采用 MS2 强度的定量质谱分析揭示了听觉和前庭感觉上皮的独特能量代谢。
Distinct energy metabolism of auditory and vestibular sensory epithelia revealed by quantitative mass spectrometry using MS2 intensity.
机构信息
Oregon Hearing Research Center, Vollum Institute, Proteomics Shared Resource, Oregon Health and Science University, Portland, OR 97239, USA.
出版信息
Proc Natl Acad Sci U S A. 2012 Jan 31;109(5):E268-77. doi: 10.1073/pnas.1115866109. Epub 2012 Jan 17.
Abstract
Measuring the abundance of many proteins over a broad dynamic range requires accurate quantitation. We show empirically that, in MS experiments, relative quantitation using summed dissociation-product ion-current intensities is accurate, albeit variable from protein to protein, and outperforms spectral counting. By applying intensities to quantify proteins in two complex but related tissues, chick auditory and vestibular sensory epithelia, we find that glycolytic enzymes are enriched threefold in auditory epithelia, whereas enzymes responsible for oxidative phosphorylation are increased at least fourfold in vestibular epithelia. This striking difference in relative use of the two ATP-production pathways likely reflects the isolation of the auditory epithelium from its blood supply, necessary to prevent heartbeat-induced mechanical disruptions. The global view of protein expression afforded by label-free quantitation with a wide dynamic range reveals molecular specialization at a tissue or cellular level.
摘要
在广泛的动态范围内测量大量蛋白质的丰度需要进行准确的定量分析。我们通过实验证明,在 MS 实验中,使用总和的解离产物离子电流强度进行相对定量是准确的,尽管不同蛋白质之间存在差异,但优于谱计数法。通过应用强度来定量分析两种复杂但相关的组织(鸡听觉和前庭感觉上皮)中的蛋白质,我们发现糖酵解酶在听觉上皮中富集了三倍,而负责氧化磷酸化的酶在前庭上皮中至少增加了四倍。两种 ATP 产生途径的相对利用程度的显著差异可能反映了听觉上皮与其血液供应的隔离,这是防止心跳引起的机械干扰所必需的。广泛动态范围的无标记定量提供的蛋白质表达的全局视图揭示了组织或细胞水平的分子专业化。
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