Structural and functional diversity calls for a new classification of ABC transporters

Christoph Thomas; Stephen G. Aller; Konstantinos Beis; Elisabeth P. Carpenter; Geoffrey Chang; Lei Chen; Elie Dassa; Michael Dean; Franck Duong; Damian C. Ekiert; Robert C. Ford; Rachelle Gaudet; Xin Gong; I. Barry Holland; Yihua Huang; Daniel K. Kahne; Hiroaki Kato; Vassilis Koronakis; Christopher M. Koth; Youngsook Lee; Oded Lewinson; Roland Lill; Enrico Martinoia; Satoshi Murakami; Heather W. Pinkett; Bert Poolman; Daniel M. Rosenbaum; Balázs Sarkadi; Lutz Schmitt; Erwin Schneider; Yigong Shi; Show‐Ling Shyng; Dirk Jan Slotboom; Emad Tajkhorshid; D. Peter Tieleman; Kazumitsu Ueda; András Váradi; Po‐Chao Wen; Nieng Yan; Peng Zhang; Hongjin Zheng; Jochen Zimmer; Robert Tampé

doi:10.1002/1873-3468.13935

Structural and functional diversity calls for a new classification of ABC transporters

Christoph Thomas(Goethe University Frankfurt), Stephen G. Aller(University of Alabama at Birmingham), Konstantinos Beis(Rutherford Appleton Laboratory), Elisabeth P. Carpenter(University of Oxford), Geoffrey Chang(University of California San Diego), Lei Chen(Peking University), Elie Dassa(Institut Pasteur), Michael Dean(National Cancer Institute), Franck Duong(University of British Columbia), Damian C. Ekiert(New York University), Robert C. Ford(Manchester Academic Health Science Centre), Rachelle Gaudet(Harvard University), Xin Gong(Southern University of Science and Technology), I. Barry Holland(Université Paris-Sud), Yihua Huang(Chinese Academy of Sciences), Daniel K. Kahne(Harvard University), Hiroaki Kato(Kyoto University), Vassilis Koronakis(University of Cambridge), Christopher M. Koth(Joint Center for Structural Genomics), Youngsook Lee(Pohang University of Science and Technology), Oded Lewinson(Technion – Israel Institute of Technology), Roland Lill(Philipps University of Marburg), Enrico Martinoia(Foshan University), Satoshi Murakami(Tokyo Institute of Technology), Heather W. Pinkett(Northwestern University), Bert Poolman(University of Groningen), Daniel M. Rosenbaum(The University of Texas Southwestern Medical Center), Balázs Sarkadi(Institute of Molecular Life Sciences), Lutz Schmitt(Heinrich Heine University Düsseldorf), Erwin Schneider(Humboldt-Universität zu Berlin), Yigong Shi(Westlake University), Show‐Ling Shyng(Oregon Health & Science University), Dirk Jan Slotboom(University of Groningen), Emad Tajkhorshid(University of Illinois Urbana-Champaign), D. Peter Tieleman(University of Calgary), Kazumitsu Ueda(Kyoto University), András Váradi(Institute of Molecular Life Sciences), Po‐Chao Wen(University of Illinois Urbana-Champaign), Nieng Yan(Princeton University), Peng Zhang(Chinese Academy of Sciences), Hongjin Zheng(University of Colorado Anschutz Medical Campus), Jochen Zimmer(University of Virginia), Robert Tampé(Goethe University Frankfurt)

FEBS Letters

September 26, 2020

10.1002/1873-3468.13935

Cited by 283Open Access

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Abstract

Members of the ATP-binding cassette (ABC) transporter superfamily translocate a broad spectrum of chemically diverse substrates. While their eponymous ATP-binding cassette in the nucleotide-binding domains (NBDs) is highly conserved, their transmembrane domains (TMDs) forming the translocation pathway exhibit distinct folds and topologies, suggesting that during evolution the ancient motor domains were combined with different transmembrane mechanical systems to orchestrate a variety of cellular processes. In recent years, it has become increasingly evident that the distinct TMD folds are best suited to categorize the multitude of ABC transporters. We therefore propose a new ABC transporter classification that is based on structural homology in the TMDs.

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