| human | Q5 |
| P1960 | Google Scholar author ID | mhyDk7IAAAAJ |
| P496 | ORCID iD | 0000-0003-2695-7209 |
| P166 | award received | Fellow of the American Association for the Advancement of Science | Q5442484 |
| P1343 | described by source | Vann Bennett: how ankyrin holds it all together. Interview by Caitlin Sedwick | Q43054985 |
| P69 | educated at | Johns Hopkins University | Q193727 |
| P108 | employer | Duke University | Q168751 |
| P734 | family name | Bennett | Q449411 |
| Bennett | Q449411 | ||
| Bennett | Q449411 | ||
| P463 | member of | National Academy of Sciences | Q270794 |
| P106 | occupation | researcher | Q1650915 |
| Q30610760 | A PIK3C3-ankyrin-B-dynactin pathway promotes axonal growth and multiorganelle transport |
| Q24295030 | A cardiac arrhythmia syndrome caused by loss of ankyrin-B function |
| Q91721497 | ANK2 autism mutation targeting giant ankyrin-B promotes axon branching and ectopic connectivity |
| Q38701911 | An Adaptable Spectrin/Ankyrin-Based Mechanism for Long-Range Organization of Plasma Membranes in Vertebrate Tissues. |
| Q24295272 | Ankyrin-B coordinates the Na/K ATPase, Na/Ca exchanger, and InsP3 receptor in a cardiac T-tubule/SR microdomain |
| Q34156654 | Ankyrin-B interactions with spectrin and dynactin-4 are required for dystrophin-based protection of skeletal muscle from exercise injury |
| Q37385297 | Ankyrin-B is a PI3P effector that promotes polarized α5β1-integrin recycling via recruiting RabGAP1L to early endosomes |
| Q40744393 | Ankyrin-B metabolic syndrome combines age-dependent adiposity with pancreatic β cell insufficiency |
| Q33302911 | Ankyrin-B syndrome: enhanced cardiac function balanced by risk of cardiac death and premature senescence |
| Q24299734 | Ankyrin-B targets beta2-spectrin to an intracellular compartment in neonatal cardiomyocytes |
| Q90615307 | Ankyrin-G regulated epithelial phenotype is required for mouse lens morphogenesis and growth |
| Q46748664 | Cell-autonomous adiposity through increased cell surface GLUT4 due to ankyrin-B deficiency |
| Q43127221 | Cholinergic augmentation of insulin release requires ankyrin-B. |
| Q39685667 | Common human ANK2 variant confers in vivo arrhythmia phenotypes |
| Q35111250 | Developmental mechanism of the periodic membrane skeleton in axons |
| Q36850205 | E-cadherin polarity is determined by a multifunction motif mediating lateral membrane retention through ankyrin-G and apical-lateral transcytosis through clathrin |
| Q34312369 | Isoform specificity among ankyrins. An amphipathic alpha-helix in the divergent regulatory domain of ankyrin-b interacts with the molecular co-chaperone Hdj1/Hsp40. |
| Q46861699 | Isoform specificity of ankyrin-B: a site in the divergent C-terminal domain is required for intramolecular association |
| Q42058432 | L1-dependent neuritogenesis involves ankyrinB that mediates L1-CAM coupling with retrograde actin flow. |
| Q24319636 | Nav1.5 E1053K mutation causing Brugada syndrome blocks binding to ankyrin-G and expression of Nav1.5 on the surface of cardiomyocytes |
| Q92881910 | Neurodevelopmental mutation of giant ankyrin-G disrupts a core mechanism for axon initial segment assembly |
| Q86692165 | Spectrin- and ankyrin-based membrane domains and the evolution of vertebrates |
| Q35173196 | Structural basis of diverse membrane target recognitions by ankyrins |
| Q92823963 | βII-spectrin promotes mouse brain connectivity through stabilizing axonal plasma membranes and enabling axonal organelle transport |
| Q43054985 | Vann Bennett: how ankyrin holds it all together. Interview by Caitlin Sedwick | talk show guest | P5030 |
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