| scholarly article | Q13442814 |
| P50 | author | Zilong Wen | Q50558498 |
| Mingjie Zhang | Q52571130 | ||
| Zhiyi Wei | Q55117833 | ||
| Qing Lu | Q58888963 | ||
| P2093 | author name string | Fei Ye | |
| P2860 | cites work | Myosin-V is a processive actin-based motor | Q22003739 |
| Myosin-X is a molecular motor that functions in filopodia formation | Q24299253 | ||
| Visualization of an unstable coiled coil from the scallop myosin rod | Q27641690 | ||
| Myosin VI Dimerization Triggers an Unfolding of a Three-Helix Bundle in Order to Extend Its Reach | Q27656923 | ||
| Myosin VI undergoes cargo-mediated dimerization | Q27656929 | ||
| Cargo recognition mechanism of myosin X revealed by the structure of its tail MyTH4-FERM tandem in complex with the DCC P3 domain | Q27666969 | ||
| Structural basis of the myosin X PH1N-PH2-PH1C tandem as a specific and acute cellular PI(3,4,5)P3 sensor | Q27674679 | ||
| Molecular motors: structural adaptations to cellular functions | Q28251722 | ||
| Myosin V walks hand-over-hand: single fluorophore imaging with 1.5-nm localization | Q29615477 | ||
| The motor activity of myosin-X promotes actin fiber convergence at the cell periphery to initiate filopodia formation. | Q30480576 | ||
| A myosin motor that selects bundled actin for motility | Q30482736 | ||
| Single-molecule stepping and structural dynamics of myosin X. | Q30494681 | ||
| Structured post-IQ domain governs selectivity of myosin X for fascin-actin bundles | Q30496161 | ||
| Myosin X transports Mena/VASP to the tip of filopodia. | Q31065358 | ||
| Myosin-X, a novel myosin with pleckstrin homology domains, associates with regions of dynamic actin. | Q33917620 | ||
| Myosin-X is an unconventional myosin that undergoes intrafilopodial motility. | Q34115035 | ||
| Myosin-X provides a motor-based link between integrins and the cytoskeleton. | Q34322246 | ||
| Role of the lever arm in the processive stepping of myosin V. | Q34392475 | ||
| Myosin-X: a MyTH-FERM myosin at the tips of filopodia | Q35576442 | ||
| Structural and functional insights into the Myosin motor mechanism | Q37700646 | ||
| Principles of unconventional myosin function and targeting | Q37884613 | ||
| A novel form of motility in filopodia revealed by imaging myosin-X at the single-molecule level | Q41978648 | ||
| Phospholipid-dependent regulation of the motor activity of myosin X. | Q52612413 | ||
| The predicted coiled-coil domain of myosin 10 forms a novel elongated domain that lengthens the head. | Q52857621 | ||
| Three-dimensional structure of the myosin V inhibited state by cryoelectron tomography | Q83177861 | ||
| P433 | issue | 43 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 17388-93 | |
| P577 | publication date | 2012-10-23 | |
| P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
| P1476 | title | Antiparallel coiled-coil-mediated dimerization of myosin X | |
| P478 | volume | 109 |
| Q30826156 | A Combination of Diffusion and Active Translocation Localizes Myosin 10 to the Filopodial Tip |
| Q30841590 | Activated full-length myosin-X moves processively on filopodia with large steps toward diverse two-dimensional directions |
| Q38123436 | An overview of tools for the validation of protein NMR structures. |
| Q38974749 | Assembly mechanism of Trypanosoma brucei BILBO1, a multidomain cytoskeletal protein |
| Q37000324 | Competition between Coiled-Coil Structures and the Impact on Myosin-10 Bundle Selection |
| Q61821271 | Dynamic ion pair behavior stabilizes single alpha helices in proteins |
| Q97545849 | Molecular assemblies built with the artificial protein Pizza |
| Q28585827 | Mouse myosin-19 is a plus-end-directed, high-duty ratio molecular motor |
| Q37515120 | MyTH4-FERM myosins have an ancient and conserved role in filopod formation |
| Q39005661 | MyTH4-FERM myosins in the assembly and maintenance of actin-based protrusions |
| Q41246367 | Myosin Vc Is Specialized for Transport on a Secretory Superhighway |
| Q36378456 | Myosin X dimerization and its impact on cellular functions |
| Q37245779 | Myosin-10 independently influences mitotic spindle structure and mitotic progression |
| Q33607079 | Myosin-10 produces its power-stroke in two phases and moves processively along a single actin filament under low load |
| Q26825835 | Myosin-X and disease |
| Q47139973 | Myosin-X knockout is semi-lethal and demonstrates that myosin-X functions in neural tube closure, pigmentation, hyaloid vasculature regression, and filopodia formation. |
| Q60949857 | Myosins in Osteoclast Formation and Function |
| Q51377017 | Myosins: Domain Organisation, Motor Properties, Physiological Roles and Cellular Functions. |
| Q90702016 | Optimized filopodia formation requires myosin tail domain cooperation |
| Q61444640 | Phenotypic analysis of Myo10 knockout (Myo10) mice lacking full-length (motorized) but not brain-specific headless myosin X |
| Q89816880 | Simultaneous tracking of two motor domains reveals near simultaneous steps and stutter steps of myosin 10 on actin filament bundles |
| Q30588808 | Stable single α-helices are constant force springs in proteins |
| Q38722191 | Structural Basis of Cargo Recognition by Unconventional Myosins in Cellular Trafficking |
| Q88202227 | The Antiparallel Dimerization of Myosin X Imparts Bundle Selectivity for Processive Motility |
| Q27333243 | The myosin X motor is optimized for movement on actin bundles |
| Q92156441 | Unconventional Myosins: How Regulation Meets Function |
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