使用多种基于质谱的方法鉴定心肌肌丝蛋白亚型
Identification of cardiac myofilament protein isoforms using multiple mass spectrometry based approaches.
作者信息
Kooij Viola, Venkatraman Vidya, Kirk Jonathan A, Ubaida-Mohien Ceereena, Graham David R, Faber Matthijs J, Van Eyk Jennifer E
机构信息
Department of medicine, Division of Cardiology, The Johns Hopkins University, Baltimore, USA.
Advanced Clinical Biosystems Research Institute, Heart Institute and Department of Medicine, Cedars-Sinai Medical Center, Los Angeles, USA.
出版信息
Proteomics Clin Appl. 2014 Aug;8(7-8):578-589. doi: 10.1002/prca.201400039.
PURPOSE
The identification of protein isoforms in complex biological samples is challenging. We, therefore, used an MS approach to unambiguously identify cardiac myofilament protein isoforms based on the observation of a tryptic peptide consisting of a sequence unique to a particular isoform.
EXPERIMENTAL DESIGN
Three different workflows were used to isolate and fractionate rat cardiac myofilament subproteomes. All fractions were analyzed on an LTQ-Orbitrap MS, proteins were identified using various search engines (MASCOT, X!Tandem, X!Tandem Kscore, and OMSSA) with results combined via PepArML Meta-Search engine, and a postsearch analysis was performed by MASPECTRAS. All MS data have been deposited in the ProteomeXchange with identifier PXD000874 (http://proteomecentral.proteomexchange.org/dataset/PXD000874).
RESULTS
The combination of multiple workflows and search engines resulted in a larger number of nonredundant proteins identified than with individual methods. A total of 102 myofilament annotated proteins were observed overlapping in two or three of the workflows. Literature search for myofilament presence with manual validation of the MS spectra was carried out for unambiguous identification: ten cardiac myofilament and 17 cardiac myofilament-associated proteins were identified with 39 isoforms and subisoforms.
CONCLUSION AND CLINICAL RELEVANCE
We have identified multiple isoforms of myofilament proteins that are present in cardiac tissue using unique tryptic peptides. Changes in distribution of these protein isoforms under pathological conditions could ultimately allow for clinical diagnostics or as therapeutic targets.
目的
在复杂生物样品中鉴定蛋白质异构体具有挑战性。因此,我们采用质谱方法,基于对由特定异构体独特序列组成的胰蛋白酶肽段的观察,明确鉴定心肌肌丝蛋白异构体。
实验设计
使用三种不同的工作流程来分离和分级大鼠心肌肌丝亚蛋白质组。所有级分均在LTQ - Orbitrap质谱仪上进行分析,使用各种搜索引擎(MASCOT、X!Tandem、X!Tandem Kscore和OMSSA)鉴定蛋白质,结果通过PepArML元搜索引擎合并,并由MASPECTRAS进行搜索后分析。所有质谱数据已存入蛋白质组交换库,标识符为PXD000874(http://proteomecentral.proteomexchange.org/dataset/PXD000874)。
结果
多种工作流程和搜索引擎相结合,比单独使用方法鉴定出的非冗余蛋白质数量更多。在两个或三个工作流程中观察到共有102种有注释的肌丝蛋白重叠。通过文献检索肌丝蛋白的存在情况并对质谱图进行人工验证以进行明确鉴定:鉴定出10种心肌肌丝蛋白和17种心肌肌丝相关蛋白,共39种异构体和亚异构体。
结论与临床意义
我们利用独特的胰蛋白酶肽段鉴定出了心脏组织中存在的多种肌丝蛋白异构体。这些蛋白质异构体在病理条件下分布的变化最终可能有助于临床诊断或作为治疗靶点。
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