Water transport across red-cell membranes following reductive methylation of the major transmembrane protein, Band 3: implications to increased divalent cation membrane permeability.

L N Chao, M A Yacko, Z A Ping, D A Butterfield
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Abstract

1H-T-NMR methods in conjunction with normally membrane-impermeable Mn2+ were used to study the effect of reductive methylation of specific lysine residues of Band 3, the major transmembrane protein, on water permeability. At 21 degrees C, the water apparent transverse relaxation time (T2) was decreased by nearly 16% (p less than .00001) for cells with modified Band 3. Atomic absorption measurements of control and methylated cells showed an increased level of Mn2+ in the erythrocyte cytosol following methylation. This increased level of this paramagnetic relaxation agent is sufficient to relax interior water protein to the values obtained. Thus, following specific methylation of band 3, increased membrane permeability to divalent cations is observed. The results are discussed with reference to possible conformation changes of Band 3 following methylation, and the findings are interpreted be mean that the conformation of Band 3 has influence on cation permeability to erythrocyte membranes.

主要跨膜蛋白带3的还原甲基化后,水在红细胞膜上的运输:对二价阳离子膜通透性增加的影响。
1H-T-NMR方法结合通常不渗透膜的Mn2+,研究了主要跨膜蛋白Band 3的特定赖氨酸残基的还原甲基化对水渗透性的影响。在21℃时,带3修饰的细胞的水表观横向弛豫时间(T2)减少了近16% (p < 0.00001)。对照细胞和甲基化细胞的原子吸收测量显示,甲基化后红细胞胞浆中Mn2+水平升高。这种顺磁松弛剂的增加足以使内部水蛋白松弛到所获得的值。因此,随着带3的特异性甲基化,观察到膜对二价阳离子的通透性增加。讨论了甲基化后Band 3的构象可能发生的变化,并将这些结果解释为Band 3的构象影响红细胞膜阳离子的通透性。
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