Detailed Mechanism for AmtB Conducting NH4+/NH3: Molecular Dynamics Simulations

¹ Shanghai Institute of Materia Medica
² Chinese Academy of Sciences

^* To whom correspondence should be addressed. E-mail: wlzhu{at}mail.shcnc.ac.cn.

Submitted on May 30, 2006
Revised on June 30, 2006
Accepted on 16 October 2006

	Abstract

The mechanism by which the ammonium transporter, AmtB, conducts NH₄⁺/NH₃ into the cytoplasm was investigated using conventional molecular dynamics (MD) simulations. These simulations revealed that the neutral molecule, NH₃, passes automatically through the channel upon its arrival at the Am2 site, and that the function of the channel as a one-way valve for passage of NH₃ is not determined by the cytoplasmic exit gate but, rather, by the periplasmic entrance gate of the channel. The NH₃, produced by deprotonation of NH₄⁺ at the entrance gate, is spontaneously conveyed to the central region of the channel via a hydrogen bond network comprising His168, His318, Tyr32 and the NH₃ molecule. Finally, the NH₃ molecule exits the channel through the exit gate formed by Phe31, Ile266, Val314 and His318. In addition, Ser263 is shown to play a critical role in the final stages, acting as a pivoting arm to shunt the NH₃ molecule from the cytoplasmic exit gate of the channel out into the cytoplasm. This finding is further supported by another simulation which shows that NH₃ fails to be translocated through the channel formed by the Ser263Ala mutation. Thus, this study casts new insights on the mechanism of AmtB-mediated passage of NH₃ across cellular membranes.

Key Words: AmtB, ammonia/ammonium transporter, channel, conduction mechanism, molecular dynamics, steered molecular dynamics

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