Susanne Bracher scite author profile

The Na(+)/proline symporter (PutP), like several other Na(+)-coupled symporters, belongs to the so-called LeuT-fold structural family, which features ten core transmembrane domains (cTMs) connected by extra- and intracellular loops. The role of these loops has been discussed in context with the gating function in the alternating access model of secondary active transport processes. Here we report the complete spin-labeling site scan of extracellular loop 4 (eL4) in PutP that reveals the presence of two α-helical segments, eL4a and eL4b. Among the eL4 residues that are directly implicated in the functional dynamics of the transporter, Phe314 in eL4b anchors the loop by means of hydrophobic contacts to cTM1 close to the ligand binding sites. We propose that ligand-induced conformational changes at the binding sites are transmitted via the anchoring residue to eL4 and through eL4 further to adjacent cTMs, leading to closure of the extracellular gate.

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Identification of a Second Substrate-binding Site in Solute-Sodium Symporters

Zheng

Lee

Bracher

et al. 2015

Journal of Biological Chemistry

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Background: Although the solute-sodium symporter (SSS) vSGLT and the neurotransmitter-sodium symporter (NSS) LeuT have similar structural folds, their crystallographically identified substrate sites diverge in location and composition. Results: We identified second substrate sites in two SSSs that align with the crystallographically identified site in LeuT. Conclusion: Substrate transport by SSSs involves two substrate sites. Significance: NSS and SSS share common mechanistic features.

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Identification of a second substrate-binding site in solute-sodium symporters.

Li¹,

Lee²,

Bracher³

et al. 2015

Journal of Biological Chemistry

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Core Transmembrane Domain 6 Plays a Pivotal Role in the Transport Cycle of the Sodium/Proline Symporter PutP

Bracher

Schmidt

Dittmer

et al. 2016

Journal of Biological Chemistry

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Crystal structures of transporters with a LeuT-type structural fold assign core transmembrane domain 6 (TM6') a central role in substrate binding and translocation. Here, the function of TM6' in the sodium/proline symporter PutP, a member of the solute/sodium symporter family, was investigated. A complete scan of TM6' identified eight amino acids as particularly important for PutP function. Of these residues, Tyr-248, His-253, and Arg-257 impact sodium binding, whereas Arg-257 and Ala-260 may participate in interactions leading to closure of the inner gate. Furthermore, the previous suggestion of an involvement of Trp-244, Tyr-248, and Pro-252 in proline binding is further supported. In addition, substitution of Gly-245, Gly-247, and Gly-250 affects the amount of PutP in the membrane. A Cys accessibility analysis suggests an involvement of the inner half of TM6' in the formation of a hydrophilic pathway that is open to the inside in the absence of ligands and closed in the presence of sodium and proline. In conclusion, the results demonstrate that TM6' plays a central role in substrate binding and release on the inner side of the membrane also in PutP and extend the knowledge on functionally relevant amino acids in transporters with a LeuT-type structural fold.

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Susanne Bracher

Homology Model of the Na+/Proline Transporter PutP of Escherichia coli and Its Functional Implications

Extracellular Loop 4 of the Proline Transporter PutP Controls the Periplasmic Entrance to Ligand Binding Sites

Identification of a Second Substrate-binding Site in Solute-Sodium Symporters

Identification of a second substrate-binding site in solute-sodium symporters.

Core Transmembrane Domain 6 Plays a Pivotal Role in the Transport Cycle of the Sodium/Proline Symporter PutP

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