Delpire E, Lauf P K
Department of Physiology and Biophysics, Wright State University, School of Medicine, Dayton, Ohio 45401-0927.
Pflugers Arch. 1991 Nov;419(5):540-2. doi: 10.1007/BF00370803.
The electroneutral K-Cl cotransport in low K+ (LK) sheep red blood cells is kinetically asymmetric and thermodynamically outward poised (Delpire and Lauf, 1991a). We have shown previously by trans-inhibition kinetics that Cl- binds prior to K+ to the outside configuration of the carrier. In the present study, we confirm that K+ and Cl- bind randomly to the cytoplasmic aspect of the transporter because K+ in the absence of Cl-, and Cl- in the absence of K+, trans-inhibit ouabain-resistant Rb+(K+) influx in these cells. In contrast to the trans-inhibition pattern observed outside, neither K+ nor Cl- trans-inhibit K+(Rb+) influx in the presence of the cotransported ion, further supporting the asymmetry of the K-Cl cotransporter.
低钾(LK)绵羊红细胞中的电中性钾氯共转运在动力学上是不对称的,在热力学上倾向于外向转运(德尔皮尔和劳夫,1991a)。我们之前通过反式抑制动力学表明,氯离子在钾离子之前结合到载体的外侧构象上。在本研究中,我们证实钾离子和氯离子随机结合到转运体的胞质面,因为在没有氯离子的情况下钾离子,以及在没有钾离子的情况下氯离子,都会反式抑制这些细胞中哇巴因抗性铷离子(钾离子)内流。与在外侧观察到的反式抑制模式相反,在共转运离子存在的情况下,钾离子和氯离子都不会反式抑制钾离子(铷离子)内流,这进一步支持了钾氯共转运体的不对称性。