Intra- and intermolecular interactions in sucrose transporters at the plasma membrane detected by the split-ubiquitin system and functional assays

Anke Reinders; Waltraud Schulze; Safia Thaminy; Igor Stagljar; Wolf B. Frommer; John M. Ward

doi:10.1016/S0969-2126(02)00773-6

Intra- and intermolecular interactions in sucrose transporters at the plasma membrane detected by the split-ubiquitin system and functional assays

Anke Reinders, Waltraud Schulze, Safia Thaminy, Igor Stagljar, Wolf B. Frommer, John M. Ward

Research output: Contribution to journal › Article › peer-review

52 Scopus citations

Abstract

Interaction of two separately expressed halves of sucrose transporter SUT1 was detected by an optimized split-ubiquitin system. The halves reconstitute sucrose transport activity at the plasma membrane with affinities similar to the intact protein. The halves do not function independently, and an intact central loop is not required for membrane insertion, plasma membrane targeting, and transport. Under native conditions, the halves associate into higher molecular mass complexes. Furthermore, the N-terminal half of the low-affinity SUT2 interacts functionally with the C-terminal half of SUT1. Since the N terminus of SUT2 determines affinity for sucrose, the reconstituted chimera has lower affinity than SUT1. The split-ubiquitin system efficiently detects intramolecular interactions in membrane proteins, and can be used to dissect transporter structure.

Original language	English (US)
Pages (from-to)	763-772
Number of pages	10
Journal	Structure
Volume	10
Issue number	6
DOIs	https://doi.org/10.1016/S0969-2126(02)00773-6
State	Published - 2002

Bibliographical note

Funding Information:
We are grateful to Christine Bürki (Institute of Veterinary Biochemistry, University of Zürich-Irchel) for assistance with vector construction, Dr. Alonso Rodriguez-Navarro (Universidad Politecnica de Madrid) for the 59m15 yeast strain, Dr. Julian I. Schroeder (UC San Diego) for the plasmid containing AtKAT1, Dr. Doris Rentsch for pDR196, and Dr. Stephan te Heesen for strong support with the project in the early stages, and thanks to Dr. Claudia Oecking for helpful advice concerning “blue native” gels. This work was supported by the Deutsche Forschungsgemeinschaft (grants RE 1454/1 to A.R. and SFB446 to W.B.F.). W.S had a stipend from Deutsche Studienstiftung. S.T. and I.S. were supported by the Kanton of Zürich, Zürcher Krebsliga, Gebert-Rüf Stiftung, Walter Honegger Stiftung, Bonizzi-Theler Stiftung, EMDO Stiftung, and Swiss National Science Foundation (31-58798.99).

Keywords

Assembly
Dimer
Heteromeric interaction
Membrane protein
Structure
Sucrose transporter

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title = "Intra- and intermolecular interactions in sucrose transporters at the plasma membrane detected by the split-ubiquitin system and functional assays",

abstract = "Interaction of two separately expressed halves of sucrose transporter SUT1 was detected by an optimized split-ubiquitin system. The halves reconstitute sucrose transport activity at the plasma membrane with affinities similar to the intact protein. The halves do not function independently, and an intact central loop is not required for membrane insertion, plasma membrane targeting, and transport. Under native conditions, the halves associate into higher molecular mass complexes. Furthermore, the N-terminal half of the low-affinity SUT2 interacts functionally with the C-terminal half of SUT1. Since the N terminus of SUT2 determines affinity for sucrose, the reconstituted chimera has lower affinity than SUT1. The split-ubiquitin system efficiently detects intramolecular interactions in membrane proteins, and can be used to dissect transporter structure.",

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author = "Anke Reinders and Waltraud Schulze and Safia Thaminy and Igor Stagljar and Frommer, {Wolf B.} and Ward, {John M.}",

note = "Funding Information: We are grateful to Christine B{\"u}rki (Institute of Veterinary Biochemistry, University of Z{\"u}rich-Irchel) for assistance with vector construction, Dr. Alonso Rodriguez-Navarro (Universidad Politecnica de Madrid) for the 59m15 yeast strain, Dr. Julian I. Schroeder (UC San Diego) for the plasmid containing AtKAT1, Dr. Doris Rentsch for pDR196, and Dr. Stephan te Heesen for strong support with the project in the early stages, and thanks to Dr. Claudia Oecking for helpful advice concerning “blue native” gels. This work was supported by the Deutsche Forschungsgemeinschaft (grants RE 1454/1 to A.R. and SFB446 to W.B.F.). W.S had a stipend from Deutsche Studienstiftung. S.T. and I.S. were supported by the Kanton of Z{\"u}rich, Z{\"u}rcher Krebsliga, Gebert-R{\"u}f Stiftung, Walter Honegger Stiftung, Bonizzi-Theler Stiftung, EMDO Stiftung, and Swiss National Science Foundation (31-58798.99).",

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AU - Stagljar, Igor

AU - Frommer, Wolf B.

AU - Ward, John M.

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Intra- and intermolecular interactions in sucrose transporters at the plasma membrane detected by the split-ubiquitin system and functional assays

Abstract

Bibliographical note

Keywords

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