Department of Periodontology and Oral Biology, Boston University Goldman School of Dental Medicine, Boston, MA 02118, USA.
J Proteomics. 2013 May 27;83:76-98. doi: 10.1016/j.jprot.2013.02.016. Epub 2013 Mar 6.
Phosvitin, derived from the vitellogenin II gene protein, is a highly phosphorylated protein found in egg yolk. A second hypothetical protein has been predicted based on the vitellogenin I gene, but has not been defined at the protein level. Mass spectrometric analysis was used to identify the phosphopeptide sequences and the precise sites of phosphorylation of two phosvitins, phosvitin 1 and phosvitin 2 derived from vitellogenins I and II, respectively. Samples of native phosvitin were subjected to tryptic digestion followed by mass spectrometric analysis: (i) native phosvitin peptides, (ii) after treatment with NaOH, and (iii) after chemical derivatization of P-Ser/P-Thr residues by dithiothreitol under base-catalyzed conditions. A combination of these approaches led to the identification of 68 and 35 phosphopeptides with 89 (81 P-Ser and 8 P-Thr residues) and 62 (57 P-Ser and 5 P-Thr residues) phosphorylation sites of phosvitin 1 and phosvitin 2, respectively. These data for the first time documented on a large scale the major states and sites of phosphorylation of phosvitins with a total of 151 phosphorylation sites. Importantly, the present work also provided the first direct de novo protein amino-acid sequence data for phosvitin 1 protein and evidence for the full expression of vitellogenin I gene.
We have for the first time generated a large number of phosphopeptides (~100) and identified 151 phosphorylation sites of phosvitin 1 and phosvitin 2, respectively. Importantly, this study also led to the discovery of a novel phosvitin 1 and provided the first direct de novo protein amino-acid sequence data for the full expression of vitellogenin I gene. There is considerable interest in naturally occurring phosphopeptides/phosphoproteins and their application in biomedical fields and in the food industry because of their molecular characteristics and non-toxic nature, hence, our work opens new avenues to pursue such endeavors. In addition, the results provide important fundamental biologic information relevant to evolutionary developments of vertebrate animals beginning with the earliest fish, reptiles, birds and more contemporary mammals. For instance, the abundance of phosvitins with a unique degree of phosphorylation in the egg yolk of fish, reptiles, and birds suggests potential biological functions of phosvitins which are critical to the development of embryos of these distant vertebrates.
磷蛋白来源于卵黄蛋白原 II 基因蛋白,是一种在蛋黄中发现的高度磷酸化蛋白。根据卵黄蛋白原 I 基因,预测了第二种假设蛋白,但尚未在蛋白质水平上定义。质谱分析用于鉴定两种磷蛋白,即分别来自卵黄蛋白原 I 和 II 的磷蛋白 1 和磷蛋白 2 的磷酸肽序列和磷酸化位点。对天然磷蛋白进行胰蛋白酶消化,然后进行质谱分析:(i) 天然磷蛋白肽,(ii) 用 NaOH 处理后,和 (iii) 在碱催化条件下用二硫苏糖醇化学衍生化 P-Ser/P-Thr 残基后。这些方法的组合导致鉴定出 68 个和 35 个磷酸肽,其中磷蛋白 1 和磷蛋白 2 分别具有 89(81 P-Ser 和 8 P-Thr 残基)和 62(57 P-Ser 和 5 P-Thr 残基)个磷酸化位点。这些数据首次大规模记录了磷蛋白的主要磷酸化状态和磷酸化位点,共有 151 个磷酸化位点。重要的是,本工作还首次为磷蛋白 1 蛋白提供了直接从头蛋白质氨基酸序列数据,并为卵黄蛋白原 I 基因的完全表达提供了证据。
我们首次生成了大量的磷酸肽(~100 个),并分别鉴定出磷蛋白 1 和磷蛋白 2 的 151 个磷酸化位点。重要的是,这项研究还发现了一种新的磷蛋白 1,并为卵黄蛋白原 I 基因的完全表达提供了首次直接从头蛋白质氨基酸序列数据。天然存在的磷酸肽/磷酸蛋白因其分子特性和非毒性而在生物医学领域和食品工业中引起了相当大的兴趣,因此,我们的工作为追求这些努力开辟了新的途径。此外,这些结果提供了与从最早的鱼类、爬行动物、鸟类和更现代的哺乳动物开始的脊椎动物进化发展相关的重要基本生物学信息。例如,在鱼类、爬行动物和鸟类的卵黄中,磷蛋白的丰度具有独特的磷酸化程度,这表明磷蛋白具有潜在的生物学功能,对这些遥远的脊椎动物胚胎的发育至关重要。
