通过乙酰化蛋氨酸特异性抗体评估细胞蛋白质的 N 端乙酰化状态。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-11-01 DOI:10.1016/j.biochi.2024.07.007
Silje Kathrine Larsen , Åse K. Bekkelund , Nina Glomnes , Thomas Arnesen , Henriette Aksnes
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引用次数: 0

摘要

N 端乙酰化被认为是影响蛋白质寿命和蛋白稳态的一个因素。这是一种在蛋白质 N 端添加乙酰基的修饰,80% 的人类蛋白质组都存在这种情况。N 端乙酰化由称为 N 端乙酰转移酶(NATs)的酶催化。各种 NATs 对不同的 N 端氨基酸进行乙酰化,蛋氨酸是某些 NATs 的已知靶标。目前,大多数蛋白质的乙酰化状态只能通过有限的几种方法进行评估,其中包括质谱法,虽然质谱法功能强大、稳健,但仍然很费力,而且只能检测蛋白质组的一部分。我们在此介绍一种抗体的测试结果,该抗体可特异性识别 Nt-乙酰化蛋氨酸起始蛋白。除了对 NAT KO 细胞系裂解物进行蛋白质分析外,我们还使用合成乙酰化和非乙酰化肽进行点印迹,以评估这种抗 Nt-乙酰化蛋氨酸抗体(抗 NtAc-Met)的特异性和应用。我们的研究结果表明,该抗体确实具有 NtAc 特异性,并进一步表明它对某些亚型蛋氨酸起始 N-端具有选择性,特别是对 NatC、NatE 和 NatF 酶的潜在底物具有选择性。我们认为,该抗体可能是鉴定 NAT 底物或分析特定细胞蛋白 N 端乙酰化变化的有力工具。
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Assessing N-terminal acetylation status of cellular proteins via an antibody specific for acetylated methionine
N-terminal acetylation is being recognized as a factor affecting protein lifetime and proteostasis. It is a modification where an acetyl group is added to the N-terminus of proteins, and this occurs in 80 % of the human proteome. N-terminal acetylation is catalyzed by enzymes called N-terminal acetyltransferases (NATs). The various NATs acetylate different N-terminal amino acids, and methionine is a known target for some of the NATs. Currently, the acetylation status of most proteins can only be assessed with a limited number of methods, including mass spectrometry, which although powerful and robust, remains laborious and can only survey a fraction of the proteome. We here present testing of an antibody that was developed to specifically recognize Nt-acetylated methionine-starting proteins. We have used dot blots with synthetic acetylated and non-acetylated peptides in addition to protein analysis of lysates from NAT knockout cell lines to assess the specificity and application of this anti-Nt-acetylated methionine antibody (anti-NtAc-Met). Our results demonstrate that this antibody is indeed NtAc-specific and further show that it has selectivity for some subtypes of methionine-starting N-termini, specifically potential substrates of the NatC, NatE and NatF enzymes. We propose that this antibody may be a powerful tool to identify NAT substrates or to analyse changes in N-terminal acetylation for specific cellular proteins of interest.
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4.30%
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