Transport Reversal during Heteroexchange: A Kinetic Study.

V Makarov, L Kucheryavykh, Y Kucheryavykh, A Rivera, M J Eaton, S N Skatchkov, M Inyushin
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引用次数: 11

Abstract

It is known that secondary transporters, which utilize transmembrane ionic gradients to drive their substrates up a concentration gradient, can reverse the uptake and instead release their substrates. Unfortunately, the Michaelis-Menten kinetic scheme, which is popular in transporter studies, does not include transporter reversal, and it completely neglects the possibility of equilibrium between the substrate concentrations on both sides of the membrane. We have developed a complex two-substrate kinetic model that includes transport reversal. This model allows us to construct analytical formulas allowing the calculation of a “heteroexchange” and “transacceleration” using standard Michaelis coefficients for respective substrates. This approach can help to understand how glial and other cells accumulate substrates without synthesis and are able to release such substrates and gliotransmitters.

Abstract Image

Abstract Image

异质交换过程中的输运反转:动力学研究。
众所周知,二级转运体利用跨膜离子梯度驱动底物达到浓度梯度,可以逆转吸收并释放底物。不幸的是,在转运体研究中流行的Michaelis-Menten动力学方案不包括转运体逆转,它完全忽略了膜两侧底物浓度平衡的可能性。我们已经开发了一个复杂的双底物动力学模型,包括输运反转。该模型允许我们构建解析公式,允许使用标准Michaelis系数计算各自衬底的“异质交换”和“转加速度”。这种方法可以帮助理解胶质细胞和其他细胞如何在没有合成的情况下积累底物,并能够释放这些底物和胶质递质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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