue and Cell, 2022
The calcium-binding protein S100A4 has been found in fibroblasts in many tissues. It has been well studied in the regulating process of inflammation and tumor metastasis. However, as a calcium regulating protein, its expression in the dental pulp has not yet been elucidated.
Xue, Cai, Lu, Zhang, Xiaoyan, Wang
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Fam20C overexpression in odontoblasts regulates dentin formation and odontoblast differentiation

Journal of Molecular Histology, 2023
FAM20C phosphorylates secretory proteins at S-x-E/pS motifs, and previous studies of Fam20C-dificient mice revealed that FAM20C played essential roles in bone and tooth formation. Inactivation of FAM20C in mice led to hypophosphatemia that masks direct effect of FAM20C in these tissues, and consequently the direct role of FAM20C remains unknown.
Kohei Naniwa, Katsutoshi Hirose, Yu Usami, Kenji Hata, Rikita Araki, Narikazu Uzawa, Toshihisa Komori, Satoru Toyosawa   +7 more
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SALL1 regulates commitment of odontoblast lineages by interacting with RUNX2 to remodel open chromatin regions

Stem Cells, 2020
Mouse dental papilla cells (mDPCs) derive from cranial neural crest cells and maintain mesenchymal stem cell characteristics. The differentiation of neural crest cells into odontoblasts is orchestrated by transcription factors regulating the expression ...
Lin YuXiu, Xiao Yao, Chujiao Lin, Z. Qian, Zhang Shu, Pei Fei, L. Huan, Chen Zhi   +7 more
semanticscholar   +1 more source

Midkine Promotes Odontoblast-like Differentiation and Tertiary Dentin Formation

Journal of dentistry research, 2020
Autophagy is an intracellular self-degradation process that is essential for tissue development, cell differentiation, and survival. Nevertheless, the role of autophagy in tooth development has not been definitively identified. The goal of this study was
Y.H. Park, Y.S. Lee, Y. M. Seo, H. Seo, J.S. Park, H. S. Bae, J.C. Park   +6 more
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Odontoblasts in odontogenic tumors

Medical Hypotheses, 2013
Odontoblasts are secretory cells displaying epithelial and mesenchymal features, which exist in a monolayer at the interface between the dentin and pulp of a tooth. During embryogenesis, these cells form a dentin shell and throughout life continue to produce dentin while, also acting as sensor cells helping to mediate tooth sensitivity. In this process,
Nadine C. Milos, Tom D. Daley, Edmund Peters   +2 more
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Mitochondria in Odontoblastic Processes [PDF]

Nature, 1966
THE odontoblastic processes of human dentin are projections of the odontoblast cytoplasm into spaces in the dense collagenous, highly mineralized dentin matrix1. These projections can be up to several mm in length resulting in the cytoplasm being a long distance (2,000–3,000µ) from the odontoblast nucleus.
R.C. Herold, Harold Kaye
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Ca2+ Channels in Odontoblasts

Journal of Oral Biosciences, 2010
Abstract Odontoblasts, well-polarized columnar cells at the periphery of the dental pulp, originate from neural crest cells. They are primarily involved in dentin formation (dentinogenesis) as sites of the synthesis and secretion of collagenous and non-collagenous matrix proteins, and also participate in the directional transport of Ca 2+ from the ...
Masaki Sato, Masaki Sato, Hideki Ichikawa, Maki Tsumura, Maki Tsumura, Yoshiyuki Shibukawa, Yasunori Momose, Masakazu Tazaki   +7 more
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Structure and organization of odontoblasts

The Anatomical Record, 1996
Differentiation of odontoblasts involves cell-to-cell recognition, contact stabilization involving the formation of attachment specializations, cytoplasmic polarization, development of the protein synthetic and secretory apparatus, and the active transport of mineral ions.
Takahisa Sasaki, Philias R. Garant
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