Protein L-Isoaspartate O-Methyltransferase (PCMT1): A Key Player of Spontaneously Arisen Protein Damage Repair

Biochemistry international Pub Date : 2017-07-21 DOI:10.19080/APBIJ.2017.03.555605
Burcu Biterge
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Abstract

Methylation of aspartic acid residues was first described in the literature in erythrocytes as a possible step of repairing aged membrane proteins [1]. During the process of aging, L-aspartyl residues are spontaneously converted to L-isoaspartyl via the unstable intermediate L-succinimide which undergoes a spontaneous hydrolysis, generating a mixture of normal L-aspartate (15-30%) and abnormal L-isoaspartate (7085%), pointed out as steps 2 and 3 in Figure 1 respectively [2]. Accumulation of this abnormal form of aspartate is recognized as damage in the cell and therefore needs to be repaired [3].
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蛋白质l -异天冬氨酸o -甲基转移酶(PCMT1):自发产生的蛋白质损伤修复的关键参与者
天冬氨酸残基的甲基化首次在文献中被描述为红细胞中修复老化膜蛋白[1]的可能步骤。在老化过程中,l -天冬氨酸残基通过不稳定的中间体l -琥珀酰亚胺自发水解转化为l -异天冬氨酸,生成正常l -天冬氨酸(15-30%)和异常l -异天冬氨酸(7085%)的混合物,分别如图1中的步骤2和步骤3所示[2]。这种异常形式的天冬氨酸的积累被认为是细胞的损伤,因此需要修复。
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Biochemistry international
Biochemistry international
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