| scholarly article | Q13442814 |
| P819 | ADS bibcode | 2020NatCo..11.5053M |
| P356 | DOI | 10.1038/S41467-020-18841-7 |
| P698 | PubMed publication ID | 33028821 |
| P50 | author | María Ángela Nieto Toledano | Q19766191 |
| Oscar H Ocaña | Q59140312 | ||
| Jin-Ah Park | Q96246135 | ||
| Stephen Decamp | Q42872429 | ||
| P2093 | author name string | James P Butler | |
| Jeffrey J Fredberg | |||
| Amit Das | |||
| Jennifer A Mitchel | |||
| Michael J O'Sullivan | |||
| Stephan Koehler | |||
| Dapeng Bi | |||
| Ian T Stancil | |||
| P2860 | cites work | The chitinase-like protein YKL-40 is secreted by airway epithelial cells at base line and in response to compressive mechanical stress | Q24292760 |
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| Energy barriers and cell migration in densely packed tissues | Q87485712 | ||
| Flocking transitions in confluent tissues | Q88469552 | ||
| Adjustable viscoelasticity allows for efficient collective cell migration | Q88959747 | ||
| EMT Subtype Influences Epithelial Plasticity and Mode of Cell Migration | Q89151859 | ||
| Irradiation Induces Epithelial Cell Unjamming | Q89967570 | ||
| Tissue rheology in embryonic organization | Q90073173 | ||
| Dense active matter model of motion patterns in confluent cell monolayers | Q90371762 | ||
| Airway epithelial compression promotes airway smooth muscle proliferation and contraction | Q90709087 | ||
| EMT Transition States during Tumor Progression and Metastasis | Q90804085 | ||
| Geometric constraints during epithelial jamming | Q91168146 | ||
| Unjamming and collective migration in MCF10A breast cancer cell lines | Q91170766 | ||
| Tissue Fluidity Promotes Epithelial Wound Healing | Q91175753 | ||
| The Cellular and Physiological Basis for Lung Repair and Regeneration: Past, Present, and Future | Q91536494 | ||
| EMT and Cancer: More Than Meets the Eye | Q91823867 | ||
| Epithelial-Mesenchymal Plasticity in Cancer Progression and Metastasis | Q91823904 | ||
| Guidelines and definitions for research on epithelial-mesenchymal transition | Q92000384 | ||
| Unjamming overcomes kinetic and proliferation arrest in terminally differentiated cells and promotes collective motility of carcinoma | Q92093560 | ||
| Quantitative assessment of airway remodelling and response to allergen in asthma | Q92198988 | ||
| Mesenchymal proteases and tissue fluidity remodel the extracellular matrix during airway epithelial branching in the embryonic avian lung | Q92350983 | ||
| Pressure sensing through Piezo channels controls whether cells migrate with blebs or pseudopods | Q92823123 | ||
| Mechanical forces induce an asthma gene signature in healthy airway epithelial cells | Q92860321 | ||
| Increased extracellular maspin levels after mechanical compression in vitro or allergen challenge in vivo | Q92953566 | ||
| A pooled single-cell genetic screen identifies regulatory checkpoints in the continuum of the epithelial-to-mesenchymal transition | Q93065118 | ||
| E-cadherin is required for metastasis in multiple models of breast cancer | Q93107332 | ||
| The Human Lung Cell Atlas: A High-Resolution Reference Map of the Human Lung in Health and Disease | Q93155088 | ||
| New insights into the mechanisms of epithelial-mesenchymal transition and implications for cancer | Q93252546 | ||
| Dynamic heterogeneity comes to life | Q93524551 | ||
| Mechanical induction and competence in epithelial morphogenesis | Q94592404 | ||
| Epithelial-to-mesenchymal transition and different migration strategies as viewed from the neural crest | Q96343817 | ||
| Rules of collective migration: from the wildebeest to the neural crest | Q97879940 | ||
| Dynamic heterogeneity influences the leader-follower dynamics during epithelial wound closure | Q97879973 | ||
| Cell-cell adhesion and 3D matrix confinement determine jamming transitions in breast cancer invasion | Q98665163 | ||
| Cell swelling, softening and invasion in a three-dimensional breast cancer model | Q99241197 | ||
| Collective cell motion in endothelial monolayers | Q30498237 | ||
| Substrate stiffness regulates cadherin-dependent collective migration through myosin-II contractility. | Q30527788 | ||
| Collective cell streams in epithelial monolayers depend on cell adhesion | Q30559808 | ||
| Mechanical feedback through E-cadherin promotes direction sensing during collective cell migration | Q30585627 | ||
| Cell density and actomyosin contractility control the organization of migrating collectives within an epithelium | Q30834264 | ||
| The influence of cell mechanics, cell-cell interactions, and proliferation on epithelial packing | Q33310528 | ||
| EMT cells increase breast cancer metastasis via paracrine GLI activation in neighbouring tumour cells | Q33804808 | ||
| EMT and MET: necessary or permissive for metastasis? | Q33869775 | ||
| Epithelial-to-mesenchymal transition is dispensable for metastasis but induces chemoresistance in pancreatic cancer. | Q34045380 | ||
| Mechanical Stress Inference for Two Dimensional Cell Arrays | Q34276967 | ||
| Cell movements during vertebrate development: integrated tissue behaviour versus individual cell migration | Q34305824 | ||
| On the mechanism of mucosal folding in normal and asthmatic airways | Q34448468 | ||
| Glass-like dynamics of collective cell migration. | Q34720538 | ||
| Morphogenetic cell movements: diversity from modular mechanical properties | Q34895558 | ||
| Do airway epithelium air-liquid cultures represent the in vivo airway epithelium transcriptome? | Q34985420 | ||
| Collective cell guidance by cooperative intercellular forces | Q35103305 | ||
| Vimentin is sufficient and required for wound repair and remodeling in alveolar epithelial cells | Q35497144 | ||
| Dynamic actin remodeling during epithelial-mesenchymal transition depends on increased moesin expression. | Q35612241 | ||
| Analysis of the TGFβ-induced program in primary airway epithelial cells shows essential role of NF-κB/RelA signaling network in type II epithelial mesenchymal transition. | Q35695796 | ||
| MAP kinases and cell migration | Q35889220 | ||
| Mechanical stress is communicated between different cell types to elicit matrix remodeling | Q35933851 | ||
| The Snail genes as inducers of cell movement and survival: implications in development and cancer. | Q36177031 | ||
| Unjamming and cell shape in the asthmatic airway epithelium. | Q36337484 | ||
| Physics of active jamming during collective cellular motion in a monolayer | Q36394395 | ||
| Tissue factor–bearing exosome secretion from human mechanically stimulated bronchial epithelial cells in vitro and in vivo | Q36438085 | ||
| Spatiotemporal Regulation of Epithelial-Mesenchymal Transition Is Essential for Squamous Cell Carcinoma Metastasis | Q36467995 | ||
| A comparison of epithelial-to-mesenchymal transition and re-epithelialization | Q36678367 | ||
| Plasticity between Epithelial and Mesenchymal States Unlinks EMT from Metastasis-Enhancing Stem Cell Capacity | Q36713524 | ||
| IL-13 Augments Compressive Stress-Induced Tissue Factor Expression in Human Airway Epithelial Cells | Q36765997 | ||
| On the Quantification of Cellular Velocity Fields | Q36804165 | ||
| Putting the Squeeze on Airway Epithelia | Q36956289 | ||
| Transient SNAIL1 expression is necessary for metastatic competence in breast cancer | Q37047272 | ||
| Epithelial restitution and wound healing in inflammatory bowel disease | Q37058859 | ||
| EMT 2.0: shaping epithelia through collective migration | Q37493036 | ||
| Epithelial-mesenchymal transitions: the importance of changing cell state in development and disease. | Q37504561 | ||
| Collective cell migration | Q37540161 | ||
| Collective cell migration of the cephalic neural crest: the art of integrating information | Q37820947 | ||
| Epithelial-mesenchymal transitions: from cell plasticity to concept elasticity. | Q38367022 | ||
| Theory for epithelial-mesenchymal transformation based on the "fixed cortex" cell motility model | Q38769521 | ||
| Context-specific roles of EMT programmes in cancer cell dissemination | Q38817956 | ||
| Actomyosin-based tissue folding requires a multicellular myosin gradient | Q38825764 | ||
| Using cell deformation and motion to predict forces and collective behavior in morphogenesis. | Q38833947 | ||
| EMT: 2016. | Q38883448 | ||
| Collective migration and cell jamming in asthma, cancer and development | Q38934429 | ||
| TGF-β isoforms induce EMT independent migration of ovarian cancer cells | Q38950894 | ||
| Cell jamming: collective invasion of mesenchymal tumor cells imposed by tissue confinement. | Q39005469 | ||
| A common framework for EMT and collective cell migration. | Q39023896 | ||
| Tuning Collective Cell Migration by Cell-Cell Junction Regulation. | Q39092645 | ||
| Collective cell migration: a physics perspective. | Q39172817 | ||
| Metastatic colonization requires the repression of the epithelial-mesenchymal transition inducer Prrx1. | Q39234744 | ||
| Developmental transcription factor slug is required for effective re-epithelialization by adult keratinocytes. | Q40511533 | ||
| Mechanotransduction through growth-factor shedding into the extracellular space | Q40563816 | ||
| Snail1-induced partial epithelial-to-mesenchymal transition drives renal fibrosis in mice and can be targeted to reverse established disease | Q40666383 | ||
| Mechanisms of mechanical signaling in development and disease | Q41141337 | ||
| Tumour heterogeneity promotes collective invasion and cancer metastatic dissemination | Q41580419 | ||
| Collective cell migration: leadership, invasion and segregation | Q41774098 | ||
| Evidence for partial epithelial‐to‐mesenchymal transition (pEMT) and recruitment of motile blastoderm edge cells during avian epiboly | Q41947542 | ||
| Endocytic reawakening of motility in jammed epithelia | Q42175692 | ||
| Motility-driven glass and jamming transitions in biological tissues. | Q42366119 | ||
| Interaction of embryonic surface and cytoskeleton with extracellular matrix | Q42469239 | ||
| Bronchial epithelial compression regulates MAP kinase signaling and HB-EGF-like growth factor expression | Q42519939 | ||
| Chronic intermittent mechanical stress increases MUC5AC protein expression | Q42560001 | ||
| Engulfed cadherin fingers are polarized junctional structures between collectively migrating endothelial cells | Q45047047 | ||
| Upholding a role for EMT in breast cancer metastasis. | Q46064724 | ||
| Cell volume change through water efflux impacts cell stiffness and stem cell fate | Q46687120 | ||
| Amplification of airway constriction due to liquid filling of airway interstices | Q46793451 | ||
| The epithelial-mesenchymal transition of the Drosophila mesoderm requires the Rho GTP exchange factor Pebble | Q47070845 | ||
| Tension, contraction and tissue morphogenesis | Q47355011 | ||
| Propagating Wave of ERK Activation Orients Collective Cell Migration. | Q47430678 | ||
| EMT in cancer | Q47736873 | ||
| ERK activation propagates in epithelial cell sheets and regulates their migration during wound healing. | Q47765558 | ||
| Induction of epithelial-mesenchymal transition in primary airway epithelial cells from patients with asthma by transforming growth factor-beta1. | Q47906103 | ||
| Active jamming: self-propelled soft particles at high density | Q48022196 | ||
| The basics of epithelial-mesenchymal transition. | Q49278253 | ||
| Adhesion forces and cortical tension couple cell proliferation and differentiation to drive epidermal stratification. | Q49919162 | ||
| Efficient subpixel image registration algorithms | Q51623923 | ||
| Cell motility in cancer invasion and metastasis: insights from simple model organisms. | Q52353297 | ||
| P433 | issue | 1 | |
| P304 | page(s) | 5053 | |
| P577 | publication date | 2020-10-07 | |
| P1433 | published in | Nature Communications | Q573880 |
| P1476 | title | In primary airway epithelial cells, the unjamming transition is distinct from the epithelial-to-mesenchymal transition | |
| P478 | volume | 11 |
| Q101038745 | Epithelial layer unjamming shifts energy metabolism toward glycolysis | cites work | P2860 |
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