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植物和人类AMT/Rh型铵转运蛋白中的不同转运机制。

Different transport mechanisms in plant and human AMT/Rh-type ammonium transporters.

作者信息

Mayer Maria, Schaaf Gabriel, Mouro Isabelle, Lopez Claude, Colin Yves, Neumann Petra, Cartron Jean-Pierre, Ludewig Uwe

机构信息

Zentrum für Molekularbiologie der Pflanzen, Pflanzenphysiologie, Universität Tübingen, Tübingen, Germany.

出版信息

J Gen Physiol. 2006 Feb;127(2):133-44. doi: 10.1085/jgp.200509369.

DOI:10.1085/jgp.200509369
PMID:16446503
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2151487/
Abstract

The conserved family of AMT/Rh proteins facilitates ammonium transport across animal, plant, and microbial membranes. A bacterial homologue, AmtB, forms a channel-like structure and appears to function as an NH3 gas channel. To evaluate the function of eukaryotic homologues, the human RhCG glycoprotein and the tomato plant ammonium transporter LeAMT1;2 were expressed and compared in Xenopus oocytes and yeast. RhCG mediated the electroneutral transport of methylammonium (MeA), which saturated with Km = 3.8 mM at pHo 7.5. Uptake was strongly favored by increasing the pHo and was inhibited by ammonium. Ammonium induced rapid cytosolic alkalinization in RhCG-expressing oocytes. Additionally, RhCG expression was associated with an alkali-cation conductance, which was not significantly permeable to NH4+ and was apparently uncoupled from the ammonium transport. In contrast, expression of the homologous LeAMT1;2 induced pHo-independent MeA+ uptake and specific NH4+ and MeA+ currents that were distinct from endogenous currents. The different mechanisms of transport, including the RhCG-associated alkali-cation conductance, were verified by heterologous expression in appropriate yeast strains. Thus, homologous AMT/Rh-type proteins function in a distinct manner; while LeAMT1;2 carries specifically NH4+, or cotransports NH3/H+, RhCG mediates electroneutral NH3 transport.

摘要

AMT/Rh蛋白保守家族促进铵在动物、植物和微生物膜间的转运。细菌同源物AmtB形成类似通道的结构,似乎作为NH₃气体通道发挥作用。为评估真核生物同源物的功能,人类RhCG糖蛋白和番茄植物铵转运体LeAMT1;2在非洲爪蟾卵母细胞和酵母中表达并进行比较。RhCG介导甲铵(MeA)的电中性转运,在pHo 7.5时Km = 3.8 mM达到饱和。提高pHo强烈促进摄取,铵则抑制摄取。铵在表达RhCG的卵母细胞中诱导快速的胞质碱化。此外,RhCG的表达与一种碱阳离子电导相关,该电导对NH₄⁺的通透性不显著,且明显与铵转运解偶联。相比之下,同源的LeAMT1;2的表达诱导不依赖pHo的MeA⁺摄取以及与内源电流不同的特定NH₄⁺和MeA⁺电流。包括与RhCG相关的碱阳离子电导在内的不同转运机制,通过在合适酵母菌株中的异源表达得到验证。因此,同源的AMT/Rh型蛋白以不同方式发挥作用;LeAMT1;2特异性转运NH₄⁺,或协同转运NH₃/H⁺,而RhCG介导电中性的NH₃转运。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/be68/2151487/df164eb271cc/jgp1270133f01.jpg

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