Transport ATPases: Continued Progress in Understanding their Molecular Properties, Diverse Roles, and Disease Relevance
349-355
Transport ATPases into the year 2008: a brief overview related to types, structures, functions and roles in health and disease
Peter L. Pedersen
357-366
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
Roles of transmembrane segment M1 of Na+,K+-ATPase and Ca2+-ATPase, the gatekeeper and the pivot
Anja Pernille Einholm, Jens Peter Andersen and Bente Vilsen
367-372
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
The roles of the Na,K-ATPase beta 1 subunit in pump sorting and epithelial integrity
Olga Vagin, George Sachs and Elmira Tokhtaeva
373-378
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
Sodium pump localization in epithelia
Jason S. Bystriansky and Jack H. Kaplan
379-383
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
Structures of the FXYD regulatory proteins in lipid micelles and membranes
Carla M. Franzin, Xiao-Min Gong, Peter Teriete and Francesca M. Marassi
385-389
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
Na,K-ATPase and the role of α isoforms in behavior
Jerry B. Lingrel, Michael T. Williams, Charles V. Vorhees and Amy E. Moseley
391-395
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
Regulation of Na,K-ATPase during acute lung injury
Emilia Lecuona, Humberto E. Trejo and Jacob I. Sznajder
397-402
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
The K+-translocating KdpFABC complex from Escherichia coli: A P-type ATPase with unique features
Jörg-Christian Greie and Karlheinz Altendorf
403-407
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
Copper-transporting ATPases ATP7A and ATP7B: cousins, not twins
Rachel Linz and Svetlana Lutsenko
409-414
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
The origin and function of calmodulin regulated Ca2+ pumps in plants
Yann Boursiac and Jeffrey F. Harper
415-421
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
The long physiological reach of the yeast vacuolar H+-ATPase
Patricia M. Kane
423-426
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
The vacuolar (H+)-ATPase: subunit arrangement and in vivo regulation
Jie Qi, Yanru Wang and Michael Forgac
427-433
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
Plasmalemmal vacuolar H+-ATPases in angiogenesis, diabetes and cancer
Souad R. Sennoune and Raul Martinez-Zaguilan
435-439
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
Abundance of Escherichia coli F1-ATPase molecules observed to rotate via single-molecule microscopy with gold nanorod probes
Justin York, David Spetzler, Tassilo Hornung, Robert Ishmukhametov and James Martin, et al.
441-445
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
Alternative proton binding mode in ATP synthases
Christoph von Ballmoos
447-452
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
Cholesterol fill-in model: mechanism for substrate recognition by ABC proteins
Yasuhisa Kimura, Atsushi Kodan, Michinori Matsuo and Kazumitsu Ueda
453-458
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
ArsD: an As(III) metallochaperone for the ArsAB As(III)-translocating ATPase
Yung-Feng Lin, Jianbo Yang and Barry P. Rosen
459-463
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
ABC transporters and RNAi in
Caenorhabditis elegans
Lisa D. Timmons
465-471
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
ABCG transporters: structure, substrate specificities and physiological roles
A Brief Overview
Saroj Velamakanni, Shen L. Wei, Tavan Janvilisri and Hendrik W. van Veen
473-479
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
Role of CFTR’s intrinsic adenylate kinase activity in gating of the Cl− channel
Christoph O. Randak and Michael J. Welsh
481-487
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
Genomics and the mechanism of P-glycoprotein (ABCB1)
Zuben E. Sauna, In-Wha Kim and Suresh V. Ambudkar
489-497
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
Targeted degradation of ABC transporters in health and disease
Daphne Nikles and Robert Tampé
499-505
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
Building an understanding of cystic fibrosis on the foundation of ABC transporter structures
Juan L. Mendoza and Philip J. Thomas
507-517
Transport ATPases: Structure, Mechanism and Relevance to Multiple Diseases
ATP-binding cassette transporter ABCA4: Molecular properties and role in vision and macular degeneration
Robert S. Molday