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Items: 1 to 20 of 30

1.

Loss of skeletal mineralization by the simultaneous ablation of PHOSPHO1 and alkaline phosphatase function: a unified model of the mechanisms of initiation of skeletal calcification.

Yadav MC, Simão AM, Narisawa S, Huesa C, McKee MD, Farquharson C, Millán JL.

J Bone Miner Res. 2011 Feb;26(2):286-97. doi: 10.1002/jbmr.195. Epub 2010 Aug 3.

2.

The role of phosphatases in the initiation of skeletal mineralization.

Millán JL.

Calcif Tissue Int. 2013 Oct;93(4):299-306. doi: 10.1007/s00223-012-9672-8. Epub 2012 Nov 27. Review.

3.

The Role of PHOSPHO1 in the Initiation of Skeletal Calcification.

Stonich D, Su Y, Dad S, Reddy S, Mostofi Y, Russell D, Chung TDY, Hedrick NM, Rascon J, Garcia X, Sergienko E, Millán JL, Stonich D, Cosford N.

Probe Reports from the NIH Molecular Libraries Program [Internet]. Bethesda (MD): National Center for Biotechnology Information (US); 2010-.
2009 Apr 18 [updated 2010 Sep 2].

4.

Role of bone-type tissue-nonspecific alkaline phosphatase and PHOSPO1 in vascular calcification.

Bobryshev YV, Orekhov AN, Sobenin I, Chistiakov DA.

Curr Pharm Des. 2014;20(37):5821-8. Review.

PMID:
24533943
5.
6.

[Mineralization of cartilage in growth plate].

Kobayashi H, Saito T, Tanaka S.

Clin Calcium. 2014 Feb;24(2):177-84. doi: CliCa1402177184. Review. Japanese.

PMID:
24473350
7.

[Regulation of bone mineralization by enzymes].

Kubota T, Ozono K.

Clin Calcium. 2004 Jun;14(6):23-7. Review. Japanese.

PMID:
15577050
8.

What Can We Learn About the Neural Functions of TNAP from Studies on Other Organs and Tissues?

Millán JL.

Subcell Biochem. 2015;76:155-66. doi: 10.1007/978-94-017-7197-9_8. Review.

PMID:
26219711
9.

Multisystemic functions of alkaline phosphatases.

Buchet R, Millán JL, Magne D.

Methods Mol Biol. 2013;1053:27-51. doi: 10.1007/978-1-62703-562-0_3. Review.

PMID:
23860646
10.

Physiological role of alkaline phosphatase explored in hypophosphatasia.

Whyte MP.

Ann N Y Acad Sci. 2010 Mar;1192:190-200. doi: 10.1111/j.1749-6632.2010.05387.x. Review.

PMID:
20392236
11.

The role of matrix vesicles in growth plate development and biomineralization.

Anderson HC, Garimella R, Tague SE.

Front Biosci. 2005 Jan 1;10:822-37. Print 2005 Jan 1. Review.

PMID:
15569622
12.

[Pyrophosphate and mineralization (TNSALP, PC-1, ANK)].

Kaji H.

Clin Calcium. 2007 Oct;17(10):1574-9. Review. Japanese.

PMID:
17906411
13.

The role of fetuin-A in physiological and pathological mineralization.

Brylka L, Jahnen-Dechent W.

Calcif Tissue Int. 2013 Oct;93(4):355-64. doi: 10.1007/s00223-012-9690-6. Epub 2013 Jan 1. Review.

PMID:
23277412
14.

Genetically Modified Mice for Studying TNAP Function.

Narisawa S.

Subcell Biochem. 2015;76:45-57. doi: 10.1007/978-94-017-7197-9_3. Review.

PMID:
26219706
15.

Alkaline Phosphatase and Hypophosphatasia.

Millán JL, Whyte MP.

Calcif Tissue Int. 2016 Apr;98(4):398-416. doi: 10.1007/s00223-015-0079-1. Epub 2015 Nov 21. Review.

16.

The roles of annexins and alkaline phosphatase in mineralization process.

Balcerzak M, Hamade E, Zhang L, Pikula S, Azzar G, Radisson J, Bandorowicz-Pikula J, Buchet R.

Acta Biochim Pol. 2003;50(4):1019-38. Review.

17.

[Updates on rickets and osteomalacia: mechanism and regulation of bone mineralization].

Matsuo K.

Clin Calcium. 2013 Oct;23(10):1463-7. doi: CliCa131014631467. Review. Japanese.

PMID:
24076644
18.

Matrix vesicles: structure, composition, formation and function in calcification.

Wuthier RE, Lipscomb GF.

Front Biosci (Landmark Ed). 2011 Jun 1;16:2812-902. Review.

PMID:
21622210
19.

[Annexin in mineralization process].

Sekrecka A, Balcerzak M, Thouverey C, Buchet R, Pikula S.

Postepy Biochem. 2007;53(2):159-63. Review. Polish.

PMID:
17969876
20.

Membranes and pathophysiological mineralization.

Roszkowska M, Strzelecka-Kiliszek A, Magne D, Pikula S, Bessueille L.

Postepy Biochem. 2016;62(4):511-517. Review.

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