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  1. 1.25 Å resolution structure of an RNA 20-mer that binds to the TREX2 complex
  2. Structural Characterization of the Chaetomium thermophilum TREX-2 Complex and its Interaction with the mRNA Nuclear Export Factor Mex67:Mtr2
  3. Structural characterization of the principal mRNA-export factor Mex67–Mtr2 fromChaetomium thermophilum
  4. IMPORTIN-ALPHA MINOR NLS SITE INHIBITOR
  5. IMPORTIN-ALPHA MINOR NLS SITE INHIBITOR
  6. IMPORTIN-ALPHA MINOR NLS SITE INHIBITOR
  7. IMPORTIN-ALPHA MINOR NLS SITE INHIBITOR
  8. IMPORTIN-ALPHA MINOR NLS SITE INHIBITOR
  9. IMPORTIN-ALPHA MINOR NLS SITE INHIBITOR
  10. IMPORTIN-ALPHA MINOR NLS SITE INHIBITOR
  11. IMPORTIN-ALPHA MINOR NLS SITE INHIBITOR
  12. Structure of the LRR and NTF2-like domains of NXF1 complexed with NXT1
  13. Promiscuous Binding of Karyopherinβ1 Modulates FG Nucleoporin Barrier Function and Expedites NTF2 Transport Kinetics
  14. Domain organization within the nuclear export factor Mex67:Mtr2 generates an extended mRNA binding surface
  15. Selective nuclear export of specific classes of mRNA from mammalian nuclei is promoted by GANP
  16. Ran in Nucleocytoplasmic Transport
  17. Nab2 Zn fingers complexed with polyadenosine
  18. Structural basis for the molecular recognition of polyadenosine RNA by Nab2 Zn fingers
  19. Structural biology of the PCI-protein fold
  20. Structural Basis for Polyadenosine-RNA Binding by Nab2 Zn Fingers and Its Function in mRNA Nuclear Export
  21. Structural basis for the assembly and disassembly of mRNA nuclear export complexes
  22. Structural basis for the assembly and nucleic acid binding of the TREX-2 transcription-export complex
  23. Functional and structural characterization of the mammalian TREX-2 complex that links transcription with nuclear messenger RNA export
  24. Electron Tomography of MSP Filaments Derived from the Amoeboid Sperm of Ascaris Suum
  25. Role of Major Sperm Protein (MSP) in the Protrusion and Retraction of Ascaris Sperm
  26. Reconstitution of Amoeboid Motility In Vitro Identifies a Motor-Independent Mechanism for Cell Body Retraction
  27. Single Molecule Studies of Nuclear Transport
  28. Cryo-Electron Microscopy, Tomography, and Single-Particle Analysis of MSP Filaments Derived from the Amoeboid Sperm of Ascaris Suum
  29. Nuclear export of mRNA
  30. GANP enhances the efficiency of mRNA nuclear export in mammalian cells
  31. Quantitative Structural Analysis of Importin-β Flexibility: Paradigm for Solenoid Protein Structures
  32. Nab-bing onto Gfd1♦
  33. Structural Basis for the Function of the Saccharomyces cerevisiae Gfd1 Protein in mRNA Nuclear Export
  34. Simulation of cell motility that reproduces the force–velocity relationship
  35. TPX2:importin-alpha complex
  36. Novel Binding of the Mitotic Regulator TPX2 (Target Protein for Xenopus Kinesin-like Protein 2) to Importin- 
  37. Choreography of Importin α/CAS Complex Assembly and Disassembly at the Nuclear Pore Complex
  38. mRNA Export from Mammalian Cell Nuclei Is Dependent on GANP
  39. Structural Basis for the Interaction between Yeast Spt-Ada-Gcn5 Acetyltransferase (SAGA) Complex Components Sgf11 and Sus1
  40. Dephosphorylation of Major Sperm Protein (MSP) Fiber Protein 3 by Protein Phosphatase 2A during Cell Body Retraction in the MSP-based Amoeboid Motility of Ascaris Sperm
  41. Structural Requirements for the Ubiquitin-associated Domain of the mRNA Export Factor Mex67 to Bind Its Specific Targets, the Transcription Elongation THO Complex Component Hpr1 and Nucleoporin FXFG Repeats
  42. Mutational Uncoupling of the Role of Sus1 in Nuclear Pore Complex Targeting of an mRNA Export Complex and Histone H2B Deubiquitination
  43. Sus1, Cdc31, and the Sac3 CID Region Form a Conserved Interaction Platform that Promotes Nuclear Pore Association and mRNA Export
  44. Mechanism of MSP-based Cell Body Retraction in the Amoeboid Sperm of Nematodes
  45. Kap95p Binding Induces the Switch Loops of RanGDP to Adopt the GTP-Bound Conformation: Implications for Nuclear Import Complex Assembly Dynamics
  46. Functional Significance of the Interaction between the mRNA-binding Protein, Nab2, and the Nuclear Pore-associated Protein, Mlp1, in mRNA Export
  47. Structural basis for tropomyosin overlap in thin (actin) filaments and the generation of a molecular swivel by troponin-T
  48. Crystal structure of the head-to-tail junction of tropomyosin
  49. Crystal structure of the head-to-tail junction of tropomyosin complexed with a fragment of TnT
  50. The role of filament-packing dynamics in powering amoeboid cell motility
  51. Structural basis for the nuclear import of the human androgen receptor
  52. Structure of the N-Terminal Mlp1-Binding Domain of the Saccharomyces cerevisiae mRNA-Binding Protein, Nab2
  53. Coordination of Hpr1 and Ubiquitin Binding by the UBA Domain of the mRNA Export Factor Mex67
  54. Inflammation and polyamine catabolism: the good, the bad and the ugly: Figure 1
  55. A Ser/Thr Kinase Required for Membrane-associated Assembly of the Major Sperm Protein Motility Apparatus in the Amoeboid Sperm of Ascaris
  56. Molecular mechanism of the nuclear protein import cycle
  57. Ratcheting mRNA out of the Nucleus
  58. Classical Nuclear Localization Signals: Definition, Function, and Interaction with Importin  
  59. Structural basis for the nuclear protein import cycle: Figure 1
  60. Karyopherin flexibility in nucleocytoplasmic transport
  61. Nup50/Npap60 function in nuclear protein import complex disassembly and importin recycling
  62. Structural Basis for the High-affinity Binding of Nucleoporin Nup1p to the Saccharomyces cerevisiae Importin-β Homologue, Kap95p
  63. Structural basis for nuclear import complex dissociation by RanGTP
  64. Structure of MFP2 and its Function in Enhancing MSP Polymerization in Ascaris Sperm Amoeboid Motility
  65. Cytoskeleton Dynamics Powers Nematode Sperm Motility
  66. Structural Basis for Vertebrate Filamin Dimerization
  67. Structural basis for the assembly of a nuclear export complex
  68. Retraction in Amoeboid Cell Motility Powered by Cytoskeletal Dynamics
  69. Structural basis for Nup2p function in cargo release and karyopherin recycling in nuclear import
  70. Solution NMR Study of the Interaction Between NTF2 and Nucleoporin FxFG Repeats
  71. A 48 kDa integral membrane phosphoprotein orchestrates the cytoskeletal dynamics that generate amoeboid cell motility in Ascaris sperm
  72. Structural Basis for the Interaction Between the Tap/NXF1 UBA Domain and FG Nucleoporins at 1Å Resolution
  73. GLFG and FxFG Nucleoporins Bind to Overlapping Sites on Importin-beta
  74. Structural basis for the interaction between NTF2 and nucleoporin FxFG repeats
  75. 2.6Å Resolution Crystal Structure of Helices of the Motile Major Sperm Protein (MSP) of Caenorhabditis elegans
  76. Structure of the C-terminal FG-nucleoporin binding domain of Tap/NXF1
  77. NTF2 monomer-dimer equilibrium 1 1Edited by B. Holland
  78. Interaction between Ran and Mog1 Is Required for Efficient Nuclear Protein Import
  79. Functional Analysis of the Hydrophobic Patch on Nuclear Transport Factor 2 Involved in Interactions with the Nuclear Porein Vivo
  80. Structural basis for bending tropomyosin around actin in muscle thin filaments
  81. Molecular mechanism of translocation through nuclear pore complexes during nuclear protein import
  82. How the assembly dynamics of the nematode major sperm protein generate amoeboid cell motility
  83. Crystallization and Initial X-Ray Diffraction Characterization of Complexes of FxFG Nucleoporin Repeats with Nuclear Transport Factors
  84. Structural Basis for the Interaction between FxFG Nucleoporin Repeats and Importin-β in Nuclear Trafficking
  85. The Molecular Mechanism of Transport of Macromolecules Through Nuclear Pore Complexes
  86. 1.9 Å resolution crystal structure of the Saccharomyces cerevisiae ran-binding protein mog1p 1 1Edited by I. B. Holland
  87. Acting like Actin
  88. Structural basis for the higher Ca2+-activation of the regulated actin-activated myosin ATPase observed with Dictyostelium/Tetrahymena actin chimeras
  89. Crystallization and preliminary X-ray diffraction analysis of theSaccharomyces cerevisiaeRan-binding protein Mog1p
  90. Insights into the Molecular Mechanism of Nuclear Trafficking Using Nuclear Transport Factor 2 (NTF2).
  91. Interaction between NTF2 and xFxFG-containing nucleoporins is required to mediate nuclear import of RanGDP 1 1Edited by I. B. Holland
  92. Localized Depolymerization of the Major Sperm Protein Cytoskeleton Correlates with the Forward Movement of the Cell Body in the Amoeboid Movement of Nematode Sperm
  93. Molecular architecture of the rod domain of the Dictyostelium gelation factor (ABP120)
  94. Structures of nuclear transport components
  95. Engineered mutants in the switch II loop of ran define the contribution made by key residues to the interaction with nuclear transport factor 2 (NTF2) and the role of this interaction in nuclear protein import
  96. The structure of the Q69L mutant of GDP-ran shows a major conformational change in the switch II loop that accounts for its failure to bind nuclear transport factor 2 (NTF2) 1 1Edited by I. B. Holland
  97. Solution structure of the motile major sperm protein (MSP) of Ascaris suum - evidence for two manganese binding sites and the possible role of divalent cations in filament formation 1 1Edited by P. E. Wright
  98. Location of the binding site of the mannose-specific lectin comitin on F-actin 1 1Edited by I. B. Holland
  99. NTF2 mediates nuclear import of Ran
  100. Amoeboid Motility without Actin: Insights into the Molecular Mechanism of Locomotion Using the Major Sperm Protein (MSP) of Nematodes
  101. Structural basis for molecular recognition between nuclear transport factor 2 (NTF2) and the GDP-bound form of the ras-family GTPase ran 1 1Edited by I. B. Holland
  102. Structural cell biology — functional integration in macromolecular assemblages
  103. Structural basis for amoeboid motility in nematode sperm
  104. Nuclear protein import is decreased by engineered mutants of nuclear transport factor 2 (NTF2) that do not bind GDP-Ran
  105. Nematode sperm: amoeboid movement without actin
  106. Molecular interactions between the importin α/β heterodimer and proteins involved in vertebrate nuclear protein import
  107. Separate Binding Sites on Nuclear Transport Factor 2 (NTF2) for GDP-Ran and the Phenylalanine-rich Repeat Regions of Nucleoporins p62 and Nsp1p
  108. 2.5 Å Resolution Crystal Structure of the Motile Major Sperm Protein (MSP) ofAscaris suum
  109. The Motile Major Sperm Protein (MSP) fromAscaris suumis a Symmetric Dimer in Solution
  110. The 1.6 Å Resolution Crystal Structure of Nuclear Transport Factor 2 (NTF2)
  111. New Crystal Forms of the Motile Major Sperm Protein (MSP) ofAscaris suum
  112. Nuclear pores and macromolecular assemblies involved in nucleocytoplasmic transport
  113. Macromolecular assemblages atomic-resolution structural biology of the cell: a progress report
  114. Crystallization and Preliminary X-Ray Diffraction Analysis of Nuclear Transport Factor 2
  115. STRUCTURE AND FUNCTION OF THE SALACHIAN EGG CASE
  116. Reconstitution In Vitro of the Motile Apparatus from the Amoeboid Sperm of Ascaris Shows That Filament Assembly and Bundling Move Membranes
  117. Macromolecular interactions in the nucleoporin p62 complex of rat nuclear pores: binding of nucleoporin p54 to the rod domain of p62
  118. Nematode sperm locomotion
  119. The Motile Major Sperm Protein (MSP) of Ascaris suum Forms Filaments Constructed from Two Helical Subfilaments
  120. Procedures in electron microscopy
  121. Analysis of Repeated Motifs in the Talin Rod
  122. Macromolecular assemblages
  123. Crystallization of the Motile Major Sperm Protein (MSP) of the Nematode Ascaris suum
  124. Intermediate filament structure and assembly
  125. Pathway of incorporation of microinjected lamin A into the nuclear envelope
  126. Structure of tropomyosin at 9 Ångstroms resolution
  127. Nuclear pore structure and function
  128. Molecular interactions in myosin assembly
  129. Molecular interactions in intermediate filaments
  130. Cloning and sequencing of rat plectin indicates a 466-kD polypeptide chain with a three-domain structure based on a central alpha-helical coiled coil
  131. Groping in the dark
  132. Human endothelial actin-binding protein (ABP-280, nonmuscle filamin): a molecular leaf spring
  133. Complete sequence of the Drosophila nonmuscle myosin heavy-chain transcript: conserved sequences in the myosin tail and differential splicing in the 5' untranslated sequence.
  134. Expression and characterization of human lamin C
  135. Association of gold-labelled nucleoplasmin with the centres of ring components of Xenopus oocyte nuclear pore complexes
  136. Structural predictions for the central domain of dystrophin
  137. Intermediate filaments: structure, assembly and molecular interactions
  138. Resolution A Biological Perspective
  139. Electron Microscopy of Biological Macromolecules
  140. The Dictyostelium gelation factor shares a putative actin binding site with alpha-actinins and dystrophin and also has a rod domain containing six 100-residue motifs that appear to have a cross-beta conformation
  141. Molecular interactions in paracrystals of a fragment corresponding to the alpha-helical coiled-coil rod portion of glial fibrillary acidic protein: evidence for an antiparallel packing of molecules and polymorphism related to intermediate filament stru...
  142. The Role of Repeating Sequence Motifs in Interactions Between α-Helical Coiled-Coils such as Myosin, Tropomyosin and Intermediate-Filament Proteins
  143. Transmission electron microscopy of frozen hydrated biological material
  144. The real thing
  145. Preparation of shadowed nuclear envelopes from Xenopus
  146. Computer image processing of electron micrographs of biological structures with helical symmetry
  147. Introduction to the computer image processing of electron micrographs of two-dimensionally ordered biological structures
  148. A new crystal form of tropomyosin
  149. Study of molecular interactions between myosin tails in muscle thick filaments using crosslinking
  150. Structure of the nuclear envelope: Interactions between the nuclear lamina and nuclear pores
  151. Arrangement of myosin heads in relaxed thick filaments from frog skeletal muscle
  152. Electron microscopy of frozen-hydrated biological material
  153. Computer Analysis of Ordered Microbiological Objects
  154. AN ultrastructural study of cross-bridge arrangement in the frog thigh muscle thick filament
  155. Three-dimensional reconstruction of thick filaments from Limulus and scorpion muscle
  156. Crystalline order to high resolution in the sheath of Methanospirillum hungatei: A cross-beta structure
  157. Subunit structure of paired helical filaments in Alzheimer's disease
  158. Cryo-electron microscopy of tropomyosin magnesium paracrystals
  159. Length of myosin rod and its proteolytic fragments determined by electron microscopy
  160. Crystalline sheets of tropomyosin
  161. Frog skeletal muscle thick filaments are three-stranded
  162. Nuclear magnetic resonance evidence for a flexible region at the C-terminus of α-tropomyosin
  163. Ciliary but not saltatory movements are inhibited by vanadate microinjected into living cultured cells
  164. Periodic charge distribution in the intermediate filament proteins desmin and vimentin
  165. 1 H NMR study of long and short myosin S2 fragments
  166. Chain register in myosin rod
  167. A cytoskeletal role for glycolytic enzymes
  168. Structure of Limulus telson muscle thick filaments
  169. The myosin filament
  170. Porcine platelet tropomyosin
  171. Structure of α-tropomyosin magnesium paracrystals
  172. The myosin filament
  173. Structure of the regular surface layer of Spirillum putridiconchylium
  174. High resolution structure of bacterial regular surface layers
  175. Structure of light meromyosin paracrystals
  176. Electron microscopic location of protein thiol residues
  177. Constant and variable regions in glycoprotein hormone beta subunit sequences: Implications for receptor binding specificity
  178. The structure of chicken scale keratin
  179. The troponin binding region of tropomyosin. Evidence for a site near residues 197 to 127
  180. Cross-bridge movement during muscle contraction
  181. Structure of magnesium paracrystals of α-tropomyosin
  182. The 14-fold periodicity in α-tropomyosin and the interaction with actin
  183. Muscle Structure and Function-An Explanation
  184. Paramyosin: Chemical evidence for chain heterogeneity
  185. Tropomyosin coiled-coil interactions: Evidence for an unstaggered structure
  186. Sequence repeats in α-tropomyosin
  187. Fourteen actin-binding sites on tropomyosin?
  188. The Location of the Troponin Binding Site on Tropomyosin
  189. Tropomyosin: Evidence for no stagger between chains
  190. The fracture mechanism of carbon fibres
  191. Organic stains for electron microscopy
  192. Interpretation of Dark Field Electron Micrographs of Carbon Fibres
  193. Morphology of Carbon Fibres
  194. Bipartite NLS