The absence from the oocyte secretory apparatus of a protein kinase capable of phosphorylating sequestered caseins.

Journal of applied biochemistry Pub Date : 1985-04-01
A P Boulton, C D Lane, J C Pascall, R K Craig
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Abstract

The lactating guinea-pig mammary gland synthesizes and secretes four major milk proteins, i.e., three caseins and alpha-lactalbumin. Of these, the caseins are highly phosphorylated, a post-translational event which in the mammary gland involves a specific casein kinase, which is an integral membrane protein probably of Golgi origin. The microinjection of milk protein mRNA into Xenopus oocytes in the presence of [35S]methionine leads to the synthesis, sequestration, and secretion of proteins which coelectrophorese with alpha-lactalbumin and with partially processed caseins. That the secreted caseins were not phosphorylated was shown by the use of 32P. Either the oocytes were injected with mammary gland mRNA followed by incubation with [32P]phosphate containing media or the mRNA was co-injected with [gamma-32P]ATP and the oocytes were then incubated. In neither case were 32P-labeled caseins secreted. Golgi-rich fractions, identified by the marker enzyme galactosyltransferase, were isolated from the postnuclear supernatant of both oocytes and lactating mammary gland by sucrose density gradient fractionation. In contrast to the mammary gland fractions those derived from the oocytes contained no detectable casein kinase activity. Homogenates of oocytes do effect the phosphorylation of casein but the enzyme activity appears to be present in the soluble fraction and is not membrane bound. It is concluded that the Xenopus oocyte lacks the specific kinase that in the mammary gland phosphorylates sequestered caseins and that the phosphorylation of the caseins is not a prerequisite for their secretion by the oocyte.

缺失卵母细胞分泌器官中缺少一种能够磷酸化被隔离的酪蛋白的蛋白激酶
泌乳豚鼠乳腺合成并分泌四种主要乳蛋白,即三种酪蛋白和α -乳蛋白。其中,酪蛋白高度磷酸化,这是一个翻译后的事件,在乳腺中涉及特定的酪蛋白激酶,这是一个完整的膜蛋白,可能起源于高尔基体。在[35S]蛋氨酸存在的情况下,将乳蛋白mRNA微量注射到爪蟾卵母细胞中,导致与α -乳清蛋白和部分加工酪蛋白共电泳的蛋白质的合成、隔离和分泌。使用32P表明分泌的酪蛋白未被磷酸化。将乳腺mRNA注入卵母细胞,然后用含[32P]磷酸盐的培养基孵育,或将mRNA与[γ -32P]ATP共注射,然后孵育卵母细胞。在两种情况下均未分泌32p标记的酪蛋白。用蔗糖密度梯度分离法从卵母细胞和泌乳乳腺的核后上清液中分离出富含高尔基蛋白的部分,并用半乳糖转移酶作为标记酶进行鉴定。与乳腺部分相反,来自卵母细胞的部分不含可检测到的酪蛋白激酶活性。卵母细胞匀浆确实影响酪蛋白的磷酸化,但酶活性似乎存在于可溶性部分,而不是膜结合。由此得出结论,非洲爪蟾卵母细胞缺乏在乳腺中磷酸化酪蛋白的特异性激酶,并且酪蛋白的磷酸化不是卵母细胞分泌酪蛋白的先决条件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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