ライフサイエンスコーパス: mineralized matrix

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1 ocesses forming a complex network within the mineralized matrix.

2 , regarding mediation of the initiation of a mineralized matrix.

3 pressed cells could differentiate and form a mineralized matrix.

4 of the osteoblast and to the initiation of a mineralized matrix.

5 of fibroblastic cells, capable of forming a mineralized matrix.

6 n response to 1,25(OH)2 VitD3, and to form a mineralized matrix.

7 In trabecular bone, the porosity of the mineralized matrix accounted for the granular pattern se

8 cultured osteoblastic cells compared to the mineralized matrix alone.

9 eration and study of a 3D, actively modeled, mineralized matrix and can therefore be a valuable tool

10 their cellular processes after embedment in mineralized matrix and have implications for osteocytic

11 ong-lived cells that are entombed within the mineralized matrix and mediate the homeostatic adaptatio

12 ail to progress to osteocytes, do not form a mineralized matrix, and do not generate bone nodules in

13 nsive, with the preosteoblasts producing the mineralized matrix, and the chondrocytes regulating this

14 n NIH3T3 fibroblasts (which do not produce a mineralized matrix); as a positive control, PP was expre

15 ecimens had defects grafted with either bone mineralized matrix (BMM) or a BMM+SIM conjugate.

16 tivity in osteoclasts, reduces resorption of mineralized matrix both in vivo and in cell culture, and

17 on microscopy), markedly increased volume of mineralized matrix (by quantitative microcomputer tomogr

18 is initiated by osteoclast attachment to the mineralized matrix, cytoskeletal reorganization, cellula

19 xpression, osteoblastic differentiation, and mineralized matrix deposition.

20 cellular pathway for proteins liberated from mineralized matrix during resorption was identified in o

21 ranscription in the nucleus and orchestrates mineralized matrix formation extracellularly, at later s

22 otein expressed during the initial stages of mineralized matrix formation in bone and dentin.

23 Mineralized matrix formation is a well orchestrated even

24 Runx-2 and osteocalcin mRNAs, and absence of mineralized matrix formation.

25 sent study we explored the role of GRP-78 in mineralized matrix formation.

26 asts in culture and lead to the formation of mineralized matrix in in vivo implants.

27 ers that did not have the ability to produce mineralized matrix in vitro (C-F).

28 to differentiate into osteoclasts and resorb mineralized matrix in vitro.

29 y regions dramatically increased in areas of mineralized matrix, in dendritic, osteocyte-like cells.

30 r genes, and those plated for 21 d deposit a mineralized matrix, indicative of osteogenic differentia

31 The formation of a mineralized matrix is also significantly enhanced due to

32 is an acidic matrix protein, present in the mineralized matrix of bone and dentin.

33 genous protein localized specifically in the mineralized matrix of bone and dentin.

34 The transport of osteoid water across the mineralized matrix of bone was studied by proton nuclear

35 milies (one of which also is involved in the mineralized matrixes of bone, dentin, and avian eggshell

36 n, the BMD was proportional to the extent of mineralized matrix present in the new bone.

37 With all flow conditions, mineralized matrix production was dramatically increased

38 e belt and sealing zone resulting in reduced mineralized matrix resorption.

39 f inducing the resorption of a physiological mineralized matrix substrate.

40 and enhanced cell phenotypic expression and mineralized matrix synthesis within tissue-engineered co

41 e sclerostin after they become embedded in a mineralized matrix to limit further bone formation by os

42 vels in bone, where it is a component of the mineralized matrix, we have asked here whether OPN prese

43 ferentiation and function of cells producing mineralized matrix, we used a preodontoblastic cell line

44 deciduous teeth) cells produce a more highly mineralized matrix when compared with that produced by P

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