| human | Q5 |
| P6178 | Dimensions author ID | 01113240543.99 |
| P496 | ORCID iD | 0000-0003-2238-6189 |
| P1416 | affiliation | Vanderbilt Department of Cell and Developmental Biology | Q89953912 |
| P108 | employer | Vanderbilt University | Q29052 |
| P735 | given name | Matthew | Q4927231 |
| Matthew | Q4927231 | ||
| P106 | occupation | researcher | Q1650915 |
| P21 | sex or gender | male | Q6581097 |
| Q100533149 | A heterologous in-cell assay for investigating intermicrovillar adhesion complex interactions reveals a novel protrusion length matching mechanism |
| Q28574467 | A role for myosin-1A in the localization of a brush border disaccharidase |
| Q27349479 | A structural model for binding of the serine-rich repeat adhesin GspB to host carbohydrate receptors |
| Q28115836 | ANKS4B Is Essential for Intermicrovillar Adhesion Complex Formation |
| Q92396343 | Actin Dynamics Drive Microvillar Motility and Clustering during Brush Border Assembly |
| Q92901715 | Actin assembly and non-muscle myosin activity drive dendrite retraction in an UNC-6/Netrin dependent self-avoidance response |
| Q39554392 | Amphiregulin exosomes increase cancer cell invasion. |
| Q90892131 | An alternative N-terminal fold of the intestine-specific annexin A13a induces dimerization and regulates membrane-binding |
| Q50653710 | Apical vesicle trafficking takes center stage in neonatal enteropathies. |
| Q42364806 | Brush Border Destruction by Enterohemorrhagic Escherichia coli (EHEC): New Insights From Organoid Culture |
| Q58599192 | Brush border protocadherin CDHR2 promotes the elongation and maximized packing of microvilli in vivo |
| Q35669213 | Constitutively active ezrin increases membrane tension, slows migration, and impedes endothelial transmigration of lymphocytes in vivo in mice |
| Q30489048 | Control of cell membrane tension by myosin-I. |
| Q27305309 | Cordon bleu promotes the assembly of brush border microvilli |
| Q93572206 | Correction: A Structural Model for Binding of the Serine-Rich Repeat Adhesin GspB to Host Carbohydrate Receptors |
| Q91493211 | Correction: Disruption of Rab8a and Rab11a causes formation of basolateral microvilli in neonatal enteropathy (doi: 10.1242/jcs.201897) |
| Q30786606 | Cortactin promotes exosome secretion by controlling branched actin dynamics |
| Q28594611 | Detection of rare antigen-presenting cells through T cell-intrinsic meandering motility, mediated by Myo1g. |
| Q38353766 | Differential gene expression in normal esophagus and Barrett's esophagus |
| Q28584195 | Differential localization and dynamics of class I myosins in the enterocyte microvillus |
| Q38735421 | Disruption of Rab8a and Rab11a causes formation of basolateral microvilli in neonatal enteropathy. |
| Q42230943 | Dynamics of brush border remodeling induced by enteropathogenic E. coli |
| Q35888490 | Enterocyte microvillus-derived vesicles detoxify bacterial products and regulate epithelial-microbial interactions. |
| Q39051909 | Exosome secretion is enhanced by invadopodia and drives invasive behavior |
| Q24303720 | Expression and localization of myosin-1d in the developing nervous system |
| Q36803149 | Extracellular vesicles: communication, coercion, and conditioning |
| Q27325820 | Focal adhesions control cleavage furrow shape and spindle tilt during mitosis |
| Q36371273 | High-Resolution Image Stitching as a Tool to Assess Tissue-Level Protein Distribution and Localization |
| Q36303191 | Human deafness mutation E385D disrupts the mechanochemical coupling and subcellular targeting of myosin-1a |
| Q57752430 | IRTKS (BAIAP2L1) Elongates Epithelial Microvilli Using EPS8-Dependent and Independent Mechanisms |
| Q42760014 | Impact of cordon-bleu expression on actin cytoskeleton architecture and dynamics |
| Q42380606 | Impact of the Motor and Tail Domains of Class III Myosins on Regulating the Formation and Elongation of Actin Protrusions |
| Q24294411 | Intestinal brush border assembly driven by protocadherin-based intermicrovillar adhesion |
| Q33965456 | Leveraging the membrane - cytoskeleton interface with myosin-1. |
| Q91137792 | Loss of MYO5B Leads to Reductions in Na+ Absorption With Maintenance of CFTR-Dependent Cl- Secretion in Enterocytes |
| Q90339196 | Loss of myosin Vb promotes apical bulk endocytosis in neonatal enterocytes |
| Q42554416 | Membrane-bound myo1c powers asymmetric motility of actin filaments |
| Q37621669 | Motor and tail homology 1 (Th1) domains antagonistically control myosin-1 dynamics |
| Q60958064 | Muscle-specific stress fibers give rise to sarcomeres in cardiomyocytes |
| Q39005661 | MyTH4-FERM myosins in the assembly and maintenance of actin-based protrusions |
| Q30581661 | Myosin Vb uncoupling from RAB8A and RAB11A elicits microvillus inclusion disease |
| Q36563751 | Myosin at work: motor adaptations for a variety of cellular functions |
| Q34985570 | Myosin motor function: the ins and outs of actin-based membrane protrusions. |
| Q30513876 | Myosin-1A targets to microvilli using multiple membrane binding motifs in the tail homology 1 (TH1) domain |
| Q28512472 | Myosin-1a is critical for normal brush border structure and composition |
| Q30480441 | Myosin-1a powers the sliding of apical membrane along microvillar actin bundles. |
| Q33895781 | Myosin-1a: A motor for microvillar membrane movement and mechanics |
| Q42365129 | Myosin-7b Promotes Distal Tip Localization of the Intermicrovillar Adhesion Complex |
| Q28215994 | Myosin-IXb is a single-headed and processive motor |
| Q35208561 | Myosin-V motility: these levers were made for walking |
| Q100481571 | Non-muscle myosin-2 contractility-dependent actin turnover limits the length of epithelial microvilli |
| Q33752333 | Optimized multiplex immunofluorescence single-cell analysis reveals tuft cell heterogeneity |
| Q92475582 | PACSIN2-dependent apical endocytosis regulates the morphology of epithelial microvilli |
| Q90677914 | Profilin-Mediated Actin Allocation Regulates the Growth of Epithelial Microvilli |
| Q24293478 | Proteomic analysis of the enterocyte brush border |
| Q36304085 | Ready…aim…fire into the lumen: a new role for enterocyte microvilli in gut host defense |
| Q34566715 | Shaping the intestinal brush border |
| Q49403566 | Shear stress induces noncanonical autophagy in intestinal epithelial monolayers. |
| Q43058873 | Structure of Myo7b/USH1C complex suggests a general PDZ domain binding mode by MyTH4-FERM myosins. |
| Q100426962 | The Huntingtin-interacting protein SETD2/HYPB is an actin lysine methyltransferase |
| Q34989756 | The enterocyte microvillus is a vesicle-generating organelle |
| Q28216645 | The myosin power stroke |
| Q90629579 | The small EF-hand protein CALML4 functions as a critical myosin light chain within the intermicrovillar adhesion complex |
| Q111641797 | A Reductionist Study into the Physiology, Pathology, and Pharmacology of the Mitotic Spindle |
| Q94449854 | Cell Cycle-Dependent Dynamics of the Golgi-Centrosome Association in Motile Cells |
| Q111638472 | Cellular Responses to the Helicobacter pylori Pore-Forming Toxin, VacA |
| Q111639984 | Characterization of the Mechanisms Involved in Maintenance of Apical Trafficking and Polarity in Intestinal Epithelial Cells |
| Q111641025 | Examination of Hnf6 and downstream effectors in postnatal endocrine function |
| Q111643099 | Genome-Wide CRISPR Screen Identifies Noncanonical NF-κB Signaling as a Regulator of Epithelial Homeostasis |
| Q111636446 | Identification of a role for integrin alpha 5 in colonic epithelial morphogenesis |
| Q111640960 | Mechanisms of BAR Protein Function in Brush Border Assembly |
| Q111643117 | Mechanistic insights into anchoring the cytokinetic ring |
| Q111639846 | Regulation of the Wnt Pathway by TGFbeta and DYRK2: Mechanisms of Disease and Signal Transduction |
| Q111642991 | Reparative Cells are Recruited to Sites of Gastric Injury: Lessons from Oxidative Stress and Innate Immune Responses |
| Q111639055 | SAN1 - a novel nuclease involved in interstrand cross-link repair |
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