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PDBsum entry 1l2t
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Transport protein PDB id
1l2t

 

 

 

 

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Contents
Protein chains
230 a.a. *
Ligands
ATP ×2
IPA ×2
Metals
_NA ×2
Waters ×417
* Residue conservation analysis
PDB id:
1l2t
Name: Transport protein
Title: Dimeric structure of mj0796, a bacterial abc transporter cassette
Structure: Hypothetical abc transporter atp-binding protein mj0796. Chain: a, b. Engineered: yes. Mutation: yes
Source: Methanocaldococcus jannaschii. Organism_taxid: 2190. Expressed in: escherichia coli. Expression_system_taxid: 562
Biol. unit: Tetramer (from PQS)
Resolution:
1.90Å     R-factor:   0.185     R-free:   0.251
Authors: P.C.Smith,N.Karpowich,J.Rosen,J.F.Hunt
Key ref:
P.C.Smith et al. (2002). ATP binding to the motor domain from an ABC transporter drives formation of a nucleotide sandwich dimer. Mol Cell, 10, 139-149. PubMed id: 12150914 DOI: 10.1016/S1097-2765(02)00576-2
Date:
24-Feb-02     Release date:   24-Jul-02    
PROCHECK
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 Headers
 References

Protein chains
Pfam   ArchSchema ?
Q58206  (Y796_METJA) -  Uncharacterized ABC transporter ATP-binding protein MJ0796 from Methanocaldococcus jannaschii (strain ATCC 43067 / DSM 2661 / JAL-1 / JCM 10045 / NBRC 100440)
Seq:
Struc: 		235 a.a.
230 a.a.*
Key:    PfamA domain  Secondary structure  CATH domain
* PDB and UniProt seqs differ at 1 residue position (black cross)

 Enzyme reactions 
   Enzyme class: E.C.?
[IntEnz]   [ExPASy]   [KEGG]   [BRENDA]

 

 
DOI no: 10.1016/S1097-2765(02)00576-2 Mol Cell 10:139-149 (2002)
PubMed id: 12150914  
 
 
ATP binding to the motor domain from an ABC transporter drives formation of a nucleotide sandwich dimer.
P.C.Smith, N.Karpowich, L.Millen, J.E.Moody, J.Rosen, P.J.Thomas, J.F.Hunt.
 
  ABSTRACT  
 
It has been proposed that the reaction cycle of ATP binding cassette (ABC) transporters is driven by dimerization of their ABC motor domains upon binding ATP at their mutual interface. However, no such ATP sandwich complex has been observed for an ABC from an ABC transporter. In this paper, we report the crystal structure of a stable dimer formed by the E171Q mutant of the MJ0796 ABC, which is hydrolytically inactive due to mutation of the catalytic base. The structure shows a symmetrical dimer in which two ATP molecules are each sandwiched between the Walker A motif in one subunit and the LSGGQ signature motif in the other subunit. These results establish the stereochemical basis of the power stroke of ABC transporter pumps.
 
  Selected figure(s)  
 
Figure 2.
Figure 2. Crystal Structure of the MJ0796-E171Q ATP Sandwich DimerThe stereo ribbon diagrams (Kraulis 1991 and Merritt and Bacon 1997) are color coded according to subdomain organization, with the F1-type ATP binding core shown in orange, the antiparallel β subdomain in green, the α-helical subdomain in blue, and the γ-phosphate linker in red. This color scheme is equivalent to that used by Yuan et al. (2001), except for the presentation of the γ-phosphate linker in red. See Figure 3B for the location of the subdomains in the primary structure of the protein.(A) Overall dimer structure. The bound Na-ATP molecules are shown in space-filling representations, with the nucleotides shown in magenta and the cation cofactors shown in yellow. Sidechains contacting either the nucleotides or the other subunit are shown in ball-and-stick representations, color-coded according to the subdomain of origin; see Figure 3A for a detailed contact diagram including the identity of all of these residues. As shown here, the proximal face of the ABC contacts the TM domains in the crystal structure of MsbA (Chang and Roth, 2001).(B) Active site stereochemistry. Lighter shades are used to indicate segments coming from the “A” subunit whose Walker A motif is interacting with the nucleotide, while darker shades are used to indicate segments coming from the “B” subunit whose LSGGQ signature motif is interacting with the nucleotide. The dotted lines indicate H bonds and are colored to correspond to the donor group participating in the interaction. The yellow sphere indicates the Na^+ cofactor of the nucleotide. The turquoise spheres indicate water molecules, with the rightmost one being the putative hydrolytic water. 		Figure 4.
Figure 4. Conformational Differences between ADP-Bound and ATP-Bound MJ0796 MonomersThe crystal structure of Mg-ADP-bound wild-type MJ0796 (Yuan et al., 2001) (lighter colors) is superimposed on that of the Na-ATP-bound E171Q mutant (darker colors) based on least-squares alignment of 65 Cα atoms located in the α helix following the Walker A motif and the 6 β strands in the F1-type ATP binding core. The backbone and sidechains of each model are color coded according to subdomain organization as in Figure 2A. The crystal structure of the E171Q mutant of MJ0796 bound to Mg-ADP is essentially identical to that of the wild-type protein bound to the same ligand (data not shown). This view shows the molecular surface of the monomer facing the intersubunit interface in the nucleotide sandwich dimer.
 
  The above figures are reprinted by permission from Cell Press: Mol Cell (2002, 10, 139-149) copyright 2002.  
  Figures were selected by an automated process.  

Literature references that cite this PDB file's key reference

  PubMed id Reference
22447242 M.Hohl, C.Briand, M.G.Grütter, and M.A.Seeger (2012).
Crystal structure of a heterodimeric ABC transporter in its inward-facing conformation.
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PDB code: 3qf4
22358840 T.Becker, S.Franckenberg, S.Wickles, C.J.Shoemaker, A.M.Anger, J.P.Armache, H.Sieber, C.Ungewickell, O.Berninghausen, I.Daberkow, A.Karcher, M.Thomm, K.P.Hopfner, R.Green, and R.Beckmann (2012).
Structural basis of highly conserved ribosome recycling in eukaryotes and archaea.
  Nature, 482, 501-506.
PDB codes: 3j15 3j16
23000901 V.M.Korkhov, S.A.Mireku, and K.P.Locher (2012).
Structure of AMP-PNP-bound vitamin B12 transporter BtuCD-F.
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PDB code: 4fi3
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Conformational changes induced by ATP-hydrolysis in an ABC transporter: A molecular dynamics study of the Sav1866 exporter.
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Determinants of eukaryal cell killing by the bacterial ribotoxin PrrC.
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21292982 D.Barthelme, S.Dinkelaker, S.V.Albers, P.Londei, U.Ermler, and R.Tampé (2011).
Ribosome recycling depends on a mechanistic link between the FeS cluster domain and a conformational switch of the twin-ATPase ABCE1.
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A new ATP-binding cassette protein is involved in intracellular haem trafficking in Leishmania.
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21194365 R.P.Gupta, P.Kueppers, L.Schmitt, and R.Ernst (2011).
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21315686 R.Yang, Y.X.Hou, C.A.Campbell, K.Palaniyandi, Q.Zhao, A.J.Bordner, and X.B.Chang (2011).
Glutamine residues in Q-loops of multidrug resistance protein MRP1 contribute to ATP binding via interaction with metal cofactor.
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20497229 T.Eitinger, D.A.Rodionov, M.Grote, and E.Schneider (2011).
Canonical and ECF-type ATP-binding cassette importers in prokaryotes: diversity in modular organization and cellular functions.
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20061384 A.Siarheyeva, R.Liu, and F.J.Sharom (2010).
Characterization of an asymmetric occluded state of P-glycoprotein with two bound nucleotides: implications for catalysis.
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  20876359 A.Szollosi, P.Vergani, and L.Csanády (2010).
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Cancer-relevant biochemical targets of cytotoxic Lonchocarpus flavonoids: a molecular docking analysis.
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Dynamics of alpha-helical subdomain rotation in the intact maltose ATP-binding cassette transporter.
  Proc Natl Acad Sci U S A, 107, 20293-20298.  
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Integrated biophysical studies implicate partial unfolding of NBD1 of CFTR in the molecular pathogenesis of F508del cystic fibrosis.
  Protein Sci, 19, 1932-1947.  
20644544 D.Parcej, and R.Tampé (2010).
ABC proteins in antigen translocation and viral inhibition.
  Nat Chem Biol, 6, 572-580.  
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  J Virol, 84, 5391-5403.  
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A stable ATP binding to the nucleotide binding domain is important for reliable gating cycle in an ABC transporter CFTR.
  J Physiol Sci, 60, 353-362.  
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Multidrug efflux pumps: the structures of prokaryotic ATP-binding cassette transporter efflux pumps and implications for our understanding of eukaryotic P-glycoproteins and homologues.
  FEBS J, 277, 550-563.  
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Asymmetric switching in a homodimeric ABC transporter: a simulation study.
  PLoS Comput Biol, 6, e1000762.  
19996093 J.W.Weng, K.N.Fan, and W.N.Wang (2010).
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  J Biol Chem, 285, 3053-3063.  
20977778 J.Xiong, L.Feng, D.Yuan, C.Fu, and W.Miao (2010).
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  BMC Evol Biol, 10, 330.  
19966305 L.Csanády, P.Vergani, and D.C.Gadsby (2010).
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  J Gen Physiol, 135, 399-414.  
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Structures of the nucleotide-binding domain of the human ABCB6 transporter and its complexes with nucleotides.
  Acta Crystallogr D Biol Crystallogr, 66, 979-987.
PDB codes: 3nh6 3nh9 3nha 3nhb
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PDB codes: 2pze 2pzf 2pzg
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Structure and function of the human breast cancer resistance protein (BCRP/ABCG2).
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The ABC transporter MsbA interacts with lipid A and amphipathic drugs at different sites.
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  Adv Drug Deliv Rev, 61, 57-65.  
  19704900 C.De Marcos Lousa, D.Dietrich, B.Johnson, S.A.Baldwin, M.J.Holdsworth, F.L.Theodoulou, and A.Baker (2009).
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The peptide-loading complex--antigen translocation and MHC class I loading.
  Biol Chem, 390, 783-794.  
19339978 D.C.Gadsby (2009).
Ion channels versus ion pumps: the principal difference, in principle.
  Nat Rev Mol Cell Biol, 10, 344-352.  
19234479 D.C.Rees, E.Johnson, and O.Lewinson (2009).
ABC transporters: the power to change.
  Nat Rev Mol Cell Biol, 10, 218-227.  
19019987 D.Dietrich, H.Schmuths, C.d.e. .M.Lousa, J.M.Baldwin, S.A.Baldwin, A.Baker, F.L.Theodoulou, and M.J.Holdsworth (2009).
Mutations in the Arabidopsis peroxisomal ABC transporter COMATOSE allow differentiation between multiple functions in planta: insights from an allelic series.
  Mol Biol Cell, 20, 530-543.  
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Alternating access in maltose transporter mediated by rigid-body rotations.
  Mol Cell, 33, 528-536.
PDB code: 3fh6
18957373 D.Muallem, and P.Vergani (2009).
Review. ATP hydrolysis-driven gating in cystic fibrosis transmembrane conductance regulator.
  Philos Trans R Soc Lond B Biol Sci, 364, 247-255.  
19135106 E.Nicolle, A.Boumendjel, S.Macalou, E.Genoux, A.Ahmed-Belkacem, P.A.Carrupt, and A.Di Pietro (2009).
QSAR analysis and molecular modeling of ABCG2-specific inhibitors.
  Adv Drug Deliv Rev, 61, 34-46.  
19261456 E.Procko, and R.Gaudet (2009).
Antigen processing and presentation: TAPping into ABC transporters.
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19297616 G.Oancea, M.L.O'Mara, W.F.Bennett, D.P.Tieleman, R.Abele, and R.Tampé (2009).
Structural arrangement of the transmission interface in the antigen ABC transport complex TAP.
  Proc Natl Acad Sci U S A, 106, 5551-5556.  
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MacB ABC Transporter Is a Dimer Whose ATPase Activity and Macrolide-binding Capacity Are Regulated by the Membrane Fusion Protein MacA.
  J Biol Chem, 284, 1145-1154.  
19837660 J.H.Chen, Z.Cai, and D.N.Sheppard (2009).
Direct sensing of intracellular pH by the cystic fibrosis transmembrane conductance regulator (CFTR) Cl- channel.
  J Biol Chem, 284, 35495-35506.  
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Structural and mutational analyses of Deinococcus radiodurans UvrA2 provide insight into DNA binding and damage recognition by UvrAs.
  Structure, 17, 547-558.
PDB codes: 2vf7 2vf8
19254551 J.Weng, J.Ma, K.Fan, and W.Wang (2009).
Asymmetric conformational flexibility in the ATP-binding cassette transporter HI1470/1.
  Biophys J, 96, 1918-1930.  
19886810 K.Nasmyth, and C.H.Haering (2009).
Cohesin: its roles and mechanisms.
  Annu Rev Genet, 43, 525-558.  
  19635854 L.Csanády (2009).
Application of rate-equilibrium free energy relationship analysis to nonequilibrium ion channel gating mechanisms.
  J Gen Physiol, 134, 129-136.  
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Probing the conformation of the resting state of a bacterial multidrug ABC transporter, BmrA, by a site-directed spin labeling approach.
  Protein Sci, 18, 1507-1520.  
  19332621 M.F.Tsai, H.Shimizu, Y.Sohma, M.Li, and T.C.Hwang (2009).
State-dependent modulation of CFTR gating by pyrophosphate.
  J Gen Physiol, 133, 405-419.  
19808685 M.Herget, N.Kreissig, C.Kolbe, C.Schölz, R.Tampé, and R.Abele (2009).
Purification and reconstitution of the antigen transport complex TAP: a prerequisite for determination of peptide stoichiometry and ATP hydrolysis.
  J Biol Chem, 284, 33740-33749.  
19047355 M.L.Daus, M.Grote, and E.Schneider (2009).
The MalF P2 loop of the ATP-binding cassette transporter MalFGK2 from Escherichia coli and Salmonella enterica serovar typhimurium interacts with maltose binding protein (MalE) throughout the catalytic cycle.
  J Bacteriol, 191, 754-761.  
19017635 N.Makharashvili, T.Mi, O.Koroleva, and S.Korolev (2009).
RecR-mediated Modulation of RecF Dimer Specificity for Single- and Double-stranded DNA.
  J Biol Chem, 284, 1425-1434.  
18831048 P.M.Jones, and A.M.George (2009).
Opening of the ADP-bound active site in the ABC transporter ATPase dimer: evidence for a constant contact, alternating sites model for the catalytic cycle.
  Proteins, 75, 387-396.  
19748784 P.M.Jones, M.L.O'Mara, and A.M.George (2009).
ABC transporters: a riddle wrapped in a mystery inside an enigma.
  Trends Biochem Sci, 34, 520-531.  
19715704 P.Zou, and H.S.McHaourab (2009).
Alternating access of the putative substrate-binding chamber in the ABC transporter MsbA.
  J Mol Biol, 393, 574-585.  
19748342 S.Newstead, P.W.Fowler, P.Bilton, E.P.Carpenter, P.J.Sadler, D.J.Campopiano, M.S.Sansom, and S.Iwata (2009).
Insights into how nucleotide-binding domains power ABC transport.
  Structure, 17, 1213-1222.
PDB code: 3fvq
19167254 S.Y.Huang, D.Bolser, H.Y.Liu, T.C.Hwang, and X.Zou (2009).
Molecular modeling of the heterodimer of human CFTR's nucleotide-binding domains using a protein-protein docking approach.
  J Mol Graph Model, 27, 822-828.  
19453273 U.A.Hellmich, and C.Glaubitz (2009).
NMR and EPR studies of membrane transporters.
  Biol Chem, 390, 815-834.  
19544044 V.Kos, and R.C.Ford (2009).
The ATP-binding cassette family: a structural perspective.
  Cell Mol Life Sci, 66, 3111-3126.  
  19114635 X.Wang, S.G.Bompadre, M.Li, and T.C.Hwang (2009).
Mutations at the signature sequence of CFTR create a Cd(2+)-gated chloride channel.
  J Gen Physiol, 133, 69-77.  
19691360 Y.X.Hou, C.Z.Li, K.Palaniyandi, P.M.Magtibay, L.Homolya, B.Sarkadi, and X.B.Chang (2009).
Effects of putative catalytic base mutation E211Q on ABCG2-mediated methotrexate transport.
  Biochemistry, 48, 9122-9131.  
18160405 A.Karcher, A.Schele, and K.P.Hopfner (2008).
X-ray structure of the complete ABC enzyme ABCE1 from Pyrococcus abyssi.
  J Biol Chem, 283, 7962-7971.
PDB code: 3bk7
18535149 A.L.Davidson, E.Dassa, C.Orelle, and J.Chen (2008).
Structure, function, and evolution of bacterial ATP-binding cassette systems.
  Microbiol Mol Biol Rev, 72, 317.  
18694937 C.M.Lewarchik, K.W.Peters, J.Qi, and R.A.Frizzell (2008).
Regulation of CFTR Trafficking by Its R Domain.
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18725638 C.Orelle, T.Ayvaz, R.M.Everly, C.S.Klug, and A.L.Davidson (2008).
Both maltose-binding protein and ATP are required for nucleotide-binding domain closure in the intact maltose ABC transporter.
  Proc Natl Acad Sci U S A, 105, 12837-12842.  
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ATP hydrolysis and pristinamycin IIA inhibition of the Staphylococcus aureus Vga(A), a dual ABC protein involved in streptogramin A resistance.
  J Biol Chem, 283, 25332-25339.  
18154452 F.J.Sharom (2008).
ABC multidrug transporters: structure, function and role in chemoresistance.
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18489584 I.Carrier, and P.Gros (2008).
Investigating the role of the invariant carboxylate residues E552 and E1197 in the catalytic activity of Abcb1a (mouse Mdr3).
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18304008 J.R.Riordan (2008).
CFTR function and prospects for therapy.
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18284576 J.S.Griffitts, and S.R.Long (2008).
A symbiotic mutant of Sinorhizobium meliloti reveals a novel genetic pathway involving succinoglycan biosynthetic functions.
  Mol Microbiol, 67, 1292-1306.  
17951296 J.Weng, J.Ma, K.Fan, and W.Wang (2008).
The conformational coupling and translocation mechanism of vitamin B12 ATP-binding cassette transporter BtuCD.
  Biophys J, 94, 612-621.  
18093977 J.Y.Lee, I.L.Urbatsch, A.E.Senior, and S.Wilkens (2008).
Nucleotide-induced structural changes in P-glycoprotein observed by electron microscopy.
  J Biol Chem, 283, 5769-5779.  
19053284 K.M.Westfahl, J.A.Merten, A.H.Buchaklian, and C.S.Klug (2008).
Functionally important ATP binding and hydrolysis sites in Escherichia coli MsbA.
  Biochemistry, 47, 13878-13886.  
18658148 L.He, A.A.Aleksandrov, A.W.Serohijos, T.Hegedus, L.A.Aleksandrov, L.Cui, N.V.Dokholyan, and J.R.Riordan (2008).
Multiple membrane-cytoplasmic domain contacts in the cystic fibrosis transmembrane conductance regulator (CFTR) mediate regulation of channel gating.
  J Biol Chem, 283, 26383-26390.  
18948194 M.L.Oldham, A.L.Davidson, and J.Chen (2008).
Structural insights into ABC transporter mechanism.
  Curr Opin Struct Biol, 18, 726-733.  
18675588 M.Raghavan, N.Del Cid, S.M.Rizvi, and L.R.Peters (2008).
MHC class I assembly: out and about.
  Trends Immunol, 29, 436-443.  
18621668 N.S.Kadaba, J.T.Kaiser, E.Johnson, A.Lee, and D.C.Rees (2008).
The high-affinity E. coli methionine ABC transporter: structure and allosteric regulation.
  Science, 321, 250-253.
PDB codes: 3dhw 3dhx
18790847 P.C.Wen, and E.Tajkhorshid (2008).
Dimer opening of the nucleotide binding domains of ABC transporters after ATP hydrolysis.
  Biophys J, 95, 5100-5110.  
18344567 P.D.Eckford, and F.J.Sharom (2008).
Functional characterization of Escherichia coli MsbA: interaction with nucleotides and substrates.
  J Biol Chem, 283, 12840-12850.  
18805924 Q.Dong, C.O.Randak, and M.J.Welsh (2008).
A mutation in CFTR modifies the effects of the adenylate kinase inhibitor Ap5A on channel gating.
  Biophys J, 95, 5178-5185.  
18356296 R.Ernst, P.Kueppers, C.M.Klein, T.Schwarzmueller, K.Kuchler, and L.Schmitt (2008).
A mutation of the H-loop selectively affects rhodamine transport by the yeast multidrug ABC transporter Pdr5.
  Proc Natl Acad Sci U S A, 105, 5069-5074.  
18715873 R.Masia, and C.G.Nichols (2008).
Functional clustering of mutations in the dimer interface of the nucleotide binding folds of the sulfonylurea receptor.
  J Biol Chem, 283, 30322-30329.  
18088596 R.Yang, R.Scavetta, and X.B.Chang (2008).
The hydroxyl group of S685 in Walker A motif and the carboxyl group of D792 in Walker B motif of NBD1 play a crucial role for multidrug resistance protein folding and function.
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18673453 S.Acharya (2008).
Mutations in the signature motif in MutS affect ATP-induced clamp formation and mismatch repair.
  Mol Microbiol, 69, 1544-1559.  
18644782 S.Pagant, E.Y.Brovman, J.J.Halliday, and E.A.Miller (2008).
Mapping of interdomain interfaces required for the functional architecture of Yor1p, a eukaryotic ATP-binding cassette (ABC) transporter.
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18311911 S.Park, B.B.Lim, C.Perez-Terzic, G.Mer, and A.Terzic (2008).
Interaction of asymmetric ABCC9-encoded nucleotide binding domains determines KATP channel SUR2A catalytic activity.
  J Proteome Res, 7, 1721-1728.  
18198173 Y.Shi, X.Chen, Z.Wu, W.Shi, Y.Yang, N.Cui, C.Jiang, and R.W.Harrison (2008).
cAMP-dependent protein kinase phosphorylation produces interdomain movement in SUR2B leading to activation of the vascular KATP channel.
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17021796 A.A.Aleksandrov, L.A.Aleksandrov, and J.R.Riordan (2007).
CFTR (ABCC7) is a hydrolyzable-ligand-gated channel.
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18024585 A.Ward, C.L.Reyes, J.Yu, C.B.Roth, and G.Chang (2007).
Flexibility in the ABC transporter MsbA: Alternating access with a twist.
  Proc Natl Acad Sci U S A, 104, 19005-19010.
PDB codes: 3b5w 3b5x 3b5y 3b5z 3b60
17932790 B.Gerwe, L.L.Kelley, B.D.Dillard, T.Lai, Z.J.Liu, W.Tempel, L.Chen, J.Habel, D.Lee, F.E.Jenney, F.J.Sugar, J.S.Richardson, D.C.Richardson, M.G.Newton, B.C.Wang, M.W.Adams, and J.P.Rose (2007).
Structural and transcriptional analyses of a purine nucleotide-binding protein from Pyrococcus furiosus: a component of a novel, membrane-bound multiprotein complex unique to this hyperthermophilic archaeon.
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17208306 C.A.McDevitt, and R.Callaghan (2007).
How can we best use structural information on P-glycoprotein to design inhibitors?
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17429392 C.F.Higgins (2007).
Multiple molecular mechanisms for multidrug resistance transporters.
  Nature, 446, 749-757.  
17972020 D.Nikles, and R.Tampé (2007).
Targeted degradation of ABC transporters in health and disease.
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17964259 E.Marquenet, and E.Richet (2007).
How integration of positive and negative regulatory signals by a STAND signaling protein depends on ATP hydrolysis.
  Mol Cell, 28, 187-199.  
17158291 H.W.Pinkett, A.T.Lee, P.Lum, K.P.Locher, and D.C.Rees (2007).
An inward-facing conformation of a putative metal-chelate-type ABC transporter.
  Science, 315, 373-377.
PDB code: 2nq2
17561960 H.de Wet, M.V.Mikhailov, C.Fotinou, M.Dreger, T.J.Craig, C.Vénien-Bryan, and F.M.Ashcroft (2007).
Studies of the ATPase activity of the ABC protein SUR1.
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18058005 J.C.Greie, and K.Altendorf (2007).
The K+-translocating KdpFABC complex from Escherichia coli: a P-type ATPase with unique features.
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18080175 J.L.Mendoza, and P.J.Thomas (2007).
Building an understanding of cystic fibrosis on the foundation of ABC transporter structures.
  J Bioenerg Biomembr, 39, 499-505.  
17660831 J.M.Baker, R.P.Hudson, V.Kanelis, W.Y.Choy, P.H.Thibodeau, P.J.Thomas, and J.D.Forman-Kay (2007).
CFTR regulatory region interacts with NBD1 predominantly via multiple transient helices.
  Nat Struct Mol Biol, 14, 738-745.  
17322901 K.Hollenstein, D.C.Frei, and K.P.Locher (2007).
Structure of an ABC transporter in complex with its binding protein.
  Nature, 446, 213-216.
PDB codes: 2onk 2onr 2ons
16937116 K.J.Linton, and C.F.Higgins (2007).
Structure and function of ABC transporters: the ATP switch provides flexible control.
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17164240 M.Herget, G.Oancea, S.Schrodt, M.Karas, R.Tampé, and R.Abele (2007).
Mechanism of substrate sensing and signal transmission within an ABC transporter: use of a Trojan horse strategy.
  J Biol Chem, 282, 3871-3880.  
16710701 M.Herget, and R.Tampé (2007).
Intracellular peptide transporters in human--compartmentalization of the "peptidome".
  Pflugers Arch, 453, 591-600.  
17545154 M.L.Daus, M.Grote, P.Müller, M.Doebber, A.Herrmann, H.J.Steinhoff, E.Dassa, and E.Schneider (2007).
ATP-driven MalK dimer closure and reopening and conformational changes of the "EAA" motifs are crucial for function of the maltose ATP-binding cassette transporter (MalFGK2).
  J Biol Chem, 282, 22387-22396.  
18033289 M.L.Oldham, D.Khare, F.A.Quiocho, A.L.Davidson, and J.Chen (2007).
Crystal structure of a catalytic intermediate of the maltose transporter.
  Nature, 450, 515-521.
PDB code: 2r6g
18096505 M.Rojas-Pierce, B.Titapiwatanakun, E.J.Sohn, F.Fang, C.K.Larive, J.Blakeslee, Y.Cheng, S.R.Cutler, S.Cuttler, W.A.Peer, A.S.Murphy, and N.V.Raikhel (2007).
Arabidopsis P-glycoprotein19 participates in the inhibition of gravitropism by gravacin.
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17255941 O.Koroleva, N.Makharashvili, C.T.Courcelle, J.Courcelle, and S.Korolev (2007).
Structural conservation of RecF and Rad50: implications for DNA recognition and RecF function.
  EMBO J, 26, 867-877.
PDB code: 2o5v
17485460 P.M.Jones, and A.M.George (2007).
Nucleotide-dependent allostery within the ABC transporter ATP-binding cassette: a computational study of the MJ0796 dimer.
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17927448 P.P.Borbat, K.Surendhran, M.Bortolus, P.Zou, J.H.Freed, and H.S.Mchaourab (2007).
Conformational motion of the ABC transporter MsbA induced by ATP hydrolysis.
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17578454 R.J.Dawson, K.Hollenstein, and K.P.Locher (2007).
Uptake or extrusion: crystal structures of full ABC transporters suggest a common mechanism.
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17673622 R.N.Hvorup, B.A.Goetz, M.Niederer, K.Hollenstein, E.Perozo, and K.P.Locher (2007).
Asymmetry in the structure of the ABC transporter-binding protein complex BtuCD-BtuF.
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PDB code: 2qi9
17187755 R.Yang, and X.B.Chang (2007).
Hydrogen-bond formation of the residue in H-loop of the nucleotide binding domain 2 with the ATP in this site and/or other residues of multidrug resistance protein MRP1 plays a crucial role during ATP-dependent solute transport.
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G551D and G1349D, two CF-associated mutations in the signature sequences of CFTR, exhibit distinct gating defects.
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17892490 S.Gompf, A.Zutz, M.Hofacker, W.Haase, C.van der Does, and R.Tampé (2007).
Switching of the homooligomeric ATP-binding cassette transport complex MDL1 from post-translational mitochondrial import to endoplasmic reticulum insertion.
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17764951 S.J.Lee, A.Böhm, M.Krug, and W.Boos (2007).
The ABC of binding-protein-dependent transport in Archaea.
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17178710 W.Wang, K.Bernard, G.Li, and K.L.Kirk (2007).
Curcumin opens cystic fibrosis transmembrane conductance regulator channels by a novel mechanism that requires neither ATP binding nor dimerization of the nucleotide-binding domains.
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17295059 X.B.Chang (2007).
A molecular understanding of ATP-dependent solute transport by multidrug resistance-associated protein MRP1.
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18058211 Z.E.Sauna, I.W.Kim, and S.V.Ambudkar (2007).
Genomics and the mechanism of P-glycoprotein (ABCB1).
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17029409 A.H.Buchaklian, and C.S.Klug (2006).
Characterization of the LSGGQ and H motifs from the Escherichia coli lipid A transporter MsbA.
  Biochemistry, 45, 12539-12546.  
16929303 C.B.Andersen, T.Becker, M.Blau, M.Anand, M.Halic, B.Balar, T.Mielke, T.Boesen, J.S.Pedersen, C.M.Spahn, T.G.Kinzy, G.R.Andersen, and R.Beckmann (2006).
Structure of eEF3 and the mechanism of transfer RNA release from the E-site.
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PDB codes: 2iw3 2iwh 2ix3 2ix8
16554807 C.G.Nichols (2006).
KATP channels as molecular sensors of cellular metabolism.
  Nature, 440, 470-476.  
17068338 C.L.Perria, V.Rajamanickam, P.E.Lapinski, and M.Raghavan (2006).
Catalytic site modifications of TAP1 and TAP2 and their functional consequences.
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16541253 C.Oswald, I.B.Holland, and L.Schmitt (2006).
The motor domains of ABC-transporters. What can structures tell us?
  Naunyn Schmiedebergs Arch Pharmacol, 372, 385-399.  
16352609 C.van der Does, C.Presenti, K.Schulze, S.Dinkelaker, and R.Tampé (2006).
Kinetics of the ATP hydrolysis cycle of the nucleotide-binding domain of Mdl1 studied by a novel site-specific labeling technique.
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16554808 D.C.Gadsby, P.Vergani, and L.Csanády (2006).
The ABC protein turned chloride channel whose failure causes cystic fibrosis.
  Nature, 440, 477-483.  
16829526 D.L.Croteau, M.J.DellaVecchia, H.Wang, R.J.Bienstock, M.A.Melton, and B.Van Houten (2006).
The C-terminal zinc finger of UvrA does not bind DNA directly but regulates damage-specific DNA binding.
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16352607 D.W.Zhang, G.A.Graf, R.D.Gerard, J.C.Cohen, and H.H.Hobbs (2006).
Functional asymmetry of nucleotide-binding domains in ABCG5 and ABCG8.
  J Biol Chem, 281, 4507-4516.  
17215877 E.O.Oloo, C.Kandt, M.L.O'Mara, and D.P.Tieleman (2006).
Computer simulations of ABC transporter components.
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16877382 E.O.Oloo, E.Y.Fung, and D.P.Tieleman (2006).
The dynamics of the MgATP-driven closure of MalK, the energy-transducing subunit of the maltose ABC transporter.
  J Biol Chem, 281, 28397-28407.  
17018292 E.Procko, I.Ferrin-O'Connell, S.L.Ng, and R.Gaudet (2006).
Distinct structural and functional properties of the ATPase sites in an asymmetric ABC transporter.
  Mol Cell, 24, 51-62.
PDB codes: 2ixe 2ixf 2ixg
17215884 F.J.Sharom (2006).
Shedding light on drug transport: structure and function of the P-glycoprotein multidrug transporter (ABCB1).
  Biochem Cell Biol, 84, 979-992.  
16858415 J.Zaitseva, C.Oswald, T.Jumpertz, S.Jenewein, A.Wiedenmann, I.B.Holland, and L.Schmitt (2006).
A structural analysis of asymmetry required for catalytic activity of an ABC-ATPase domain dimer.
  EMBO J, 25, 3432-3443.
PDB codes: 2ff7 2ffa 2ffb 2fgj 2fgk
16791740 K.Kurashima-Ito, T.Ikeya, H.Senbongi, H.Tochio, T.Mikawa, T.Shibata, and Y.Ito (2006).
Heteronuclear multidimensional NMR and homology modelling studies of the C-terminal nucleotide-binding domain of the human mitochondrial ABC transporter ABCB6.
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  17043148 L.Csanády, A.C.Nairn, and D.C.Gadsby (2006).
Thermodynamics of CFTR channel gating: a spreading conformational change initiates an irreversible gating cycle.
  J Gen Physiol, 128, 523-533.  
16826229 L.F.Cavanaugh, A.G.Palmer, L.M.Gierasch, and J.F.Hunt (2006).
Disorder breathes life into a DEAD motor.
  Nat Struct Mol Biol, 13, 566-569.  
16954224 M.Anand, B.Balar, R.Ulloque, S.R.Gross, and T.G.Kinzy (2006).
Domain and nucleotide dependence of the interaction between Saccharomyces cerevisiae translation elongation factors 3 and 1A.
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16352608 M.L.Daus, H.Landmesser, A.Schlosser, P.Müller, A.Herrmann, and E.Schneider (2006).
ATP induces conformational changes of periplasmic loop regions of the maltose ATP-binding cassette transporter.
  J Biol Chem, 281, 3856-3865.  
17036051 M.Mense, P.Vergani, D.M.White, G.Altberg, A.C.Nairn, and D.C.Gadsby (2006).
In vivo phosphorylation of CFTR promotes formation of a nucleotide-binding domain heterodimer.
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16864587 R.Ernst, J.Koch, C.Horn, R.Tampé, and L.Schmitt (2006).
Engineering ATPase activity in the isolated ABC cassette of human TAP1.
  J Biol Chem, 281, 27471-27480.  
16943773 R.J.Dawson, and K.P.Locher (2006).
Structure of a bacterial multidrug ABC transporter.
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PDB code: 2hyd
16971936 S.Schuldiner (2006).
Structural biology: the ins and outs of drug transport.
  Nature, 443, 156-157.  
16463278 S.Vandevuer, F.Van Bambeke, P.M.Tulkens, and M.Prévost (2006).
Predicting the three-dimensional structure of human P-glycoprotein in absence of ATP by computational techniques embodying crosslinking data: insight into the mechanism of ligand migration and binding sites.
  Proteins, 63, 466-478.  
16633335 T.Hirano (2006).
At the heart of the chromosome: SMC proteins in action.
  Nat Rev Mol Cell Biol, 7, 311-322.  
17144665 V.Rai, M.Gaur, S.Shukla, S.Shukla, S.V.Ambudkar, S.S.Komath, and R.Prasad (2006).
Conserved Asp327 of walker B motif in the N-terminal nucleotide binding domain (NBD-1) of Cdr1p of Candida albicans has acquired a new role in ATP hydrolysis.
  Biochemistry, 45, 14726-14739.  
17128986 X.Guo, X.Chen, I.T.Weber, R.W.Harrison, and P.C.Tai (2006).
Molecular basis for differential nucleotide binding of the nucleotide-binding domain of ABC-transporter CvaB.
  Biochemistry, 45, 14473-14480.  
16585747 Y.Ito, H.Matsuzawa, S.Matsuyama, S.Narita, and H.Tokuda (2006).
Genetic analysis of the mode of interplay between an ATPase subunit and membrane subunits of the lipoprotein-releasing ATP-binding cassette transporter LolCDE.
  J Bacteriol, 188, 2856-2864.  
17038124 Y.Ito, K.Kanamaru, N.Taniguchi, S.Miyamoto, and H.Tokuda (2006).
A novel ligand bound ABC transporter, LolCDE, provides insights into the molecular mechanisms underlying membrane detachment of bacterial lipoproteins.
  Mol Microbiol, 62, 1064-1075.  
16844693 Z.E.Sauna, K.Nandigama, and S.V.Ambudkar (2006).
Exploiting reaction intermediates of the ATPase reaction to elucidate the mechanism of transport by P-glycoprotein (ABCB1).
  J Biol Chem, 281, 26501-26511.  
  16966475 Z.Zhou, X.Wang, H.Y.Liu, X.Zou, M.Li, and T.C.Hwang (2006).
The two ATP binding sites of cystic fibrosis transmembrane conductance regulator (CFTR) play distinct roles in gating kinetics and energetics.
  J Gen Physiol, 128, 413-422.  
15910874 A.E.Alekseev, D.M.Hodgson, A.B.Karger, S.Park, L.V.Zingman, and A.Terzic (2005).
ATP-sensitive K+ channel channel/enzyme multimer: metabolic gating in the heart.
  J Mol Cell Cardiol, 38, 895-905.  
15837203 A.Karcher, K.Büttner, B.Märtens, R.P.Jansen, and K.P.Hopfner (2005).
X-ray structure of RLI, an essential twin cassette ABC ATPase involved in ribosome biogenesis and HIV capsid assembly.
  Structure, 13, 649-659.
PDB code: 1yqt
15623556 A.L.Berger, M.Ikuma, and M.J.Welsh (2005).
Normal gating of CFTR requires ATP binding to both nucleotide-binding domains and hydrolysis at the second nucleotide-binding domain.
  Proc Natl Acad Sci U S A, 102, 455-460.  
15890866 A.L.Davidson, and J.Chen (2005).
Structural biology. Flipping lipids: is the third time the charm?
  Science, 308, 963-965.  
15890884 C.L.Reyes, and G.Chang (2005).
Structure of the ABC transporter MsbA in complex with ADP.vanadate and lipopolysaccharide.
  Science, 308, 1028-1031.
PDB code: 1z2r
15684079 C.O.Randak, and M.J.Welsh (2005).
ADP inhibits function of the ABC transporter cystic fibrosis transmembrane conductance regulator via its adenylate kinase activity.
  Proc Natl Acad Sci U S A, 102, 2216-2220.  
16100108 C.O.Randak, and M.J.Welsh (2005).
Adenylate kinase activity in ABC transporters.
  J Biol Chem, 280, 34385-34388.  
15710614 C.R.Zito, E.Antony, J.F.Hunt, D.B.Oliver, and M.M.Hingorani (2005).
Role of a conserved glutamate residue in the Escherichia coli SecA ATPase mechanism.
  J Biol Chem, 280, 14611-14619.  
16691491 C.Schölz, and R.Tampé (2005).
The intracellular antigen transport machinery TAP in adaptive immunity and virus escape mechanisms.
  J Bioenerg Biomembr, 37, 509-515.  
15689966 D.M.Cyr (2005).
Arrest of CFTRDeltaF508 folding.
  Nat Struct Mol Biol, 12, 2-3.  
16691487 F.J.Sharom, M.R.Lugo, and P.D.Eckford (2005).
New insights into the drug binding, transport and lipid flippase activities of the p-glycoprotein multidrug transporter.
  J Bioenerg Biomembr, 37, 481-487.  
15989952 G.L.Hersch, R.E.Burton, D.N.Bolon, T.A.Baker, and R.T.Sauer (2005).
Asymmetric interactions of ATP with the AAA+ ClpX6 unfoldase: allosteric control of a protein machine.
  Cell, 121, 1017-1027.  
16326809 G.Lu, J.M.Westbrooks, A.L.Davidson, and J.Chen (2005).
ATP hydrolysis is required to reset the ATP-binding cassette dimer into the resting-state conformation.
  Proc Natl Acad Sci U S A, 102, 17969-17974.
PDB codes: 2awn 2awo
16691489 G.Tombline, and A.E.Senior (2005).
The occluded nucleotide conformation of p-glycoprotein.
  J Bioenerg Biomembr, 37, 497-500.  
15528182 H.A.Lewis, X.Zhao, C.Wang, J.M.Sauder, I.Rooney, B.W.Noland, D.Lorimer, M.C.Kearins, K.Conners, B.Condon, P.C.Maloney, W.B.Guggino, J.F.Hunt, and S.Emtage (2005).
Impact of the deltaF508 mutation in first nucleotide-binding domain of human cystic fibrosis transmembrane conductance regulator on domain folding and structure.
  J Biol Chem, 280, 1346-1353.
PDB codes: 1xmi 1xmj
15890883 J.Dong, G.Yang, and H.S.McHaourab (2005).
Structural basis of energy transduction in the transport cycle of MsbA.
  Science, 308, 1023-1028.  
16260602 J.Dong, R.Lai, J.L.Jennings, A.J.Link, and A.G.Hinnebusch (2005).
The novel ATP-binding cassette protein ARB1 is a shuttling factor that stimulates 40S and 60S ribosome biogenesis.
  Mol Cell Biol, 25, 9859-9873.  
16691486 J.E.Moody, and P.J.Thomas (2005).
Nucleotide binding domain interactions during the mechanochemical reaction cycle of ATP-binding cassette transporters.
  J Bioenerg Biomembr, 37, 475-479.  
15837186 J.H.Lebbink, and T.K.Sixma (2005).
Variations on the ABC.
  Structure, 13, 498-500.  
15889153 J.Zaitseva, S.Jenewein, T.Jumpertz, I.B.Holland, and L.Schmitt (2005).
H662 is the linchpin of ATP hydrolysis in the nucleotide-binding domain of the ABC transporter HlyB.
  EMBO J, 24, 1901-1910.
PDB code: 1xef
  15657296 L.Csanády, D.Seto-Young, K.W.Chan, C.Cenciarelli, B.B.Angel, J.Qin, D.T.McLachlin, A.N.Krutchinsky, B.T.Chait, A.C.Nairn, and D.C.Gadsby (2005).
Preferential phosphorylation of R-domain Serine 768 dampens activation of CFTR channels by PKA.
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  15596536 L.Csanády, K.W.Chan, A.C.Nairn, and D.C.Gadsby (2005).
Functional roles of nonconserved structural segments in CFTR's NH2-terminal nucleotide binding domain.
  J Gen Physiol, 125, 43-55.  
15485807 M.F.Rosenberg, R.Callaghan, S.Modok, C.F.Higgins, and R.C.Ford (2005).
Three-dimensional structure of P-glycoprotein: the transmembrane regions adopt an asymmetric configuration in the nucleotide-bound state.
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16107340 O.Dalmas, C.Orelle, A.E.Foucher, C.Geourjon, S.Crouzy, A.Di Pietro, and J.M.Jault (2005).
The Q-loop disengages from the first intracellular loop during the catalytic cycle of the multidrug ABC transporter BmrA.
  J Biol Chem, 280, 36857-36864.  
16246032 P.Vergani, C.Basso, M.Mense, A.C.Nairn, and D.C.Gadsby (2005).
Control of the CFTR channel's gates.
  Biochem Soc Trans, 33, 1003-1007.  
15729345 P.Vergani, S.W.Lockless, A.C.Nairn, and D.C.Gadsby (2005).
CFTR channel opening by ATP-driven tight dimerization of its nucleotide-binding domains.
  Nature, 433, 876-880.  
  15767296 S.G.Bompadre, J.H.Cho, X.Wang, X.Zou, Y.Sohma, M.Li, and T.C.Hwang (2005).
CFTR gating II: Effects of nucleotide binding on the stability of open states.
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15498768 S.Wada, K.Tanabe, A.Yamazaki, M.Niimi, Y.Uehara, K.Niimi, E.Lamping, R.D.Cannon, and B.C.Monk (2005).
Phosphorylation of candida glabrata ATP-binding cassette transporter Cdr1p regulates drug efflux activity and ATPase stability.
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16456713 T.W.Loo, and D.M.Clarke (2005).
Recent progress in understanding the mechanism of P-glycoprotein-mediated drug efflux.
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15542593 T.W.Loo, M.C.Bartlett, and D.M.Clarke (2005).
The dileucine motif at the COOH terminus of human multidrug resistance P-glycoprotein is important for folding but not activity.
  J Biol Chem, 280, 2522-2528.  
16001079 V.Chappe, T.Irvine, J.Liao, A.Evagelidis, and J.W.Hanrahan (2005).
Phosphorylation of CFTR by PKA promotes binding of the regulatory domain.
  EMBO J, 24, 2730-2740.  
16394574 Y.Kurachi, and M.Yamada (2005).
[Relationship between function and structure of ATP-sensitive K+ (KATP) channels]
  Nippon Yakurigaku Zasshi, 126, 311-316.  
15189142 A.L.Davidson, and J.Chen (2004).
ATP-binding cassette transporters in bacteria.
  Annu Rev Biochem, 73, 241-268.  
15458651 A.Lammens, A.Schele, and K.P.Hopfner (2004).
Structural biochemistry of ATP-driven dimerization and DNA-stimulated activation of SMC ATPases.
  Curr Biol, 14, 1778-1782.
PDB codes: 1xew 1xex
15452563 C.F.Higgins, and K.J.Linton (2004).
The ATP switch model for ABC transporters.
  Nat Struct Mol Biol, 11, 918-926.  
15383284 C.H.Haering, D.Schoffnegger, T.Nishino, W.Helmhart, K.Nasmyth, and J.Löwe (2004).
Structure and stability of cohesin's Smc1-kleisin interaction.
  Mol Cell, 15, 951-964.
PDB code: 1w1w
15459206 C.J.Westlake, L.Payen, M.Gao, S.P.Cole, and R.G.Deeley (2004).
Identification and characterization of functionally important elements in the multidrug resistance protein 1 COOH-terminal region.
  J Biol Chem, 279, 53571-53583.  
15551867 C.van der Does, and R.Tampé (2004).
How do ABC transporters drive transport?
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15368566 C.van der Does, and R.Tampé (2004).
Changing orders--primary and secondary membrane transporters revised.
  Chembiochem, 5, 1171-1175.  
15308647 E.O.Oloo, and D.P.Tieleman (2004).
Conformational transitions induced by the binding of MgATP to the vitamin B12 ATP-binding cassette (ABC) transporter BtuCD.
  J Biol Chem, 279, 45013-45019.  
15326176 G.Tombline, L.A.Bartholomew, G.A.Tyndall, K.Gimi, I.L.Urbatsch, and A.E.Senior (2004).
Properties of P-glycoprotein with mutations in the "catalytic carboxylate" glutamate residues.
  J Biol Chem, 279, 46518-46526.  
15159388 G.Tombline, L.A.Bartholomew, I.L.Urbatsch, and A.E.Senior (2004).
Combined mutation of catalytic glutamate residues in the two nucleotide binding domains of P-glycoprotein generates a conformation that binds ATP and ADP tightly.
  J Biol Chem, 279, 31212-31220.  
14638679 G.Tombline, L.Bartholomew, K.Gimi, G.A.Tyndall, and A.E.Senior (2004).
Synergy between conserved ABC signature Ser residues in P-glycoprotein catalysis.
  J Biol Chem, 279, 5363-5373.  
14685259 H.A.Lewis, S.G.Buchanan, S.K.Burley, K.Conners, M.Dickey, M.Dorwart, R.Fowler, X.Gao, W.B.Guggino, W.A.Hendrickson, J.F.Hunt, M.C.Kearins, D.Lorimer, P.C.Maloney, K.W.Post, K.R.Rajashankar, M.E.Rutter, J.M.Sauder, S.Shriver, P.H.Thibodeau, P.J.Thomas, M.Zhang, X.Zhao, and S.Emtage (2004).
Structure of nucleotide-binding domain 1 of the cystic fibrosis transmembrane conductance regulator.
  EMBO J, 23, 282-293.
PDB codes: 1q3h 1r0w 1r0x 1r0y 1r0z 1r10
15310852 J.A.James, A.K.Aggarwal, R.M.Linden, and C.R.Escalante (2004).
Structure of adeno-associated virus type 2 Rep40-ADP complex: insight into nucleotide recognition and catalysis by superfamily 3 helicases.
  Proc Natl Acad Sci U S A, 101, 12455-12460.
PDB code: 1u0j
14561746 J.D.Campbell, K.Koike, C.Moreau, M.S.Sansom, R.G.Deeley, and S.P.Cole (2004).
Molecular modeling correctly predicts the functional importance of Phe594 in transmembrane helix 11 of the multidrug resistance protein, MRP1 (ABCC1).
  J Biol Chem, 279, 463-468.  
15377525 J.D.Campbell, S.S.Deol, F.M.Ashcroft, I.D.Kerr, and M.S.Sansom (2004).
Nucleotide-dependent conformational changes in HisP: molecular dynamics simulations of an ABC transporter nucleotide-binding domain.
  Biophys J, 87, 3703-3715.  
15277527 J.Dong, R.Lai, K.Nielsen, C.A.Fekete, H.Qiu, and A.G.Hinnebusch (2004).
The essential ATP-binding cassette protein RLI1 functions in translation by promoting preinitiation complex assembly.
  J Biol Chem, 279, 42157-42168.  
15284228 J.F.Kidd, M.Ramjeesingh, F.Stratford, L.J.Huan, and C.E.Bear (2004).
A heteromeric complex of the two nucleotide binding domains of cystic fibrosis transmembrane conductance regulator (CFTR) mediates ATPase activity.
  J Biol Chem, 279, 41664-41669.  
15159567 J.Zaitseva, I.B.Holland, and L.Schmitt (2004).
The role of CAPS buffer in expanding the crystallization space of the nucleotide-binding domain of the ABC transporter haemolysin B from Escherichia coli.
  Acta Crystallogr D Biol Crystallogr, 60, 1076-1084.  
15313236 K.P.Locher (2004).
Structure and mechanism of ABC transporters.
  Curr Opin Struct Biol, 14, 426-431.  
14660649 L.Balakrishnan, H.Venter, R.A.Shilling, and H.W.van Veen (2004).
Reversible transport by the ATP-binding cassette multidrug export pump LmrA: ATP synthesis at the expense of downhill ethidium uptake.
  J Biol Chem, 279, 11273-11280.  
15322097 M.Chen, R.Abele, and R.Tampé (2004).
Functional non-equivalence of ATP-binding cassette signature motifs in the transporter associated with antigen processing (TAP).
  J Biol Chem, 279, 46073-46081.  
15175656 M.Hirano, and T.Hirano (2004).
Positive and negative regulation of SMC-DNA interactions by ATP and accessory proteins.
  EMBO J, 23, 2664-2673.  
14724630 P.F.Egea, S.O.Shan, J.Napetschnig, D.F.Savage, P.Walter, and R.M.Stroud (2004).
Substrate twinning activates the signal recognition particle and its receptor.
  Nature, 427, 215-221.
PDB code: 1rj9
15355964 Q.Zhao, and X.B.Chang (2004).
Mutation of the aromatic amino acid interacting with adenine moiety of ATP to a polar residue alters the properties of multidrug resistance protein 1.
  J Biol Chem, 279, 48505-48512.  
15155835 T.Ai, S.G.Bompadre, X.Wang, S.Hu, M.Li, and T.C.Hwang (2004).
Capsaicin potentiates wild-type and mutant cystic fibrosis transmembrane conductance regulator chloride-channel currents.
  Mol Pharmacol, 65, 1415-1426.  
14749322 T.W.Loo, M.C.Bartlett, and D.M.Clarke (2004).
Val133 and Cys137 in transmembrane segment 2 are close to Arg935 and Gly939 in transmembrane segment 11 of human P-glycoprotein.
  J Biol Chem, 279, 18232-18238.  
15247215 T.W.Loo, M.C.Bartlett, and D.M.Clarke (2004).
Processing mutations located throughout the human multidrug resistance P-glycoprotein disrupt interactions between the nucleotide binding domains.
  J Biol Chem, 279, 38395-38401.  
14670948 T.W.Loo, M.C.Bartlett, and D.M.Clarke (2004).
Disulfide cross-linking analysis shows that transmembrane segments 5 and 8 of human P-glycoprotein are close together on the cytoplasmic side of the membrane.
  J Biol Chem, 279, 7692-7697.  
15135525 V.Molle, D.Soulat, J.M.Jault, C.Grangeasse, A.J.Cozzone, and J.F.Prost (2004).
Two FHA domains on an ABC transporter, Rv1747, mediate its phosphorylation by PknF, a Ser/Thr protein kinase from Mycobacterium tuberculosis.
  FEMS Microbiol Lett, 234, 215-223.  
  12939393 C.Basso, P.Vergani, A.C.Nairn, and D.C.Gadsby (2003).
Prolonged nonhydrolytic interaction of nucleotide with CFTR's NH2-terminal nucleotide binding domain and its role in channel gating.
  J Gen Physiol, 122, 333-348.  
12709320 C.Gauthier, S.Weber, A.M.Alarco, O.Alqawi, R.Daoud, E.Georges, and M.Raymond (2003).
Functional similarities and differences between Candida albicans Cdr1p and Cdr2p transporters.
  Antimicrob Agents Chemother, 47, 1543-1554.  
12868056 C.H.Gray, M.Ines Borges-Walmsley, G.J.Evans, and A.R.Walmsley (2003).
The pfr1 gene from the human pathogenic fungus Paracoccidioides brasiliensis encodes a half-ABC transporter that is transcribed in response to treatment with fluconazole.
  Yeast, 20, 865-880.  
12968023 C.Orelle, O.Dalmas, P.Gros, A.Di Pietro, and J.M.Jault (2003).
The conserved glutamate residue adjacent to the Walker-B motif is the catalytic base for ATP hydrolysis in the ATP-binding cassette transporter BmrA.
  J Biol Chem, 278, 47002-47008.  
14697202 C.Randak, and M.J.Welsh (2003).
An intrinsic adenylate kinase activity regulates gating of the ABC transporter CFTR.
  Cell, 115, 837-850.  
12746444 E.Janas, M.Hofacker, M.Chen, S.Gompf, C.van der Does, and R.Tampé (2003).
The ATP hydrolysis cycle of the nucleotide-binding domain of the mitochondrial ATP-binding cassette transporter Mdl1p.
  J Biol Chem, 278, 26862-26869.  
12654004 G.Berridge, J.A.Walker, R.Callaghan, and I.D.Kerr (2003).
The nucleotide-binding domains of P-glycoprotein. Functional symmetry in the isolated domain demonstrated by N-ethylmaleimide labelling.
  Eur J Biochem, 270, 1483-1492.  
12830334 I.D.Kerr, G.Berridge, K.J.Linton, C.F.Higgins, and R.Callaghan (2003).
Definition of the domain boundaries is critical to the expression of the nucleotide-binding domains of P-glycoprotein.
  Eur Biophys J, 32, 644-654.  
12670938 I.L.Urbatsch, G.A.Tyndall, G.Tombline, and A.E.Senior (2003).
P-glycoprotein catalytic mechanism: studies of the ADP-vanadate inhibited state.
  J Biol Chem, 278, 23171-23179.  
14527411 J.Chen, G.Lu, J.Lin, A.L.Davidson, and F.A.Quiocho (2003).
A tweezers-like motion of the ATP-binding cassette dimer in an ABC transport cycle.
  Mol Cell, 12, 651-661.
PDB codes: 1q12 1q1b 1q1e
14593442 J.D.Campbell, M.S.Sansom, and F.M.Ashcroft (2003).
Potassium channel regulation.
  EMBO Rep, 4, 1038-1042.  
12667056 J.D.Campbell, P.C.Biggin, M.Baaden, and M.S.Sansom (2003).
Extending the structure of an ABC transporter to atomic resolution: modeling and simulation studies of MsbA.
  Biochemistry, 42, 3666-3673.  
14614839 K.P.Hopfner (2003).
Chromosome cohesion: closing time.
  Curr Biol, 13, R866-R868.  
12526851 K.S.McKeegan, M.I.Borges-Walmsley, and A.R.Walmsley (2003).
The structure and function of drug pumps: an update.
  Trends Microbiol, 11, 21-29.  
12777379 M.Chen, R.Abele, and R.Tampé (2003).
Peptides induce ATP hydrolysis at both subunits of the transporter associated with antigen processing.
  J Biol Chem, 278, 29686-29692.  
12468528 N.K.Karpowich, H.H.Huang, P.C.Smith, and J.F.Hunt (2003).
Crystal structures of the BtuF periplasmic-binding protein for vitamin B12 suggest a functionally important reduction in protein mobility upon ligand binding.
  J Biol Chem, 278, 8429-8434.
PDB codes: 1n4a 1n4d
14614819 P.Arumugam, S.Gruber, K.Tanaka, C.H.Haering, K.Mechtler, and K.Nasmyth (2003).
ATP hydrolysis is required for cohesin's association with chromosomes.
  Curr Biol, 13, 1941-1953.  
12501238 P.E.Lapinski, G.Raghuraman, and M.Raghavan (2003).
Nucleotide interactions with membrane-bound transporter associated with antigen processing proteins.
  J Biol Chem, 278, 8229-8237.  
12783859 R.Yang, L.Cui, Y.X.Hou, J.R.Riordan, and X.B.Chang (2003).
ATP binding to the first nucleotide binding domain of multidrug resistance-associated protein plays a regulatory role at low nucleotide concentration, whereas ATP hydrolysis at the second plays a dominant role in ATP-dependent leukotriene C4 transport.
  J Biol Chem, 278, 30764-30771.  
12813052 S.Samanta, T.Ayvaz, M.Reyes, H.A.Shuman, J.Chen, and A.L.Davidson (2003).
Disulfide cross-linking reveals a site of stable interaction between C-terminal regulatory domains of the two MalK subunits in the maltose transport complex.
  J Biol Chem, 278, 35265-35271.  
12421806 T.W.Loo, M.C.Bartlett, and D.M.Clarke (2003).
Drug binding in human P-glycoprotein causes conformational changes in both nucleotide-binding domains.
  J Biol Chem, 278, 1575-1578.  
12554933 Y.R.Yuan, O.Martsinkevich, and J.F.Hunt (2003).
Structural characterization of an MJ1267 ATP-binding cassette crystal with a complex pattern of twinning caused by promiscuous fiber packing.
  Acta Crystallogr D Biol Crystallogr, 59, 225-238.
PDB code: 1g9x
12458196 Y.X.Hou, J.R.Riordan, and X.B.Chang (2003).
ATP binding, not hydrolysis, at the first nucleotide-binding domain of multidrug resistance-associated protein MRP1 enhances ADP.Vi trapping at the second domain.
  J Biol Chem, 278, 3599-3605.  
12237398 P.M.Jones, and A.M.George (2002).
Mechanism of ABC transporters: a molecular dynamics simulation of a well characterized nucleotide-binding subunit.
  Proc Natl Acad Sci U S A, 99, 12639-12644.  
12226074 T.W.Loo, M.C.Bartlett, and D.M.Clarke (2002).
The "LSGGQ" motif in each nucleotide-binding domain of human P-glycoprotein is adjacent to the opposing walker A sequence.
  J Biol Chem, 277, 41303-41306.  
The most recent references are shown first. Citation data come partly from CiteXplore and partly from an automated harvesting procedure. Note that this is likely to be only a partial list as not all journals are covered by either method. However, we are continually building up the citation data so more and more references will be included with time. Where a reference describes a PDB structure, the PDB code is shown on the right.

 

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