Peracchia C, Peracchia L L
J Cell Biol. 1980 Dec;87(3 Pt 1):719-27. doi: 10.1083/jcb.87.3.719.
Reversible crystallization of intramembrane particle packings is induced in gap junctions isolated from calf lens fibers by exposure to 3 x 10(-7) M or higher [H+] (pH 6.5 or lower). The changes from disordered to crystalline particle packings induced by low pH are similar to those produced in junctions of intact cells by uncoupling treatments, indicating that H+, like divalent cations, could be an uncoupling agent. The freeze-fracture appearance of both control and low pH-treated gap junctions is not altered by glutaraldehyde fixation and cryoprotective treatment, as suggested by experiments in which gap junctions of both intact cells and isolated fractions are freeze-fractured after rapid freezing to liquid N2 temperature according to Heuser et al. (13). In junctions exposed to low pH, the particles most often form orthogonal and rhombic arrays, frequently fused with each other. A number of structural characteristics of these arrays suggest that the particles of lens fiber gap junctions may be shaped as tetrameres.
通过暴露于3×10⁻⁷M或更高的[H⁺](pH 6.5或更低),从小牛晶状体纤维中分离出的间隙连接中会诱导膜内颗粒堆积的可逆结晶。低pH诱导的从无序颗粒堆积到结晶颗粒堆积的变化类似于通过解偶联处理在完整细胞的连接中产生的变化,表明H⁺与二价阳离子一样,可能是一种解偶联剂。戊二醛固定和冷冻保护处理不会改变对照和低pH处理的间隙连接的冷冻断裂外观,这是根据Heuser等人(13)的实验得出的,在这些实验中,完整细胞和分离部分的间隙连接在快速冷冻至液氮温度后进行冷冻断裂。在暴露于低pH的连接中,颗粒最常形成正交和菱形阵列,并且经常相互融合。这些阵列的许多结构特征表明,晶状体纤维间隙连接的颗粒可能呈四聚体形状。