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大鼠牙釉质中一种磷蛋白的体内合成与降解。细胞外有机基质中磷酸化前体蛋白的鉴定。

Synthesis and degradation in vivo of a phosphoprotein from rat dental enamel. Identification of a phosphorylated precursor protein in the extracellular organic matrix.

作者信息

Strawich E, Glimcher M J

出版信息

Biochem J. 1985 Sep 1;230(2):423-33. doi: 10.1042/bj2300423.

Abstract

The cellular enamel organ and the cell-free organic matrix of developing enamel of female rats injected intravascularly with [3H]serine and [3H]proline were extracted in a number of solvents and examined by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis and h.p.l.c. in 6M-guanidinium chloride at intervals varying from 5 min to 1 week after injection. Three major species soluble in NH4HCO3 with Mr values of approx. 100 000, 25 000 and 11 000 were identified in the cellular enamel organ. The Mr 100 000 and 11 000 components were not secreted but remained intracellular for periods of up to 1 week after injection of the radioactively labelled amino acids. In contrast, the Mr 25 000 species was secreted from the cells and was first detected in the extracellular organic matrix approx. 15-30 min after injection. With time, labelled components, first of Mr approx. 11 000 and subsequently approx. 6500, were detected in the organic matrix concomitant with a relative decrease in the Mr 25 000 component, demonstrating that the lower Mr species were derived from degradation of the putative extracellular precursor protein (Mr 25 000). All of the extracellular components were found to contain O-phosphoserine. No radioactively labelled component with an Mr greater than approx. 25 000, either an amelogenin or an enamelin, was observed in the extracellular organic matrix or in an intracellular component which subsequently was lost from the intracellular pool. The Mr of the highest Mr protein or class of proteins is calculated to be approx. 22 000-26 000 when standard proteins are used as markers, but only 15 000-18 000 when using the CNBr peptides of alpha 1 chains of rat tail tendon collagen as markers.

摘要

对血管内注射了[³H]丝氨酸和[³H]脯氨酸的雌性大鼠发育中牙釉质的细胞性牙釉器和无细胞有机基质,在注射后5分钟至1周的不同时间间隔,用多种溶剂进行提取,并通过十二烷基硫酸钠/聚丙烯酰胺凝胶电泳和在6M盐酸胍中的高效液相色谱法进行检测。在细胞性牙釉器中鉴定出三种主要可溶于NH₄HCO₃的物质,其相对分子质量(Mr)约为100000、25000和11000。Mr为100000和11000的成分没有分泌,在注射放射性标记氨基酸后长达1周的时间内仍保留在细胞内。相反,Mr为25000的物质从细胞中分泌出来,在注射后约15 - 30分钟首次在细胞外有机基质中被检测到。随着时间的推移,在有机基质中检测到标记成分,先是Mr约为11000的,随后是约6500的,同时Mr为25000的成分相对减少,这表明较低Mr的物质源自假定的细胞外前体蛋白(Mr为25000)的降解。发现所有细胞外成分都含有O - 磷酸丝氨酸。在细胞外有机基质或随后从细胞内池中消失的细胞内成分中,未观察到Mr大于约25000的放射性标记成分,无论是釉原蛋白还是釉蛋白。当使用标准蛋白作为标志物时,最高Mr蛋白或蛋白类别的Mr计算约为22000 - 26000,但当使用大鼠尾腱胶原α1链的溴化氰肽作为标志物时,仅为15000 - 18000。

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本文引用的文献

1
THE CHEMICAL COMPOSITION OF BONE AND TOOTH.
Adv Fluorine Res. 1965;21:5-17.
2
COLLAGEN: STRUCTURAL STUDIES BASED ON THE CLEAVAGE OF METHIONYL BONDS.
Science. 1965 Jun 4;148(3675):1353-5. doi: 10.1126/science.148.3675.1353.
5
Luschka's joint-a degenerative phenomenon.
J Bone Joint Surg Am. 1960 Jul;42-A:853-8.
6
Organic matrix of tooth enamel.
Nature. 1960 Jul 30;187:411-2. doi: 10.1038/187411b0.
8
Changing patterns of enamel matrix proteins in the developing bovine tooth.
Caries Res. 1982;16(1):64-71. doi: 10.1159/000260578.
9
Biosynthesis and secretion of enamel proteins during hamster tooth development.
Calcif Tissue Int. 1983 May;35(3):366-71. doi: 10.1007/BF02405060.
10
Amelogenins. Sequence homologies in enamel-matrix proteins from three mammalian species.
Biochem J. 1983 Apr 1;211(1):149-54. doi: 10.1042/bj2110149.

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